Influential Modes of Transportation

Influential Modes of Transportation
Influential Modes of Transportation

2-1 Discussion: Influential Modes of Transportation

Part A: In your post, discuss what you believe to be the most influential modern advancement in transportation. Provide examples to illustrate the reasoning behind your decision and expand on what benefits this advancement has brought to modern transportation and its effect on local, national, and global economies.

Part B: In response to your peers, evaluate their choice and the reasoning behind it. Is there a complementary element between what they selected and your post?

You should also include relevant research and sources related to this topic. Be sure to use proper citation and formatting.

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Critical Thinking: Windows Networks

Critical Thinking: Windows Networks
    Critical Thinking: Windows Networks

Critical Thinking: Windows Networks

Assignment Details:

Microsoft Windows computers can be very useful by themselves, but they are far more effective when they are able to communicate with one another. In an essay, address the following:

Discuss the techniques that many organizations use to ensure that their Windows networks are secure.
Additionally, examine how to connect computers together without risking your organization’s information to loss, alteration, or disclosure.
Provide an example of how each principle of the CIA triad can be used to secure the network
Provide information from your readings to support your statements.

Deliverables:

Your well-written essay should be 4-5 pages in length, incorporating at least two academic sources from the Library in addition to the case study. Cite all sources using Saudi Electronic University academic writing standards and APA style guidelines found in the Library, citing references as appropriate.

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Protecting National Infrastructure Essay Paper

Protecting National Infrastructure
Protecting National Infrastructure

Protecting National Infrastructure

This assignment will be one of several throughout your PhD program that we use to help you prepare for the dissertation process. You’ll have to identify similar research, read the papers, and assimilate prior work into your own research. An annotated bibliography helps you develop and hone these research skills.

Your paper will be an annotated bibliography, specifically focusing on the “Depth” topic (i.e. Defense in Depth) in the context of protecting National Infrastructure.

You paper must be in correct APA format, use correct grammar, and will need to include at least seven (7) resources, ALL of which must:

1) Be current. Published within the last few years.

2) Be peer-reviewed.

3) Relate directly to Defense in Depth in the context of protecting National Infrastructure.

Remember that an annotation is not the same as an abstract. Abstracts are descriptive. Your annotations are to be evaluative and critical. Give me enough information for me to decide if I’m interested enough to read the paper, and also how you perceive the paper. Don’t go skimpy on these annotations, but DO NOT write too much here. Quality is far more important that quantity. This exercise is for each of you to demonstrate that you can identify, categorize, and digest multiple research papers.

Every resource you choose must be peer reviewed. That means the paper must have undergone a formal peer review before being published in a journal or presented at a conference. You must ensure that your resources have undergone rigorous reviews. In most cases, you can find out the review process for a conference or journal by visiting the appropriate web site. Do not simply assume that a resource is peer reviewed – check it out.

Here are a few URLs with additional information: (I strongly suggest that you look at these. Really.)

https://sites.umuc.edu/library/libhow/bibliography…

https://www.bethel.edu/library/research/apa-annobib-sixth.pdf\

http://libguides.enc.edu/writing_basics/annotatedb..<<<< Check out the “Rules! rules! rules!” section

http://guides.library.cornell.edu/annotatedbibliog…

https://owl.english.purdue.edu/owl/resource/614/03…

Remember that this is a doctorate level course and this assignment should be treated as such.

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Smart cities & regions around the world

Smart cities & regions around the world
    Smart cities & regions around the world

Smart cities & regions around the world

1. research on Smart Cities and Regions from Around the World.
2. Create a 25 page annotated bibliography which covers research on smart cities and regions from around the world.
3. Compare and contrast how countries and government from around the world are using smart cities to improve public policy.
4. Review the proposal concepts and focus your research and annotated bibliography around points of emphasis in the proposal.
5. Incorporate in your annotated bibliography the number of surveys that have been conducted on smart cities.

The course is Public Administration / Public Policy

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Improvement of transportation networks in California

Improvement of transportation networks in California
Improvement of transportation networks in California

The socio-economic effects of the people as a result of improvement of transportation networks in California

Order Instructions:

Topic Question
The Concept Paper (CP) should include average of 60 pages, about 100 references (I already have the prevailing wage references, probably over 50 references need for material regarding transportation projects), and annotated bibliography.
I incorporated prevailing wage laws into the body the produced questions to use 50+ researches and work in the past. The Chair liked the three topics. The Chair was just concerned whether can be achievable. I must Report to the Chair frequently therefore, I need to have the writer to email me his/her progress every two days and the end the final CP. I will constantly report back with the feedback from the Chair until the approval. Example of questions forwarded to the chair is illustrated below. I personally like the number two question, what is your opinion and suggestion?

1. What are the likely environmental aspects that require consideration in the improvement of transportation in California considering the prevailing wage laws?
2. What are the economic benefits associated with improvement of transportation facilities in California and the magnitude of its effects on the daily lives of people with the respect to the prevailing wage laws?
3. Is opening up new transportation corridors in California in any way beneficial to food and agriculture industry allowing for the prevailing wage laws?

I will forward (to Bonnie at support) the CP template that should be written exactly according to the template guidelines and headings must be exactly the same without alteration. Supporting material will be sent too. The writer shall ask me any material needed for completing the CP.

Thanks,
Shahram Fahim

SAMPLE ANSWER

Improvement of transportation networks in California

 

NORTHCENTRAL UNIVERSITY

ASSIGNMENT COVER SHEET

Student:  Shahram Fahim                            

THIS FORM MUST BE COMPLETELY FILLED IN

Follow these procedures:  If requested by your instructor, please include an assignment cover sheet. This will become the first page of your assignment. In addition, your assignment header should include your last name, first initial, course code, dash, and assignment number. This should be left justified, with the page number right justified. For example:

DoeJXXX0000-1                                                                          1

Save a copy of your assignments: You may need to re-submit an assignment at your instructor’s request. Make sure you save your files in accessible location.

Academic integrity: All work submitted in each course must be your own original work. This includes all assignments, exams, term papers, and other projects required by your instructor. Knowingly submitting another person’s work as your own, without properly citing the source of the work, is considered plagiarism. This will result in an unsatisfactory grade for the work submitted or for the entire course. It may also result in academic dismissal from the University.

   
DIS9504B-6 Dr. Julia Watkins
   
Doctoral Dissertation Research I 6 Concept Paper Introduction
   

Socio-economic Effects Associated with Transportation Facilities’ Improvement in California, United States

Concept Paper

Submitted to North central University

Graduate Faculty of the School of BUSINESS AND TECHNOLOGY MANAGEMENT

in Partial Fulfillment of the

Requirements for the Degree of

DOCTOR OF PHILOSOPH

by

SHAHRAM FAHIM

Prescott Valley, Arizona

September, 2016

Table of Contents

Introduction. 1

Statement of the Problem.. 3

Purpose of the Study. 4

Research Questions. 5

Hypotheses. 5

Definition of Key Terms. 6

Theoretical Framework…… 8

Brief Review of the Literature. 26

Background of the study …………………………………….………………………26

Transportation Investment and Socio-Economic Impact ..………………………… 28

Mobility……………………………………………………………………………. 36

Market Accessibility………………………………………………………………..43

Spending impact ……………………………………………………………………50

Relationship between improved transportation and socio-economic development…53

Summary. 62

Research Method. 65

Operational Definition of Variables. 69

Measurement 70

Summary. 77

References. 78

Appendix A.. 86

Introduction

As demand for effective travel continues to increase, this trend has prompted transportation projects investments to improve transportation infrastructure and network (Cooper, 2012). Bell (2013) notes that the response of both federal and state governments to this increased demand has been through ambitious projects to improve transportation infrastructure. Transportation involves the movement of goods and human beings from one location to another, which is enabled by different modes of transportation including road, air, water, and rail (Alstadt, 2012). According to “The Theory of Transportation”, as proposed by Cooley (1894), the development or improvement of transportation requires involvement of general agencies such as political, associations or private, instead of individuals, subsequently resulting to fundamentalism and generalized degree of organization of transportation process as pertains to the society. Therefore, transport projects should be carried on bearing in mind that, their general aims are under considerations through uniform methods and unified instruments (Cooley, 1894).

According to Carrion and Levinson (2013), the articulation of transportation theory provides an explanation of how traffic contributes to mechanical and geographical concepts of transportation, the relationship between air, waterways and land transport with regards to naturally prevailing conditions. The contribution of transportation to socio-economic effects within a population focuses on the society organization, political organization, economic organization, the spatial location of towns, markets, as well as cities in a region (Alstadt, 2012). The transportation industry is constituted by different modes of transportation, operations,  as well as physical facilities and infrastructure, which play an imperative role in enabling of socio-economic growth, especially by increasing inter-trade between people and regions (Levinson & Huang, 2012).

Improvement of the transportation infrastructure is fundamental in the enhancement of socio-economic outcomes, particularly through increased level of income arising from opened up markets for both labor and consumer goods (Banister, 2012).   According to McDermott (2011), transport infrastructure improvement is attributable to different socio-economic benefits such as reduced travel delays, improved mobility of goods and people as well as increased accessibility of distinct locations that are geographically dispersed. As a result, transportation infrastructure improvement through increased government investment is attributable to improved quality of life, which automatically linked to people’s occupation, healthiness, teaching, and recreational activities among other roles that are directly related to socio-economic activities within a population (Bell, 2013; Carrion & Levinson, 2013).

In particular, the State of California is engaged in transportation improvement just like other states across the country, even though with the envisaged economic expansion, its transportation improvement program seems inadequate to cope with the anticipated demand (Kernohan & Rognlien, 2011). This is because the expected rate of economic expansion in the State of California is not likely to match that of transport expansion, and this necessitates an investigation of how the two relate to each other, and determine the specific socio-economic effects likely to accrue from the observed relationship (Cooper, 2012). As such, there is need for a more ambitious approach of improving transportation in order for the socio-economic status improvement among California population to be achieved (Saunders & Dalziel, 2014).

Statement of the Problem

The relationship between transportation and socio-economic growth and physical activity has been the pivotal focus of various key studies (Cooley, 1894; Banister, 2002; Banister & Berechman, 2012; Durant et al., 2016). Over the last two centuries since considerable investments in transportation improvement began, there has been inadequate information on the relationship between economic development and the transportation services. The issue has been subject to debate by government agencies, development partners and scholars. Investment in the transport sector is seen as a boost or catalyst for economic growth (Stillwell, Geertman, & Openshaw, 2013). In regions across the world, transport infrastructures have been seen as an imperative sector and are significant drivers in the promotion of balanced and sustainable development socially because they improve opportunities and accessibility of less developed regions or disadvantaged social groups. The fundamental aim of the current paper is to unearth if there is any relationship between the transport systems in the society and the socio-economic development. Specifically, the study aims to come up with socio-economic effects associated with the increased transport infrastructural systems (Weisbrod, 2011; Banerjeey, Dufloz & Qian, 2012; Bell, 2013). The problem addressed in this study is that there has been significant investment dedicated to the Gold Line Foothill Extension project, which is a light rail line that was opened in March 5, 2016 at Los Angeles, California State (Nelson, 2016), however, the relationship between the extent of investments in the transport sector and the cost of travel and income level effects is yet to be evaluated (Weisbrod, 2011; MacKinnon, Pine & Gather, 2012; Bell, 2013).

Purpose of the Study

The purpose of this qualitative longitudinal cohort research design study is to examine if there is relationship between transportation infrastructure improvement and increased travel accessibility, increased transit use as well as increased physical activity in a sample of transport workers in the State of California. The study population for the proposed study is comprised of a sample of employees working at Los Angeles County Metropolitan Transportation Authority (Metro) in the State California who have lived in the State of California for more than three years that have knowledge, experience, or ability to provide data to answer the research questions. A random sample of 200 participants will be recruited from the Los Angeles County Metropolitan Transportation Authority (Metro) employees’ database who meets the following inclusion criteria: transport sector workers, residents of California and at least 3 years working experience in the transport sector. Considering that the State of California is study area, primary data will be collected using Modifiable Activity Questionnaire (S-MAQ) and Multi-Context Sitting Time Questionnaire (MSTQ) research instruments to evaluate the services offered by the transportation projects (Durand et al., 2016). The primary data gathered through the administration of the questionnaires will be coded or processed; subsequent to using SPSS in order to allow testing of the hypotheses. The analytic plan to be used include both correlation and regression analysis to determine the relationships between variables. Therefore, the study will be carried out to determine the socio-economic impacts that are likely to be accrued as a result of development of transportation network in Los Angeles city, in the state of California.

Research Questions

In this study, particular research questions will enable collection of quantitative primary data in order to test the proposed hypotheses. The research questions will be in tandem with research constructs or variables associated with transportation improvement and socio-economic impacts. The interview questions were be formulated in a manner that ensures the desired data is collected.

The research questions for this study are:

Q1. What is the relationship between transportation infrastructure improvement and increased accessibility, in Los Angeles, California?

Q2. What is the relationship between transportation infrastructure improvement and increased transit use, in Los Angeles, California?

Q3.  What is the relationship between transportation infrastructure improvement and increased physical activity, in Los Angeles, California?

Hypotheses

The hypotheses for this study are:

H10.  There is no relationship between transportation infrastructure improvement and increased accessibility, in Los Angeles, California.

H1a.There is a relationship transportation infrastructure improvement and increased accessibility, in Los Angeles, California.

H2a.  There is no relationship between transportation infrastructure improvement and increased transit use, in Los Angeles, California.

H20.  There is a relationship between transportation infrastructure improvement and increased transit use, in Los Angeles, California.

H2a.  There is no relationship between transportation infrastructure improvement and increased physical activity, in Los Angeles, California.

H20.  There is a relationship between transportation infrastructure improvement and increased physical activity, in Los Angeles, California.

 

Definition of Key Terms

Transportation: This are the means through which people and goods move from one location to the other through various modes such as road, air, water, rail, air, as well as pipeline (Carrion & Levinson, 2013; Junge & Levinson, 2012; Litman, 2014).

Transportation facilities: This involves the infrastructure and modes utilized to facilitate movement of people and goods (Anderson, Levinson & Parthasarathi, 2013).

Economic benefits: This involves the positive outcomes associated with improved of the socio-economic conditions due enhancement of transportation (Levinson, Xie & Montes de Oca, 2012).

Economic growth: This is the improvement and/or development of economic conditions of people in a particular region (Fan, Guthrie & Levinson, 2012).

Increased mobility: This is the ease with which people are able to move from one location to the other (Carrion & Levinson, 2013).

 

 

Theoretical Framework

Transport systems and infrastructures have a very close relationship with socio-economic changes among a population of people living within a particular region (Rodrigue, 2013). Different groups of people in California (in terms of cultural influence, marital status, income level and level of education) have varied socio-economic needs and tend to differentially utilize transportation facilities subsequently leading to economic expansion (Gomben et al., 2012). Improved transport network has an impact on the socio-economic expansion of California residents because it improves mobility and market accessibility, creates job opportunities, and increases income levels (Hazledine, Donovan & Bolland, 2013). According to Cooper (2012) despite significant levels of public transportation investment in California, there has not been matching socio-economic status satisfaction levels. Hence, there is need for ensuring that the actual investment in the public transportation sector about socio-economic status is done to ensure that transportation facilities are at par with commuter needs (Cooper, 2012). As noted by Bell (2013) the socio-economic advantages resulting from transportation infrastructure improvements are often regarded to be location-specific, and this is growth in economy that subsequently benefits individuals within a particular region socio-economically. Using the socio-economic expansion analysis approach would enable collection of the required information in order to investigate this relationship (Bell, 2013). Therefore, by succinctly determining the relationship that exists between improvement of public transportation infrastructure and socio-economic impacts among Californians, the study will be able to scientifically prove the need to improve the transport networks for improved socio-economic status of the people within the society. As a result, the findings obtained from this study would be fundamental in contributing to the transportation because costs of travel and income level changes due to improvement of transportation infrastructure are constructs of a transportation theory. Due to the lack of a study that scientifically links the socio-economic benefits accrued from improvement in the transportation facilities, the current study endeavors to establish the correlation between investment in transportation systems and the possible socio-economic benefits that can emanate from the process. According to Rodrigue and Notteboom (2013), the ease of people to move from one region to another as well as levels of accessibility to modes of transportation is at the core of the dynamics that determines the behavior of the relationship observed between transport systems and the socio-economic effects among a population of people living within a particular region. The socio-economic changes are likely to vary from one region to another as well as between individuals and businesses. In particular, there is a very high likelihood of the arising of new economic opportunities where transportation infrastructures and systems have been improved and are able to provide effective solutions and/or alternatives to the residents’ mobility needs and insuring accessibility to resources and markets (Henderson, Shalizi & Venables, 2012; Lakshmanan & Chatterjee, 2015; Limao & Venables, 2011; Rodrigue & Notteboom, 2013).

Since the 19th century industrial revolution through economic integration and globalization processes of the recent past, particularly towards the end of 20th century and at the onset of the 21st century, socio-economic effects attributable to improvements in transportation systems and infrastructures have been differently affected across various regions of the world (Harrington & Warf, 2015; Hargroves & Smith, 2015; Helling, 2011; MacKinnon, Pine & Gather, 2012). In particular, Rodrigue and Notteboom (2013) noted that local, regional, and global/international transportation systems and infrastructures have all become fundamental drivers of economic activities. These authors further notes that, a growing share of wealth created through these economic activities, which involve trade and distribution, is linked to improvements in transportation systems and infrastructures at local, regional and global/international levels (Afraz, 2014; Banister & Berechman, 2012). However, it is imperative to note that despite the positive impacts of improved transportation infrastructures and systems on socio-economic systems, some negative outcomes are also reported such as increased accidents, congestion, and mobility gaps (Banister & Berechman, 2012; Brueckner, 2013; Berry, 2011).

According to Henckel and McKibbin (2011), transportation has a variety of conceptual variables and a succinct understanding of its relationship with socio-economic effects, which forms the basis of the conceptual framework of this study, can be achieved by considering transportation as a commercial activity deriving benefits from the inherent operational attributes such as reliability, efficiency, capacity, costs, and speed. Henderson, Shalizi, and Venables (2012) reiterate the importance of improving transportation systems and infrastructures, which have continued to evolve within a set of relationships that are relatively complex between transport demand, transport supply, the transport network’s operational capacity, and an economy’s mobility requirements.

There are significant investments which have being going on in the state of California towards improving transport infrastructures and systems without succinctly assessing the ensuing socio-economic benefits first, something which makes it imperative to undertake this study for the determination of the relationship that exist between the two scenarios (Cooper, 2012; Delorme, Thompson & Warren, 2013). This implies that an information gap exists which ought to be timely and effectively addressed, since if left undetermined then the state of California may continue to take risk that is not strategically evaluated through continued dedication of significant investments towards improvement of transport infrastructure and systems without matching socio-economic effects (Federal Highway Administration, 2012). On the other hand, the State may also fail to prioritize significant levels of investments in transport infrastructure and systems improvement and also risk to harness the inherent potential and economic opportunities if the socio-economic effects attributed to such actions are significant and satisfactory (Banister & Berechman, 2012; Brueckner, 2013; Berry, 2011; Mullen, Williams & Moowaw, 2012). Levinson (2012) emphasizes that transportation facilities’ improvements do not directly result in economic growth, but merely plays a supporting role, and this information gap is evident in California State, which means that a study is necessary to establish the specific socio-economic benefits that accrue from improvements on transportation facilities and infrastructure. Furthermore, according to El-Geneidy and Levinson (2011), the economic benefits that results from improvements in transportation facilities are often considered location-specific, and this implies that it results to economic growth through benefits such as its positive effects on accessibility, income, and employment. However, considering that these effects are location-specific, the manifestation of economic growth potential is primarily considered to occur at the local level (Banister & Berechman, 2012; Berry, 2012; Brueckner, 2013; Helling, 2011; Hilling, 2013; McDermott, 2012; Tilahun & Levinson, 2011).

According to Cooper (2012), the need to determine the variety and composition of transportation facilities in California State is greatly important since this would subsequently enable an assessment of the specific economic benefits that result from these improvements in transportation facilities. Moreover, there is the need to determine the effects of improvements in transportation facilities on daily lives of California State citizens both socially and economically (Berry, 2012; Cooper, 2012; Morrison & Schwartz, 2012).

According to Ruyssen, Everaert and Rayp (2014), transportation improvement is a portrayal of market ease of accessibility by associating manufactures as well as end users and intermediaries or distributors to facilitate transactions. As Carrion and Levinson (2013) mentioned in the theory of transportation, economic transactions does not occur with lack of transportation facilities. The existing transportation projects in the state of California are not adequate to compare to the forecasted economic development and followed population growth (Kernohan & Rognlien, 2011). Transportation agencies have in history been focusing on major construction as well as expansion of roads, bridges, and other transport infrastructure (Banerjeey, Dufloz & Qian, 2012; Coleman, 2014; Graham, Gibbons & Martin, 2011; Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012). However, there has been drastic shift of the emphasis from development of new transportation infrastructure to intelligent maintenance of the existing ones. In recent years, the tightening of budget and increased demands has both impacted on funds allocation in transportation infrastructure improvement. Coleman (2012) notes that this situation has resulted to heightened focus on asset management systems development.

A strong system of asset management has been critical in providing a solid basis, which has led to the optimization of cost effectiveness and performance of the operation and maintenance of transportation facilities (Brueckner, 2013; Helling, 2011; Nadiri & Manuneas, 2014). From this perspective, the provision of this study’s theoretical framework reiterates on the best practices, which have been adoption by different agencies of the transportation not only in the United States but globally. Cooper (2012) points out that the asset management system front-runners globally with regards to improvements in transportation facilities and infrastructure based on best practices review, a conceptual framework is proposed.

According to Williamson, Philbin, and Sanderson (2012) the tremendous increase in the number of cars on the streets over time in big cities, more and more people have been deliberately making decisions to leave their personal cars behind and use public transport facilities such as metro, tram or bus as a means of movement from one location to another. Hence this has necessitated continuous improvement of transportation facilities as well as infrastructure not only in California, but also in many other regions across the United States and globally. Ideally, these improvements in public transport facilities are aimed at making sure that users are provided with detailed information concerning transport network connections, and theoretically, it should also guarantee effective and reliable means of movement directly proportional to the investment made for improvements (Brueckner, 2013; Helling, 2011; Vickerman, 2012). Therefore, through the improvements in transportation facilities as well as infrastructure plan journeys have gained significant popularity in services offered by the public transport facilities. Vogel (2012) state that people who use public transport facilities have increased their interest in knowing how catch up with them as quick as possible from a particular location to a specified destination, which has been made possible by the improvements caused by investment in transportation facilities and infrastructure.

The conceptual framework guiding the support of improvement in transportation facilities, as well as infrastructure in California, argues that the economic benefits and subsequent economic development objective of such interventions aims at contributing to the improvement of socio-economic conditions for the population in the target region (including improvement in economic potential as well as improvement in the access to health services and education). According to Williamson, Philbin and Sanderson (2012) this assertion is in turn given certain assumptions, envisaged to be attained through several other immediate objectives that include provision of an improved access of rural areas to social services as well as administrative centers and economic opportunities. This imminent objective is undoubtedly measurable through a consideration of the repair, improvement or building of transportation infrastructure as well as facilities such as roads, bridges etc., in addition to the associated increase in access roads’ traffic both motorized and non-motorized (Anderson, Levinson & Parthasarathi, 2013; Brueckner, 2013; Helling, 2011; Hilling, 2013).

The relation between transportation facilities and improvement in welfare has been examined in various studies; however, it is imperative to note that this has been noted by way of introducing the problem of attribution been the central concern for investments in rural infrastructure. According to Alstadt (2012) many welfare related factors are to a significant extent influenced by a multiple of factors other than transportation infrastructure. Secondly, the endogeneity problem implies that many impacts and effects originally associated with improvement in transportation facilities are also to a greater extent influenced by an initial set of factors resulting to road allocation to be the area of key interest (Anderson, Levinson & Parthasarathi, 2013). To guide the analysis of the collected data in this research, a differentiation will be made between impact and effects. Effects are expected to occur before, and with greater certainty than, impacts (Brueckner, 2013; Helling, 2011; Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012).

 

Figure 1: Conceptual Framework Diagram

 

On the other hand, the modeling as well as measurement of transport facilities and/or infrastructure improvement investments on economic development requires conceptual framework to be specified which underlies the potential causes linking the two key phenomena (Berry, 2012; Brueckner, 2013; Helling, 2011; Todaro & Smith, 2011). It is undoubtedly evident that historically the fundamental outcome of investing in transport facilities improvement has been the imminent relative changes in prices for the accessibility of different locations within the area under consideration (Banerjeey, Dufloz & Qian, 2012; Coleman, 2014; Graham, Gibbons & Martin, 2011). This is attributable to the fact that transport systems’ network structure results to non-uniformity in the spatial accessibility, an investment in new transportation facilities, improvement of the existing transportation facilities which eventually lead to alteration of the existing equilibrium structure mainly due to changes in the prices of accessing two locations.

In turn, these changes in prices imply variations in the relative advantage with regards to activities that are spatially located as well as economic opportunities both for consumption and production sectors. The reason that is attributable to these changes in prices is because the inputs costs (e.g. labor) and outputs prices (e.g. housing) at spatial locations change as a function of accessibility costs between the two spatial locations. Furthermore, Coleman (2012) reiterated that the strength and extent of various scale, network and scope economies, which affects companies’ location decisions, may often become insignificant as there are improvements in relative accessibilities between spatially located regions.

According to Cooper (2012), it is necessary to understand that the extent to which transportation facilities and/or infrastructure improvement affects economic growth is also dependent on the demographic and economic characteristics of the region where the improvements in transportation facilities and/or infrastructure are taking place. For instance, a given accessibility change will differentially affect consumption and location decisions for households with two employees than it will affect such decisions in households with a single employee (Coleman, 2014; Graham, Gibbons & Martin, 2011; Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012). Similarly, the reaction of retailers to accessibility improvements will differs with that of industrial firms with respect to their use of labor as well as their location. Hence, from an economic perspective, the analysis of how investments in improvements of transportation facilities and/or infrastructure affects economic development must put into consideration the nature of the region’s local economy as well as the various stakeholders that participate in policy formulation and the decision making process (Banerjeey, Dufloz & Qian, 2012; Coleman, 2014; Graham, Gibbons & Martin, 2011; Hilling, 2013; Porter, 2012; Rietveld, 2014).

The basis of this argument is on three fundamental premises. First, investing on improvement of transportation facilities and/or infrastructure is an effective investment. This is attributable to the fact that such investments results to tangible effects on transport networks’ performance. Alstadt (2012) stated that this is attributed to the fact that investments in transportation facilities and/or infrastructure whose magnitude, composition, location and type do not lead to considerable alteration of the transport networks’ performance are considered to be non-effective since they do not have the potential of generating economic benefits which subsequently result to economic development. On the other hand, any investments in the improvement of transportation facilities and/or infrastructure that results to transport organization improvement as well as increased efficiency in provision of transport services in a region, even if such investments do not include actual construction of new transportation facilities, is considered to be effective investments if measurable economic and social effects are generated (El-Geneidy & Levinson, 2011; Hilling, 2013; Porter, 2012; Rietveld, 2014).

Second, the casual link that exists between investments aimed at improving transportation facilities or infrastructure and economic benefits that subsequently result to economic growth must be manifest in transport-economic behavior changes in the region. According to Vickerman (2012), the implication of this premise is that, in order for economic development to ensue as a result of investments to improve transportation facilities or infrastructure, other agents of economic growth such as firms and households as well as markets must synergistically act to cause substantial changes in the transport network performance. A consideration of this scenario from a short and medium term perspective, it is of essence to make sure there is confinement of the aforementioned reaction to travel variable such as travel volumes, trip generation rates as well as choice of routes (Button & Reggiani, 2011; Porter, 2012). On the other hand, when the scenario is considered from the long-term perspective, there must be manifestation of this reaction in the location decisions for firms as well as households and in property and land prices’ changes. In overall, accessibility changes that ensue from improvements in transportation facilities or infrastructure need to be linked with economic prices and behavior changes in order to make sure that it subsequently constitutes a fundamental component of economic development (Button, 2012; Hilling, 2013; Porter, 2012).

Third, improvements in transportation facilities or infrastructure which directly influence transport markets and travel behavior must subsequently translated into economic benefits that are measurable (Banerjeey, Dufloz & Qian, 2012; Gomben, Lilieholm & Gonzalez-Guillen, 2012; MacKinnon, Pine & Gather, 2012). These economic benefits should include increased demand for inputs, larger output, improved factor productivity, increased property, and land values as well as greater consumer goods’ demand (Brueckner, 2013; Helling, 2011; Hilling, 2013; Gomben, Lilieholm & Gonzalez-Guillen, 2012; MacKinnon, Pine & Gather, 2012).

After the above three crucial premises have been stated, it must also be noted that the extent to which improvements in transportation facilities or infrastructure will influence economic development is explicitly dependent on the performance and level of the existing transportation facilities or infrastructure in terms of the in-place capital (El-Geneidy & Levinson, 2011). This implies that in areas where the transport infrastructure or facilities (e.g. roads, rail systems, access roads, airports, seaways) is highly developed, even a sizeable investment for improvement of transportation facilities or infrastructure is not likely to significantly affect travel markets and behavior, and consequently economic development (Anderson, Levinson & Parthasarathi, 2013; Hilling, 2013).

Therefore, it can be generally envisaged that, economic development effect is subject to marginal decline irrespective of additional investment for improvement of transportation facilities or infrastructure (Berry, 2012; Button, 2012). This implies that at extreme, when there is full development of the transportation facilities or infrastructure in region to an extent that no accessibility improvements would ensue from additional investment, there would not be any additional economic benefits that will accrue from the investments to improve transportation infrastructure as well as facilities, with exception of the multiplier effects (Berry, 2012; Button & Reggiani, 2011; Helling, 2011).

Transport systems and infrastructures have a very close relationship with socio-economic changes among a population of people living within a particular region (Rodrigue, 2013). According to Rodrigue and Notteboom (2013), the ease of people to move from one region to another as well as levels of accessibility to modes of transportation is at the core of the dynamics that determines the behavior of the relationship observed between transport systems and the socio-economic effects among a population of people living within a particular region. The socio-economic changes are likely to vary from one region to another as well as between individuals and businesses. In particular, there is a very high likelihood of the arising of new economic opportunities where transportation infrastructures and systems have been improved and are able to provide effective solutions and/or alternatives to the residents’ mobility needs and insuring accessibility to resources and markets (Henderson, Shalizi & Venables, 2012; Lakshmanan & Chatterjee, 2015; Limao & Venables, 2011; Rodrigue & Notteboom, 2013).

Since the 19th century industrial revolution through economic integration and globalization processes of the recent past, particularly towards the end of 20th century and at the onset of the 21st century, socio-economic effects attributable to improvements in transportation systems and infrastructures have been differently affected across various regions of the world (Harrington & Warf, 2015; Hargroves & Smith, 2015; Helling, 2011; MacKinnon, Pine & Gather, 2012). In particular, Rodrigue and Notteboom (2013) noted that local, regional, and global/international transportation systems and infrastructures have all become fundamental drivers of economic activities. These authors further notes that, a growing share of wealth created through these economic activities which involve trade and distribution is linked to improvements in transportation systems and infrastructures at local, regional and global/international levels. However, it is imperative to note that despite the positive impacts of improved transportation infrastructures and systems on socio-economic systems, some negative outcomes are also reported such as increased accidents, congestion, and mobility gaps (Banister & Berechman, 2012; Berry, 2011).

According to Henckel and McKibbin (2011), transportation has a variety of conceptual variables and a succinct understanding of its relationship with socio-economic effects, which forms the basis of the conceptual framework of this study, can be achieved by considering transportation as a commercial activity deriving benefits from the inherent operational attributes such as reliability, efficiency, capacity, costs, and speed. Henderson, Shalizi, and Venables (2012) reiterate the importance of improving transportation systems and infrastructures, which have continued to evolve within a set of relationships that are relatively complex between transport demand, transport supply, the transport network’s operational capacity, and an economy’s mobility requirements.

Fan, Guthrie and Levinson (2012), noted that the direct effects of transportation improvements are to reduce transport costs and time achieved through reduced congestion, decreased transportation operations costs as well as enhanced accessibility and connectivity of spatially dispersed destinations within the region. Transportation improvements through increased investment have the potential of mitigating any economic disbenefits, especially when the transport projects results to reduced congestion (Saunders & Dalziel, 2014). These incremental socio-economic benefits attributed to transportation improvement projects can be measured through cost-benefit analysis (Hazledine, Donovan & Bolland, 2013). Also there should be consideration of other indirect socio-economic effects of transport improvement when attempting to evaluate transportation projects in their entirety. Parthasarathi, Levinson, and Hochmair (2013) noted that, the socio-economic effects caused by improvement of transportation are specifically attributed to increased productivity and the spatial connectivity. In the long term, investments on transportation infrastructure improvements contribute to socio-economic development by catalyzing a variety of economy-wide processes that are inter-connected, which subsequently lead to regional and spatial effects that augment overall productivity (Kernohan & Rognlien, 2011; Saunders & Dalziel, 2014).

In particular, enhanced accessibility and lower transportation or travel costs, as a result of improved transport services and systems, enhanced accessibility to suppliers and inputs; and expanded markets for businesses. According to Lakshmanan (2011), increased spatial connectivity and accessibility generates more opportunities for trade deals, specialization and fair competition, which subsequently result to productivity gains in the longer-term. These changes are attributed to benefits that ensue from lowered barriers to trading and the expanded business opportunities arising from such actions (Kernohan & Rognlien, 2011; Saunders & Dalziel, 2014). Therefore, having a succinct understanding of these circumstances that influence the socio-economic impacts of transportation improvement is an imperative in gaining deeper insights on the socio-economic benefits likely to accrue from transportation systems and facilities improvements (Parthasarathi, Levinson & Hochmair, 2013).

Market accessibility is undoubtedly among the most imperative characteristics of active economies since it plays a vital role of facilitating movement of people from one location to another, a fundamental need shared by businesses, passengers, and transport employees (Bell, 2013; Levinson & Huang, 2012). Different regions and economies have varied levels of mobility due to their different stages of mobility transition with regards to transportation using various motorized forms (Levinson & Huang, 2012; Saunders & Dalziel, 2014). According to Saunders and Dalziel (2014), economies in possession of greater market accessibility often have high potential to achieve greater socio-economic benefits compared to those with scarce mobility. This is because little mobility due poor transportation networks hinders socio-economic growth, whereas greater market accessibility catalyzes an increased rate of socio-economic growth. Cooper (2012) noted that, the level of mobility in a region is a fundamental socio-economic growth indicator. This means that, provision of mobility through improved transportation offers businesses and individuals an opportunity to increase their level of income generation, which results to creation of employment opportunities, increased wages as well as government revenue through taxation (Bell, 2013; Levinson & Huang, 2012).

With regards to market accessibility, transportation improvement plays a fundamental role of providing connectivity as well as accessibility between spatially distant locations where businesses are saturated (commercial hubs) as well as household regions (residential areas) in order to enable movement of persons and commodity (freight). For instance, the business sector is heavily relied on transportation which involves connecting different businesses and their sources of inputs as well as between varied locations of different businesses and also connecting businesses to their respective target markets (Bell, 2013; Levinson & Huang, 2012). On the other hand, the household sector is also heavily dependent on transportation network mainly because it enables accessibility by people living within a particular region to education facilities and workplaces, shopping centers or markets, as well as recreational, social, medical and community facilities (Levinson & Huang, 2012; Bell, 2013).

To summarize this theoretical and conceptual framework discussion, it can be clearly noted that the discussion has suggested that there is need to have an overall view of the transportation system in all its modes as a constraint to the attainment of the potential economic benefits and opportunities within a region by industrial, commercial and households’ activities. However, Gui and Ruuso (2011) noted that an additional investment to improve transportation facilities as well as infrastructure lessens this constraint, subsequently resulting to the achievement of higher economic benefits and eventually higher economic growth. On the other hand, the transportation facilities as well as infrastructure in a region becomes highly developed with regards to the ease of travel as well as cost of travel, the less the transportation facilities as well as infrastructure has a binding effect on economic benefits and subsequently economic development (Banerjeey, Dufloz & Qian, 2012; Coleman, 2014; Graham, Gibbons & Martin, 2011). Hence, the conceptual framework of this study suggests that prior to actual analysis of the effect of additional investment to improve transportation facilities as well as infrastructure on the region’s local economy, it is essential to initially assess its relative contribution to accessibility in the region, through determination of its effect on the region’s travel markets and behavior.

A fundamental conceptual question that arises from the above discussion of theoretical and conceptual framework of the study is whether improvement in transportation facilities as well as infrastructure constitutes to sufficient and necessary conditions for economic benefits and subsequent economic development locally (i.e. California State). Furthermore, it is crucially important to note that if improvements in transportation facilities and infrastructure can be considered a constraint towards economic opportunities’ attainment in the area, then it can also be considered as a necessary condition for enabling economic opportunities’ attainment in the area (El-Geneidy & Levinson, 2011; Helling, 2011; Hilling, 2013). This discussion highlights one of the main objectives of this study, which is to determine whether and when investment to improve transportation facilities as well as infrastructure becomes a sufficient condition for economic benefits as well as subsequent economic development.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Brief Review of the Literature

This chapter reviews the existing literature in the context of the subject matter of the research study, which is to investigate the socio-economic effects of the people as a result of improvement of transportation networks in California. To address the concept, this chapter will review the existing literature on the key issues and concepts regarding the central theme as well as generally existing ideas on the concept as a foundation for developing the ideas of the researcher on the general focus of the current study. The review of the literature will attempt to provide a detailed account of how earlier studies viewed the concept of transportation and socio-economic growth. The review will assist to identify the existing gap within the literature and which the dissertation will attempt to fill. This chapter of the conceptual paper focuses on reviewing existing academic literature from previous studies, particularly those that consist of relevant information about this area of study in order to gain meaningful insights that form the background of the study. The intention of conducting this literature review is ensure that conclusions are drawn from the research findings with regards to the research problem and questions. The main objective of the literature review chapter is to find relevant information that is vital to act as the study background and determine the extent to which the phenomenon under consideration in this study has been researched.

    Background of the study

The contemporary view sees economic development as less dependent on the direct relationships with the environment and focuses on the dependence or the relations across space. Although resources have been viewed as the major foundations of economic development, transport system, which is one of the commoditized assets in the economy, has been greatly linked with increasing the levels of flow of materials of all types (Bocarejo, Portilla, Velásquez, Cruz, Peña, & Oviedo, 2014). This is because, capital, resources and labor are able to experience higher rates of mobility.  Transportation provides a smooth platform over which producers are able to efficiently link up with the consumers to enhance transactions to take place. There is a common fallacy of people trying to assess the significance of transportation from one perspective; reduction of transportation costs. However, if the economy based on transport is limited to the costs, a lot of significances will be left out. The economy based on the transport costs only accounts for approximately 5-10% of the value that goods and services hold (Abdallah, Belloumi, & De Wolf, 2013). Transportation can be viewed as an economic factor of production and it is a fundamental factor in the exchange or delivery of goods and services. Irrespective of the costs involved, economic activities may not take place without the involvement of transport services. Any changes in the costs, performance and capacity incurred in transportation have tremendous impacts on economic activities. Any efficient system equipped with modern infrastructure tends to favor a lot of positive economic changes. For instance, a region that has the capability to produce a certain aspect of a commodity will be able to specialize and capitalize on the fact that the product incurs a higher advantage and a lower disadvantage if they realize that the transport systems support the movement of their goods and services. The transport system will be used to enhance the trading activities. In addition, a reliable transport system will enable goods to be transported over large distances. This can be able to support mass production and therefore economies of scale. This increased production and efficiency in the transit of goods from one place to another may ultimately become a springboard of enhancing socio-economic development and consequently growth.

Resources and transportation are vital factors that enhance both physical and economic development of regions across the world (Abdallah, Belloumi, & De Wolf, 2013). Population growth, rise in housing and economic growth are usually experienced in regions that have developed transport networks. There could be very little development that could have been achieved around the world if there was limited development in terms of transportation. Socio-economic growth and transportation are interdependent factors.

Transportation Investment and Socio-Economic Impact

Largely due to the work of Alstadt (2012), numerous studies have so far been carried out in order to explore the direction and extent of correlations between variables of public transportation improvement investments and the socio-economic effects that ensue. The socio-economic effects ensuing from public transportation improvement investments are measured by considering a variety of variables such as value-added GDP, output, productivity, as well as employment levels (for example, Banerjeey, Dufloz & Qian, 2012; Coleman, 2014; Graham, Gibbons & Martin, 2011; Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012). Similar studies have been carried out previously on the basis on data obtained from varied sources in order to succinctly investigate and explain the interactions as well as the relationship between variables of this imperative research phenomenon (e.g., El-Geneidy & Levinson, 2011; Junge & Levinson, 2011; Levinson, Xie & Montes de Oca, 2012; Litman, 2014; Schone & Levinson, 2014).

According to Carrion and Levinson (2013), a major finding from many previously conducted studies was that, the variables of these two phenomena indicate a positive relationship that is statistically significant even though very few studies have investigated and reported small effect of public capital on transportation improvement output on socio-economic effects. Carrion and Levinson (2013) further noted that, irrespective of the significance structural changes in the improvement of transportation projects its relation to transport infrastructure has not attracted sufficient research attention and limited information exist of this specific aspect in the literature. The relevant structural changes that are fundamental in transportation improvement projects’ investments with regards to the envisaged socio-economic benefits concerns differentiation of economic linkages between particular industry sectors of the economy with their specific type of transportation infrastructure (Brooks, Pallis, & Perkins, 2014). According to Carrion and Levinson (2013), the role of investment on transportation infrastructure and systems improvement is entrenched in the derivation of public transport services’ demand by different economy stakeholders, and the relationship between types of transport infrastructure or facilities and varied extents of socio-economic effects. The review of the literature indicates that research on relative productivity with regards to different modes of transport has given substantially varied socio-economic effects (Berry, 2012; Helling, 2011; Hilling, 2013; Tilahun & Levinson, 2011).

According to Alstadt (2012), there is need to focus the study on transportation projects in the view of how the investments on transportation facilities and systems improvements influence socio-economic status of a population in a particular region. There has been various techniques used to evaluate the socio-economic benefits arising from transportation improvement projects at microanalysis and macro-analysis levels mainly including cost functions and production functions methods for the microanalysis level as well as case studies and cost-benefit analysis for macro-analysis level (El-Geneidy & Levinson, 2011; Hickman et al., 2015). In an attempt towards finding the impact of transportation improvement investments on economic productivity, the macro analysis methods are concerned with comparing national trends in economic status and the extent of socio-economic activity with levels of investment to improve public transportation infrastructure (Hilling, 2013; Coleman, 2012; Cooper, 2012). According to El-Geneidy and Levinson (2011), the major limitation of macro analysis methods on investigating the impact of transportation improvement investments on socio-economic status do not elucidate the existence of observed casual relationships, but only simply highlight different relationships or associations between various data series. On the other hand, the focus of microanalysis methods, particularly the cost and production functions is directed on socio-economic effects arising from a particular or several transportation projects by providing meaningful insights into how individuals and businesses responds to changes in transportation infrastructure and systems (El-Geneidy & Levinson, 2011; Hickman et al., 2015; Lakshmanan & Chatterjee, 2015).

Alstadt (2012) presented a substantially influential proposition on how socio-economic effects are influenced by improvements of transportation infrastructure and facilities through increased investment. The study posits that, there varied levels of impact on socio-economic effects ensuing from transportation improvement at national level as well as regional and local level. Furthermore, highway capital investment to improve transportation systems seems to complementarily substitute private capital in various economic sectors across different regions globally (Helling, 2012; Hickman et al., 2015; Hilling, 2013; Struglia, Winter & Meyer, 2013).

This means that the studies focusing on ensuring that research is carried out to examine the socio-economic effects of improvements in transportation facilities in California utilizing both primary and secondary data collected from research participants and secondary sources on financial and non-financial perspectives of the phenomenon. As a result, it is imperative to ensure that there is a review of the existing literature on improvement of transportation facilities as well as examining its impact on socio-economic not only in California, but also across other various research scenarios across the world. The improvements of transportation infrastructure and systems has the potential to play an imperative role in the facilitation of socio-economic development through the ensuing socio-economic benefits as well as utilization of socio-economic effects to uplift the living standards of the people (El-Geneidy & Levinson, 2011; Struglia, Winter & Meyer, 2013). According to Alstadt (2012), improvements in transportation infrastructure are without any doubt the factor linking between the socio-economic effects and the overall economic benefits attributed to improvements in transport. The relationship to be considered in this study is about the aforementioned aspects of transport infrastructures and systems improvement including specific socio-economic effects on people and the overall economic benefits to determine whether adequate rewards/outputs are obtained from continued capital investments towards transportation infrastructure and systems improvement.

Transport systems have a close relationship with social as well as economic changes (Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012). This is attributable to the fact that, mobility of people as well as levels of accessibility across various regions is without any doubts at the centre of the aforementioned relationship (Gomben, Lilieholm & Gonzalez-Guillen, 2012; MacKinnon, Pine & Gather, 2012). Due to this interconnection there is a possibility of economic opportunities to arise where transportation infrastructural facilities have a potential of fulfilling the mobility needs in order to guarantee accessibility of resources as well as markets by the people living within a particular region. From agrarian as well as industrial revolution in the 18th and early 19th centuries to processes of economic integration and globalization both in 20th as well as 21st centuries, different regions across the world have been differentially affected by economic growth and development attributable to transportation improvement and increased connectivity. Transportation systems at local, national, regional, as well as international levels alike have without any dispute expanded to become imperative components of connectivity as well as economic activities (Gomben, Lilieholm & Gonzalez-Guillen, 2012; Gui & Russo, 2011; MacKinnon, Pine & Gather, 2012).

According to Williamson, Philbin, and Sanderson (2012), a continuously growing proportion of the wealth generated by individuals, corporate as well as governments is attributed to trade and distribution facilitated by the connectivity as well as accessibility of different regions through transportation infrastructural facilities and networks. However, despite the fact that improvement of transportation systems is associated to a significant number of positive effects on socio-economics of the people living within a region, there are also a considerable number of negative impacts that can be attributed to increased levels of transportation including mobility gaps, accidents, air pollution as well as congestion (Berry, 2012; Hilling, 2013; Vickerman, 2012; Vogel, 2012). According to Lakshmanan (2011), transportation can also be considered as a commercial activity that may arise from operational attributes, including efficiency, capacity, transportation costs, speed, as well as reliability. Cooper (2012) noted that there has been a continuous evolution of transportation systems within a complex set of interconnections as well as relationships between variable such as transport supply, including a transport network’s operational capacity as well as the demand for transport within a particular region, including an economy’s mobility requirements. According to Vogel (2012), transportation can be viewed as an imperative component of movement of goods and people through interconnected networks of various modes of transport  and usually have an obvious impact on the social, cultural as well as economic activities carried out by a population of people living within a particular region. Hazledine, Donovan and Bolland (2013) emphasized that the role of improved transportation’s infrastructural facilities as well as networks either occurs directly or indirectly whereby direct the direct effects occur through heightened levels of investment in transport facilities and infrastructure. As a result, increased purchases of vehicles and other transportation modes, increased physical capital, improved logistical systems are attributed to the direct impacts; whereas improved efficiency of transportation systems and facilities are usually attributed to most of the indirect impacts of improvement of transportation infrastructure and facilities subsequently stimulating further socio-economic growth in the particular area or region under consideration (Huang & Levinson, 2011; Kernohan & Rognlien, 2011; Vickerman, 2012; Vogel, 2012).

A consideration of the transportation sector and the associated infrastructure as well as facilities and network, the most important issue worthy critical evaluation is with regards to whether transportation infrastructure as well as facilities’ improvements have a significant potential of greatly influencing the growth of total factor productivity (TFP) through heightened incentives for innovative strategies towards improving efficiency of the transportation sector as a whole (Huang & Levinson, 2011; Lakshmanan, 2011; Vickerman, 2012). According to Hazledine, Donovan and Bolland (2013), the main outcomes of long-run economic growth are productivity growth and continued capital investment. Therefore, if transport improvement is to be attributed to some extent of socio-economic benefits it must achieve this milestone either indirectly or directly due to effects resulting from decisions made by businesses and individual households. Vogel (2012) and Vickerman (2012) emphasize that, historically the fundamental impact of transportation improvements has been a reduction in the movement of goods and services over both short- and long-distance trade, which contribute to significant integration of geographically disperse markets. As a result, this is perhaps what makes transport infrastructure improvement special because it has the potential to achieve this through efficient transportation networks and infrastructure instead of concentrating on individual transport schemes (Alstadt, 2012; Bell, 2013; Levinson & Huang, 2012; Vogel, 2012). In contrast, Cooper (2012) noted that, when the transport-intensive economic sectors are characterized by imperfect competition, this may be attributed to imperative economic effects not likely to be captured in the cost-benefit analysis done conventionally. According to Kernohan and Rognlien (2011), improvement in transportation and the growth in economy are strongly related and commonly exhibit a two-way relationship, meaning that a change in the transportation networks or systems and infrastructure has a subsequent impact on the economic activity level and, on the other hand, the demand for transportation can be affected by the economic activity level.

Parthasarathi, Levinson, and Hochmair (2013) through their study the significance of transportation improvement in economic productivity and growth reported that, a compelling link exists historically between improvements in transportation infrastructure and economic growth. Connectivity through improved transportation infrastructure and systems has in the recent past received significant attention, and is commonly associated with new and advanced transportation technologies, especially those concerned with communications that have played a fundamental role in transportation improvement (Alstadt, 2012; Bell, 2013; Helling, 2011; Hilling, 2013; Levinson & Huang, 2012). According to Levinson and Huang (2012), there is has been several changes that can be taken to increase connectivity through transport, including increased opening up of regions through various transportation routes across the world, improved impact on domestic production through canals, increased mobility through inter-state highway and motorways networks, and heightened role of railways in mass transit of goods in the United States. Through these international and inter-urban connections by transport networks, there has been introduction of radically efficient and new production processes enabling nations and regions to increase their trading levels subsequently allowing them to reap the ensuing socio-economic benefits (Huang & Levinson, 2011; Lakshmanan, 2011; Vickerman, 2012). This means that it is clear that, from the perspective of a developing economy it is fundamental to establish basic connectivity as a vital driver of a rapid rate of economic growth. According to Levinson and Huang (2012), the demand for transport services is attributed to the increased movement and mobility of people to and from work, education institution, shopping centers, markets and social or recreational facilities. According to Kernohan and Rognlien (2011), it is imperative to note that despite the evidence provided in academic literature concerning the impact transport systems or networks improvement on economic growth, there are varied magnitudes of these impacts at different places and in different times. However, although public transportation improvement impacts can attract significant attention, longer-term benefits that arise from increased connectivity through improved transportation justify that public transportation improvement can lead to fundamentally important socio-economic effects irrespective of the prevailing wages (Bell, 2013; Levinson & Huang, 2012). Direct benefits that are experienced by travelers are categorized into four main parts: (1) saving of travel time, (2) reducing travel costs, (3) improvement in reliability; as well as (4) improvement of safety (Lakshmanan, 2011; Levinson & Huang, 2012; Vickerman, 2012). All these forms of benefits have the potential of providing significant monetary savings on public transportation costs among travelers and businesses (Berry, 2012; Bell, 2013; Hilling, 2013; Levinson & Huang, 2012).

Mobility        

Mobility is undoubtedly among the most imperative characteristics of active economies since it plays a vital role of facilitating movement of people from one location to another, a fundamental need shared by businesses, passengers, and transport employees (Bell, 2013; Levinson & Huang, 2012). Different regions and economies have varied levels of mobility due to their different stages of mobility transition with regards to transportation using various motorized forms (Levinson & Huang, 2012; Saunders & Dalziel, 2014). According to Saunders and Dalziel (2014), economies in possession of greater mobility often have high potential to achieve greater socio-economic benefits compared to those with scarce mobility. This is because little mobility due poor transportation networks hinders socio-economic growth, whereas greater mobility catalyzes an increased rate of socio-economic growth. Cooper (2012) noted that, the level of mobility in a region is a fundamental socio-economic growth indicator. This means that, provision of mobility through improved transportation offers businesses and individuals an opportunity to increase their level of income generation, which results to creation of employment opportunities, increased wages as well as government revenue through taxation (Bell, 2013; Levinson & Huang, 2012).

With regards to mobility, transportation improvement plays a fundamental role of providing connectivity as well as accessibility between spatially distant locations where businesses are saturated (commercial hubs) as well as household regions (residential areas) in order to enable movement of persons and commodity (freight). For instance, the business sector is heavily relied on transportation that involves connecting different businesses and their sources of inputs as well as between varied locations of different businesses and also connecting businesses to their respective target markets (Bell, 2013; Levinson & Huang, 2012). On the other hand, the household sector is also heavily dependent on transportation network mainly because it enables accessibility by people living within a particular region to education facilities and workplaces, shopping centers or markets, as well as recreational, social, medical and community facilities (Levinson & Huang, 2012; Bell, 2013). According to Cooper (2012), transportation may on its own be considered an imperative component of a region’s economy, mainly because improvement of transportation infrastructure and network or systems is attributable to about 5 per cent the GDP of the State of California (Cooper, 2012). Considering the imperativeness of transportation economically, there is a likelihood of increased level of transportation improvement through higher investments and expenditure in transportation operational efficiency would lead to a wider array of positive socio-economic effects such as increased levels of income as well as a decline in household expenses on consumer goods and services.

In the State of California, transportation improvement projects are largely self-funded, in which most transportation investment costs as well as costs associated with maintenance and operation of such projects are either initially financed by the government and subsequently recovered from the money collected from the users of the transportation facilities or the projects may be directly paid for by users at onset. According to Cooper (2012), it is without any doubt that there are various other ways through which public transportation improvement projects, including partially funded public transport services as well as roads network improvement through local or regional rates. The overall effect of these programs is the improvement of socio-economic status among the population within a particular region (Levinson & Huang, 2012).

The improved or added value to living standards and employment effects that ensue from transport services are extensive and stretches beyond increased financial status generated by the improvement of transportation infrastructure to include indirect effects are socio-economically salient. According to Zhang and Levinson (2011), transportation improvement projects are directly involved in promoting socio-economic benefits during and after the projects because the concerned companies tend to buy project inputs (including supplies, fuel, and maintenance) from suppliers located around the projects. As a result, additional employment and value addition to living standards are generated by these projects in the local economy. Levinson and Huang (2012) further reiterates that, suppliers to these projects in turn create more wealth and subsequently improve their purchase power which is reflected through increased economic growth locally. Similarly, there is also increased levels of income from the money received from employment in transportation improvement activities meaning their level of spending in purchasing goods and services from local businesses is also increased (Hazledine, Donovan & Bolland, 2013). Consequently, more socio-economic benefits are felt because the increased purchasing power results to additional local jobs and further improvement of income levels, which can be attributed to continued positive socio-economic effects locally or regionally (Bell, 2013; Levinson & Huang, 2012). As a result, these successive rounds of increased spending due to improvement in transportation results to an overall improvement in the socio-economic status of the residents (Bell, 2013; Hazledine, Donovan & Bolland, 2013; Levinson & Huang, 2012).

Further changes in economic productivity may be attributed to improvements in public transportation subsequently causing the population’s socio-economic well-being as a consequence of both reduced traffic congestion as well as expanded public transportation service (Bell, 2013; Levinson & Huang, 2012). With regards to improvement in transportation, the specific socio-economic effects that ensue are as follows: increased market access and mobility because of the benefits of business productivity arising from access to more diverse and broader labor market characterized by a better fit of workers skills, and spatial agglomeration economies; as well as access to a wider customer market attributed to the benefits of business productivity including clustering or agglomeration of complementary and similar activities (Levinson & Huang, 2012). Mobility is very imperative for any considerable socio-economic benefits to be achieved from enhanced public transportation terminal facilities and services.

Mobility is without any doubt among the most imperative characteristics of active economies since it plays a vital role of facilitating movement of people from one location to another, a fundamental need shared by businesses, passengers, and transport employees (Bell, 2013; Levinson & Huang, 2012). Different regions and economies have varied levels of mobility due to their different stages of mobility transition with regards to transportation using various motorized forms (Levinson & Huang, 2012; Saunders & Dalziel, 2014). According to Saunders and Dalziel (2014), economies in possession of greater mobility often have high potential to achieve greater socio-economic benefits compared to those with scarce mobility. This is because little mobility due poor transportation networks hinders socio-economic growth, whereas greater mobility catalyzes an increased rate of socio-economic growth. Cooper (2012) noted that, the level of mobility in a region is a fundamental socio-economic growth indicator. This means that, provision of mobility through improved transportation offers businesses and individuals an opportunity to increase their level of income generation, which results to creation of employment opportunities, increased wages as well as government revenue through taxation (Bell, 2013; Levinson & Huang, 2012). In the context of socio-economic effects modeling, the increased access to places of work, markets, recreational facilities, education institutions and shopping centers are among the most vital benefits that ensue from increased mobility and consequently translate to improved socio-economic effects (Saunders & Dalziel, 2014). This is because there is increased economic productivity which commonly takes two forms: (1) economies of scale that result from increased access to a vast pool of customers; and (2) increased employees’ productivity caused by improved access to a more diverse and vast labor market, which offers an effective balance between available and desired workforce skills (Bell, 2013; Weisbrod, 2011). The impact of transportation on labor market is particularly notable on the changes in prevailing wages, which are directly influenced by the status of transportation networks (Hazledine, Donovan & Bolland, 2013).

As noted by Hazledine, Donovan and Bolland (2013), transport systems and infrastructures are a fundamental part of societies mainly because of their support to complex social and economic interactions. Mobility is one of the most fundamental and important characteristics of economic or social activities as it satisfies the basic need of going from one location to the other, a need shared by passengers, freight and information (Saunders & Dalziel, 2014). Rodrigue and Notteboom (2013) stated that, locations don’t share the similar levels of mobility as most are in a different stage in their mobility transition towards motorized forms of transport. Economies that possess greater mobility are often those with better opportunities to develop than those with scarce mobility (Rodrigue, 2013). Reduced mobility impedes development while greater mobility is a catalyst for development. Mobility is thus a reliable indicator of development. Rodrigue (2013) emphasized that, provision of mobility is an industry offering services to its customers, while employing a considerable number of people and disbursement wages, invests capital, generates income and provides taxation revenue. Mobility is therefore the recurring aspect where transportation has its most significant societal impacts. Zhang & Levinson (2011) state, mobility is a multi-dimensional concept because it simultaneously shows the potential for a movement and the movement itself. Rodrigue (2013) emphasized that; it is at the beginning a choice to be exercised or that is not dependent on social and economic goals. For economic activities such as businesses, transportation enables to access a workforce, reach suppliers and service customers. With improvements in transportation, interactions with the workforce are more effective and the costs of distribution usually decline with the derived competitive benefits. For individuals, transportation is the mean to access employment, goods, services, leisure, and social networks. Thus, a share of the societal consumption is allocated to satisfy mobility needs. However, in a paradoxical manner higher income levels are in most cases associated with a higher share of transportation in consumption, a trend particularly attributed to automobile ownership and air travel (Lakshmanan, 2011; Levinson & Huang, 2012; Vickerman, 2012). According to Zhang and Levinson (2011), mobility is an activity that is affected by a number of constraints. For an individual, the lengths as well as the number of trips is usually influenced by time limits. These constraints are however economically, socially, and technologically articulated since more efficient modes of transport are supportive of more wide spread mobilities as well as higher levels incomes (Alstadt, 2012; Bell, 2013; Levinson & Huang, 2012; Vogel, 2012). Thus, an individual would have a mobility contingent to physical capabilities, available budget, transport supply and the spatial distribution of activities such as residential, commercial and production areas. Further, the social context of mobility is changing in part because of its impacts (Alstadt, 2012; Bell, 2013; Levinson & Huang, 2012; Vogel, 2012).

Market Accessibility            

According to Saunders and Dalziel (2014), transportation improvement allows increased market accessibility through the crucial connectivity and linkage it provides between producers or manufactures and consumers. However, a common fallacy that has been widely perpetuated on the assessment of  the impact and importance of improvement of transportation on the economy has been emphasis on transportation costs incurred on transit goods, which fall in the range of 5 to 10% of the total value of a the transit goods and this is relatively low (Levinson & Huang, 2012). Considering that transport is an economic factor in process of producing goods and services, this implies that it is an imperative determinant of the level of achievable socio-economic effects, even if it accounts for a smaller proportion of input costs (Parthasarathi, Levinson & Hochmair, 2013). This means that despite the cost, most the production processes cannot occur without the transportation aspect. Thus, changes of relatively low extent in transport costs, performance, and capacity can substantially influence socio-economic effects and activities in a region (Hazledine, Donovan & Bolland, 2013; Saunders & Dalziel, 2014).

Transport systems and infrastructures have a very close relationship with socio-economic changes among a population of people living within a particular region (Rodrigue, 2013). As expressed by Rodrigue and Notteboom (2013), the ease of people to move from one region to another as well as levels of accessibility to modes of transportation is at the core of the dynamics that determines the behavior of the relationship observed between transport systems and the socio-economic effects among a population of people living within a particular region. The socio-economic changes are likely to vary from one region to another as well as between individuals and businesses. In particular, there is a very high likelihood of the arising of new economic opportunities where transportation infrastructures and systems have been improved and are able to provide effective solutions and/or alternatives to the residents’ mobility needs and insuring accessibility to resources and markets (Henderson, Shalizi & Venables, 2012; Lakshmanan & Chatterjee, 2015; Limao & Venables, 2011; Rodrigue & Notteboom, 2013).

Since the 19th century industrial revolution through economic integration and globalization processes of the recent past, particularly towards the end of 20th century and at the onset of the 21st century, socio-economic effects attributable to improvements in transportation systems and infrastructures have been differently affected across various regions of the world (Harrington & Warf, 2015; Hargroves & Smith, 2015; Helling, 2011; MacKinnon, Pine & Gather, 2012). In particular, Rodrigue and Notteboom (2013) noted that local, regional, and global/international transportation systems and infrastructures have all become fundamental drivers of economic activities. These authors further notes that, a growing share of wealth created through these economic activities which involve trade and distribution is linked to improvements in transportation systems and infrastructures at local, regional and global/international levels. However, it is imperative to note that despite the positive impacts of improved transportation infrastructures and systems on socio-economic systems, some negative outcomes are also reported such as increased accidents, congestion, and mobility gaps (Banister & Berechman, 2012; Berry, 2011).

Conforming to Henckel and McKibbin (2011), transportation has a variety of conceptual variables and a succinct understanding of its relationship with socio-economic effects, which forms the basis of the conceptual framework of this study, can be achieved by considering transportation as a commercial activity deriving benefits from the inherent operational attributes such as reliability, efficiency, capacity, costs, and speed. Henderson, Shalizi, and Venables (2012) reiterate the importance of improving transportation systems and infrastructures, which have continued to evolve within a set of relationships that are relatively complex between transport demand, transport supply, the transport network’s operational capacity, and an economy’s mobility requirements.

Fan, Guthrie and Levinson (2012), noted that the direct effects of transportation improvements are to reduce transport costs and time achieved through reduced congestion, decreased transportation operations costs as well as enhanced accessibility and connectivity of spatially dispersed destinations within the region. Transportation improvements through increased investment have the potential of mitigating any economic disbenefits, especially when the transport projects results to reduced congestion (Saunders & Dalziel, 2014). These incremental socio-economic benefits attributed to transportation improvement projects can be measured through cost-benefit analysis (Hazledine, Donovan, & Bolland, 2013). In addition, there should be consideration of other indirect socio-economic effects of transport improvement when attempting to evaluate transportation projects in their entirety. Parthasarathi, Levinson, and Hochmair (2013) noted that, the socio-economic effects caused by improvement of transportation are specifically attributed to increased productivity and the spatial connectivity. In the long term, investments on transportation infrastructure improvements contribute to socio-economic development by catalyzing a variety of economy-wide processes that are inter-connected, which subsequently lead to regional and spatial effects that augment overall productivity (Kernohan & Rognlien, 2011; Saunders & Dalziel, 2014).

In particular, enhanced accessibility and lower transportation or travel costs, because of improved transport services and systems, enhanced accessibility to suppliers and inputs; and expanded markets for businesses. According to Lakshmanan (2011), increased spatial connectivity and accessibility generates more opportunities for trade deals, specialization and fair competition, which subsequently result to productivity gains in the longer-term. These changes are due to benefits that ensue from lowered barriers to trading and the expanded business opportunities arising from such actions (Kernohan & Rognlien, 2011; Saunders & Dalziel, 2014). Therefore, having a succinct understanding of these circumstances that influence the socio-economic impacts of transportation improvement is an imperative in gaining deeper insights on the socio-economic benefits likely to accrue from transportation systems and facilities improvements (Parthasarathi, Levinson & Hochmair, 2013).

Market accessibility is undoubtedly among the most imperative characteristics of active economies since it plays a vital role of facilitating movement of people from one location to another, a fundamental need shared by businesses, passengers, and transport employees (Bell, 2013; Levinson & Huang, 2012). Different regions and economies have varied levels of mobility due to their different stages of mobility transition about transportation using various motorized forms (Levinson & Huang, 2012; Saunders & Dalziel, 2014). Pursuant to Saunders and Dalziel (2014), economies in possession of greater market accessibility often have high potential to achieve greater socio-economic benefits compared to those with scarce mobility. This is because little mobility due poor transportation networks hinders socio-economic growth, whereas greater market accessibility catalyzes an increased rate of socio-economic growth. Cooper (2012) noted that, the level of mobility in a region is a fundamental socio-economic growth indicator. This means that, provision of mobility through improved transportation offers businesses and individuals an opportunity to increase their level of income generation, which results to creation of employment opportunities, increased wages as well as government revenue through taxation (Bell, 2013; Levinson & Huang, 2012).

With regards to market accessibility, transportation improvement plays a fundamental role of providing connectivity as well as accessibility between spatially distant locations where businesses are saturated (commercial hubs) as well as household regions (residential areas) in order to enable movement of persons and commodity (freight). For instance, the business sector is heavily relied on transportation that involves connecting different businesses and their sources of inputs as well as between varied locations of different businesses and also connecting businesses to their respective target markets (Bell, 2013; Levinson & Huang, 2012). On the other hand, the household sector is also heavily dependent on transportation network mainly because it enables accessibility by people living within a particular region to education facilities and workplaces, shopping centers or markets, as well as recreational, social, medical and community facilities (Levinson & Huang, 2012; Bell, 2013). According to Cooper (2012), transportation may on its own be considered an imperative component of a region’s economy, mainly because improvement of transportation infrastructure and network or systems is attributable to about five per cent the GDP of the State of California (Cooper, 2012). Considering the imperativeness of transportation economically, there is a likelihood of increased level of transportation improvement through higher investments and expenditure in transportation operational efficiency would lead to a wider array of positive socio-economic effects such as increased levels of income as well as a decline in household expenses on consumer goods and services.

In the State of California, transportation improvement projects are largely self-funded, in which most transportation investment costs as well as costs associated with maintenance and operation of such projects are either initially financed by the government and subsequently recovered from the money collected from the users of the transportation facilities or the projects may be directly paid for by users at onset. According to Cooper (2012), it is without any doubt that there are various other ways through which public transportation improvement projects, including partially funded public transport services as well as roads network improvement through local or regional rates. The overall effect of these programs is the improvement of socio-economic status among the population within a particular region (Levinson & Huang, 2012).

The improved or added value to living standards and employment effects that ensue from transport services are extensive and stretches beyond increased financial status generated by the improvement of transportation infrastructure to include indirect effects are socio-economically salient. As stated by Zhang and Levinson (2011), transportation improvement projects are directly involved in promoting socio-economic benefits during and after the projects because the concerned companies tend to buy project inputs (including supplies, fuel, and maintenance) from suppliers located around the projects. As a result, additional employment and value addition to living standards are generated by these projects in the local economy. Levinson and Huang (2012) further reiterates that, suppliers to these projects in turn create more wealth and subsequently improve their purchase power which is reflected through increased economic growth locally. Similarly, there is also increased levels of income from the money received from employment in transportation improvement activities meaning their level of spending in purchasing goods and services from local businesses is also increased (Hazledine, Donovan & Bolland, 2013). Consequently, more socio-economic benefits are felt because the increased purchasing power results to additional local jobs and further improvement of income levels, which can be attributed to continued positive socio-economic effects locally or regionally (Bell, 2013; Levinson & Huang, 2012). As a result, these successive rounds of increased spending due to improvement in transportation results to an overall improvement in the socio-economic status of the residents (Bell, 2013; Hazledine, Donovan & Bolland, 2013; Levinson & Huang, 2012).

Further changes in economic productivity may be attributed to improvements in public transportation subsequently causing the population’s socio-economic well-being as a consequence of both reduced traffic congestion as well as expanded public transportation service (Bell, 2013; Levinson & Huang, 2012). With regards to improvement in transportation, the specific socio-economic effects that ensue are as follows: increased market access and mobility because of the benefits of business productivity arising from access to more diverse and broader labor market characterized by a better fit of workers skills, and spatial agglomeration economies; as well as access to a wider customer market attributed to the benefits of business productivity including clustering or agglomeration of complementary and similar activities (Levinson & Huang, 2012). Mobility is very imperative for any considerable socio-economic benefits to be achieved from enhanced public transportation terminal facilities and services.

Mobility is without any doubt among the most imperative characteristics of active economies since it plays a vital role of facilitating movement of people from one location to another, a fundamental need shared by businesses, passengers, and transport employees (Bell, 2013; Levinson & Huang, 2012). Different regions and economies have varied levels of mobility due to their different stages of market accessibility transition with regards to transportation using various motorized forms (Levinson & Huang, 2012; Saunders & Dalziel, 2014). Pursuant to Saunders & Dalziel (2014), economies in possession of greater accessibility often have high potential to achieve greater socio-economic benefits compared to those with scarce accessibility of different parts. This is because little mobility due poor transportation networks hinders socio-economic growth, whereas greater mobility catalyzes an increased rate of socio-economic growth. Cooper (2012) noted that, the level of market accessibility in a region is a fundamental socio-economic growth indicator. This means that, provision of accessibility through improved transportation offers businesses and individuals an opportunity to increase their level of income generation, which results to creation of employment opportunities, increased wages as well as government revenue through taxation (Bell, 2013; Levinson & Huang, 2012).

Spending Impact                       

According to Lakshmanan (2011) and Weisbrod (2011) public transportation investments in the attempts of improving the infrastructure, facilities as well as systems and network has a direct impact on a population’s socio-economic dynamics. However, there are different ways through which these impacts occur such as: 1) by injecting spending on buying materials and services as well as wages for the workers; and 2) by saving costs as well as benefits of increased business productivity that ensue from improvement in transportation facilities.

Kernohan and Rognlien, (2011) note that, the spending impact that ensue from improvement of public transportation systems, facilities and infrastructure through deliberate increased investment directly influence a region’s population socio-economic dynamics through indirect, direct as well as induced effects. According to Hazledine, Donovan and Bolland (2013), the capital investments directed to the improvement of public transportation systems and facilities are done in order to accomplish any one of these three objectives: 1) adoption of new and advanced transportation systems; 2) modernization and standardization of transportation networks and networks; as well as 3) expansion of the transportation facilities and infrastructure.

As stated by Alstadt (2012), there is need to focus the study on transportation projects in the view of how the investments on transportation facilities and systems improvements influence socio-economic status of a population in a particular region. There has been various techniques used to evaluate the socio-economic benefits arising from transportation improvement projects at microanalysis and macro-analysis levels mainly including cost functions and production functions methods for the microanalysis level as well as case studies and cost-benefit analysis for macro-analysis level (El-Geneidy & Levinson, 2011; Hickman et al., 2015). In an attempt towards finding the impact of transportation improvement investments on economic productivity, the macro analysis methods are concerned with comparing national trends in economic status and the extent of socio-economic activity with levels of investment to improve public transportation infrastructure (Hilling, 2013; Coleman, 2012; Cooper, 2012). According to El-Geneidy and Levinson (2011), the major limitation of macro analysis methods on investigating the impact of transportation improvement investments on socio-economic status do not elucidate the existence of observed casual relationships, but only simply highlight different relationships or associations between various data series. On the other hand, the focus of microanalysis methods, particularly the cost and production functions is directed on socio-economic effects arising from a particular or several transportation projects by providing meaningful insights into how individuals and businesses responds to changes in transportation infrastructure and systems (El-Geneidy & Levinson, 2011; Hickman et al., 2015; Lakshmanan & Chatterjee, 2015).

Alstadt (2012) presented a substantially influential proposition on how socio-economic effects are influenced by improvements of transportation infrastructure and facilities through increased investment. The study posits that, there varied levels of impact on socio-economic effects ensuing from transportation improvement at national level as well as regional and local level. Furthermore, highway capital investment to improve transportation systems seems to complementarily substitute private capital in various economic sectors across different regions globally (Helling, 2012; Hickman et al., 2015; Hilling, 2013; Struglia, Winter & Meyer, 2013).

In the context of socio-economic effects modeling, the increased access to places of work, markets, recreational facilities, education institutions, and shopping centers are among the most vital benefits that ensue from increased accessibility and consequently translate to improved socio-economic effects (Saunders & Dalziel, 2014). This is because there is increased economic productivity which commonly takes two forms: (1) economies of scale that result from increased access to a vast pool of customers; and (2) increased employees’ productivity caused by improved access to a more diverse and vast labor market, which offers an effective balance between available and desired workforce skills (Bell, 2013; Weisbrod, 2011). The impact of transportation on labor market is particularly notable on the changes in prevailing wages, which are directly influenced by the status of transportation networks (Hazledine, Donovan & Bolland, 2013).

Relationship between improved transportation and socio-economic development

Most of the impacts that come with the development of the transportation systems are ‘externalities’ and contribute indirectly to the economic growth of the immediate users of the transport networks (Ferdous, Das, Ahmed, Farzana, Kaur, Chisti, & Faruque, 2013). The benefits of the improved transport network can be broadly termed as social and economic impacts of the transportation systems. Looking at the socio-economic benefits from a larger lens, the community impacts can be taken as the localized benefits that concentrate on the people living within a local area and are usually more qualitative in nature. In many instances, community impacts are less calculated or assessed in terms of their monetary measures in terms of cost-benefit analysis.

Improvement in the transportation system may contribute towards great economic benefits towards the community.  Some of the benefits include; increased property values, increased business activities, investment as well as tax revenues (Ferdous, Das, Ahmed, Farzana, Kaur, Chisti, & Faruque, 2013).  Transportation systems usually increase the ability of businesses to provide both goods and services. In addition, it provides the platform for people to access services such as education and employment. At the same time, a good transport network works to minimize the costs that can be incurred during any kind of transportation. Reduction in the costs of transportation, pollution and accident expenses result to increased development and productivity within a given region.

There are both negative and positive impacts of improved transportation systems.  When roads have been upgraded to highways, more cars and motorists will be able to access the region as they seek to carry out their business ventures (Karou & Hull, 2014). On the one hand, it is an economic benefit. However, the process may pose a big threat to the people living in the local area since some of them like the pedestrians may view the move as limiting their movement space (Heesch, Giles-Corti, & Turrell, 2014). Furthermore, when there are more improved transport facilities in a region, the area will be opened up for more competition to the existing business activities.

Any development activity is usually linked with its capability to improve the welfare of the people it directly touches. For the development activity to be effective there should be appropriate political, economic and social conditions. Development in transportation systems requires that the networks be placed at convenience points so as to give rise to both qualitative and quantitative improvement in aspects such as human capital as well as physical capital. Human capital targets facets such as education and income (Ghimire, 2013). Transport in itself as a physical capital maintains the necessary infrastructure that enables proper maintenance and operations. This is because the infrastructure acts as the platform for facilitating economic activities necessary for development of the community. Transport has been regarded as one of the most significant sector of the economy and a very vital tool that aids the development in any society. In a global economy, economic opportunities have been closely related with the mobility of the people, information and goods. Development is therefore interplay of how the aforementioned factors are able to move with ease (Ferdous, Das, Ahmed, Farzana, Kaur, Chisti, & Faruque, 2013). The quality and quantity of transport infrastructure and the level of development of economic activities is usually closely related. Highly connected networks and high density infrastructure is usually associated with high level of economic development. This is because, when transport systems are very efficient, in terms of reliability and capacity, they usually provide the relevant social and economic benefits and opportunities, which ultimately result to more employment, investments and accessibility to markets. Poor transport systems lead to missed opportunities and lowers the quality of life of the people within the region that they serve.

Efficient transport systems usually reduce the costs that can be incurred in carrying out activities. Inefficient systems increase these costs. Impacts brought about by the transport systems however, are not intended and may bring about unintended or unforeseen consequences. For instance, there are times when low levels of transport systems bring congestion. From another point of view, congestion can be used to indicate high level of development. This happens when a very fast growing economy experiences challenges in keeping up with the rising demands brought about by the mobility. Transport systems usually assist in environmental and social developments and cannot be taken for granted.  The impacts brought about by the improved transport network can be categorized into several major categories.  First is the core.  From this dimension, transport systems offer the  fundamental function of facilitating movement of goods and people from one place to another; thereby enabling the interactions of economic entities or strengthening the existing interactions to create further chances of economic development. Transport also enhances the development of operations. In this case, transport systems usually assist to improve in time performance thereby enhancing reliability. This means that there will be reduced damages and losses that are brought about by slow or inefficient transport networks. Transportation of assets between the distributors or producers can take place with ease while at the same time minimizing their ‘perishability’ (Giljum,  Dittrich, Lieber, & Lutter, 2014). Furthermore, goo transport systems give rise to opened market opportunities that could hitherto be impossible under undeveloped or poor network systems.  Good transport systems can also facilitate wider market base and can consequently enable the improvement of consumption, production and distribution of goods. Transport systems do not only offer direct benefits. The importance of transport systems usually extend beyond the obvious ones. For instance, there are indirect benefits that are supported by the transport systems such as the goods and services offered by the local suppliers. Maintenance services, supplies and fuel are provided by the local sellers and therefore give the local people employment and consequently the growth of the economy. The local economy consequently benefits in terms of employment as well as the addition of value to the activities that they carry out. From a more in-depth perspective, the local suppliers will be able to buy goods from other local suppliers or producers. There will be further local re-spending actions that usually results to the generation of additional value and creation of employment. There will be people who will have invested in the transport sectors. They usually receive their income from the transport sector through transportation activities. They may spend some of their income on local goods and services. The purchases may result to increased goods and services as well as value-addition (Giljum, Dittrich, Lieber, & Lutter, 2014). The successive activities involving spending and re-spending ultimately results in improved overall economy of the region or country which exceeds the initial input, employment and income. Generally, the economic impacts of the transportation sector can be seen as direct, indirect and induced.

Transportation works to link together the different factors involved in the production and transit of goods in a complex system of relationship between the consumers and producers. Economic growth is usually linked with a good transport network. When the transportation systems are working in an efficient manner, the business people will have ample time to invest in other key areas of business operations and not overspend time in working out costs on logistics. It will be easier for the business operators to calculate the costs involved in transportation of goods and services as opposed to the case when they are needed to find alternative sources of transport if transport systems are challenging.

Heesch, Giles-Corti, and Turrell (2014) assert that the growing economic opportunities that have been present since the industrial revolution can be partly attributed to the transportation development that has taken place over the years. Every stage of human societal development has been linked with a certain technological development in the transport sector, thus producing a series of impacts especially in the economic sphere of the society. New social, market and economic opportunities emerge with the increased technology in the transportation sector. For instance, during the age of exploration, in the 16th and the 18th century, seaports brought a lot of development in the business activities across different parts of the world (Heesch, Giles-Corti, & Turrell, 2014). International trade was made easier during the time. Containerization and globalization of business activities brought an unprecedented revolution in the way business activities would consequently be carried out in the diverse parts of the world.  Railways in the 19th century made it possible for high capacity and flexible transport systems to be achieved. Railway line systems made it possible for complex and heavy goods to be carried in the inland. Substantial social and economic opportunities were opened up through the extraction and movement of goods in addition to the settlement of regions occupied by the system and the growth of mobility for both the cargo and the passengers. Airways and information technology can be intertwined factors that also brought quicker means of moving goods from one place to another. The overall effects of the developed transportation networks have greatly brought about the increased economic growth. Therefore there is no single transport mode has been responsible for the economic development. The overall economic growth can be attributed to the overall effects that have been brought about by the diverse changes that have taken place within the society.

From another insightful perspective, the major flows of international migration that took place in the 18th century can be heavily linked with the continental and international transport systems, which worked to shape the emerging economies such as the Australia and North America. The improved transportation system worked to provide the needed catalytic effect to these migrations. As a result, the social and economic geography of many people was transformed. Proper transportation links have been known to provide a tool for exploitation and territorial control. For instance, during the colonial era, resource-based transport systems were used to enhance the growth of economic activities. For instance, the transport systems could be able to support the extraction of commodities in the developing world and later taken to the industrializing nations. The growth of reliable and better transport networks was a major impetus that facilitated the exchange of ideas, goods and services for the two sides. The development of ports, especially containerization, creates a strategic plan that eventually assists countries to be integrated in the global economy and therefore more development has been witnessed as a result. Containerization has presented a great platform of capturing the opportunities that have been presented by the globalization process. Lack of transport systems in any region can be seen as one of the major constraints towards the economic development of that region. In developing economies, limitation caused by the regulatory impediments and transport infrastructures jointly impacts the economic development by increasing the transportation costs and delays which renders the management of supply chain unreliable. Poor transport networks can negatively affect the competitive capability of regions and businesses as well as employment rates, thus lowering the economic fortunes.

Efficient transportation systems ensure that there is increased potential market for a given product. This in turn increases competition. Many goods and services will be available to the consumers owing to the competition and this tends to reduce the price, alongside promoting innovation and increased quality of goods and services. Competition is further increased through globalization. Values of factors of production such as land are likely to increase with improved transport facilities. For instance, the pieces of land that are adjacent to the improved transport facility in many cases acquire a higher value than it was originally. In addition, the land tends to acquire more utility with increased benefits since the transportation of any physical outcome becomes cheaper (Abdallah, Belloumi, & De Wolf, 2013). Willing customers can be able to access a wide variety of products and services while the residents can access employment opportunities. However, there are other instances where the value of the land reduces following improved transport services. Such instances include land near airports and some highways where there is noise and pollution. In the modern society, most of the economic decisions that producers and consumers make are usually based on the availability of transport facilities within the society.

The benefits offered by a good transportation network are often underestimated despite the major socio-economic benefits the system offers to the society. Transportation network offers greater weight to the growth of the economy through different mechanisms. From a social perspective, the transport network works to create as well as stimulate social integration and cohesion among the people using it; thereby allowing them to access similar opportunities (Karou & Hull, 2014) asserts that the transportation networks are the heart of social and economic development through the provision of the required mobility that enhances trading activities and consequently socio-economic development. Transport networks work to support diverse sectors of the economy to develop.

One of the major effects of investments on transport network is the Kansas state of the United States. Approximately FRF 845.16 million was spent on construction of highways between the year 1991 and 1994. This investment in the road network produced an output impact of FRF 2,201.43 million (Karou & Hull, 2014). During the work of construction of transport networks, people are usually hired to carry out various tasks. This means that the construction activities offer direct employment to the people. This creates a direct impact to the economy of the region where the construction activities are being carried out. This acts to improve the socio-economic status of the people. Many activities usually rely on individual mobility. Individuals are expected to move from one place to another to carry out diverse socio-economic activities that are relevant to their own development. Mobility is an essential facet of economic growth. Developed transport systems usually accommodate improved socio-economic conditions. Modes of transport are essential components of development since development depends on communication and exchange of goods and services. Through developing exchanges and facilitating mobility, transportation enhances social and economic cohesion, a factor that is very instrumental towards achieving a sustainable and a balanced social and economic development.

Transportation services are heavily linked with the alleviation of poverty. For instance, lack of transportation services may limit the poor populace from capitalizing on the available job opportunities as well as the basic social services that can lead to development of their socio-economic status.  Sustainable poverty alleviation requires the development of good transportation systems. This is because the individuals can be able to access health and school facilities that form the basis of human capital especially in the contemporary society.

Economic growth of a region is highly dependent on well developed transportation systems. The transportation systems open up the region which allows efficient performance of activities. In itself, transportation is a wealth creating sector (Abdallah, Belloumi, & De Wolf, 2013). Additionally, Lack of adequate transportation systems usually limits the ability of the nation to utilize the natural resources as well as integrate social development activities in areas that need to be developed within the society in an attempt to create social equality. To attain national wealth, there is a need to maintain and improve the existing transportation networks.

From another dimension, it is significant to note that transportation infrastructure plays a very critical role in sustaining economic growth. First, individuals in a specific region may want to improve their standards of living. As a result, they may aspire to increase their levels of income as one if the techniques of achieving the goal.  Transportation networks support the people to maintain and improve economic opportunities, their income and consequently their social living standards. Transport services are very crucial aspects that contribute towards modernized business activities as well as economic growth. The development of transport infrastructure is a significant tool that determines the success a country is likely to achieve through the diversification of its production, trading activities, and its ability to link up all the present resources in the market in order to achieve an integrated economy at the end (Karou & Hull, 2014).   Transportation also assists to link people together from the grassroots and help them to market their products and services. In this case, the developing regions are able to get connected with one another, a process that opens up remote areas to assist in increasing productivity while at the same time lowering production costs. There are various actions that are aimed at reducing poverty in the different areas of the society. These activities may not be successful if there are no good transport systems.

Summary

In summary, literature review covered in the preceding sections is a clear indication that the focus of most of previously conducted studies was on government investment in public transportation impacted economic development. In fact, most of the past studies were particularly directed on the highway capital effects and/or impacts on both social and economic in the population. As a result, there has been little attention on the extent business focused transportation investment, and the economic impact which is attributable to it, as well as its interaction or relation with government investment on public transportation; and other modes. In addition, as pointed out in the scholarly or journal articles considered in the literature reviewer, there is need for more work to be carried out with regards to the exploration of the structural impact of various transportation investment projects that are characteristically distinct on the economy. This is mainly because these structural impacts are likely to influence a population through impacts that fall within the form of geographical, demographic, as well as industrial changes within an economy of a particular region.

Therefore, as highlighted in the literature review various transportation investments that are characteristically different, it is likely for inclusion of a broad range of characteristics capable of differentiating one form of investment from others particularly in terms of asset type, transportation mode, sector of investors, technology embedded in the transportation projects, the nature of investment as well as the source of funding. In contrast, there are also a number of previous studies mentioned in the literature review carried out to study the impacts of transportation investment on socio-economic development, especially on how economic development both in terms of industrial restructuring and economic growth stimulates or enhances continued investments in the improvement of transportation in terms of both increased funding sources as well as growing demand for transportation services. This form of study is imperative in ensuring helpful insights are gained.

There are significant investments which have being going on in the state of California towards improving transport infrastructures and systems without succinctly assessing the ensuing socio-economic benefits first, something which makes it imperative to undertake this study for the determination of the relationship that exist between the two scenarios (Cooper, 2012; Delorme, Thompson & Warren, 2013). This implies that an information gap exists which ought to be timely and effectively addressed, since if left undetermined then the state of California may continue to take risk that is not strategically evaluated through continued dedication of significant investments towards improvement of transport infrastructure and systems without matching socio-economic effects (Federal Highway Administration, 2012). On the other hand, the State may also fail to prioritize significant levels of investments in transport infrastructure and systems improvement and also risk to harness the inherent potential and economic opportunities if the socio-economic effects attributed to such actions are significant and satisfactory (Banister & Berechman, 2012; Brueckner, 2013; Berry, 2011; Mullen, Williams & Moowaw, 2012).

Furthermore, recommendations from most of the studies considered in the literature review indicate that there is an urgent need for initiatives aimed at developing new data in order to ensure it is broader and more detailed towards supporting a vast range of future research on a wide variety of issues. Similarly, through provision of comparable findings throughout most of the transportation modes, the literature review has provided helpful insights on this topic as well as highlighting areas of controversy and also the existing research gaps. Thus, there has been suggestion to broaden research on the impacts of public transportation improvements through government investment from its primary focus on spending in highway transportation to cover other areas of transportation. Through this approach, a comprehensive and wholesome view of the transportation and its resulting socio-economic impacts with regards to prevailing wages will be obtained. This is attributable to the fact that, this approach to future research will bring together data for equipment and infrastructure investment and government investment as well as the extent of impact on different households and industry sectors.

Research Method

The research methods focus on making sure that the study aim is achieved, which in this case is to examine the socio-economic effects of improvements in transportation infrastructure and systems by collecting information data on non-financial and financial perspectives of research respondents with regards to improvements in transportation infrastructure and systems as well as examining its socio-economic effects among Californians. The improvements in transport facilities is likely to play a significant role in fostering economic development through the economic benefits that ensue as well as utilizing socio-economic effects on daily lives of people living in California.

According to Moballeghi and Moghaddam (2012), improvements in transportation facilities and infrastructure are without any doubts the linking factor between the overall economic benefits and the socio-economic effects on Californian residents. The causal relationship to be investigated in this dissertation concerns these two perspectives of improvements in transport facilities such as the economic benefits and socio-economic effects on Californian residents in order to determine if people living in California are receiving sufficient outputs/rewards from continuous improvements in transport infrastructure and facilities and systems.

This section aims provides a clear map through which a realization of the research questions and objectives would be achieved. This section covers all the aspects underpinning the current study as and also provides the empirical methods forming the basis of the research study. Further, there is also demarcation of the section in the scope of the process of study as well as the limitations, which ensures that the study is situated among the current traditions with respect to investigation of the impact of improvement in transport facilities on socio-economic well-being of Californian residents.

Research Design

This section is involved in elucidating the process of data collection and covers how both primary and secondary data will be to be collected. It will be concerned with explaining the approach to be adopted as well as the requirements under which the different stages of collecting the data and investigations will be done. Moballeghi and Moghaddam (2012) emphasize that the most imperative elements in the construction of a research design should prioritize the issues of consistency in the research questions that ought to be answered. Research design constitutes the blueprint for the process of collecting, measuring, and analyzing the research data (Kasim, Alexander & Hudson, 2011; Paltridge & Starfield, 2011). As a result, the research design is considered to be the plan of helping in the process of investigating the phenomenon under study in order to provide valid and reliable answers to the research questions proposed in the study. Moballeghi and Moghaddam (2012) also emphasize that identifying appropriate variables in a research problem situation subsequent to developing a theoretical framework is very important in devising a research design, and the next step is to embark on designing the research in a way essential in enabling the gathering of required data as well as its analysis for the purpose of ensuring that conclusive solution are attained.

This means that a credible research design is crucial in providing a conceptual structure through which the study will be based on conducted and it is used as the reference point to deal with important aspects of the research including research questions under investigations; the relevant data to be gathered; and the appropriate method of analyzing the collected data to achieved the envisaged results to ensure desired conclusions are made (Kasim, Alexander & Hudson, 2011; Matusov & Brobst, 2013). This implies that the main purpose of developing an effective research design is to ensure that evidence-based findings obtained from the collected data is appropriate to enable the researcher in answering the research questions as succinctly as possible. In this dissertation, a quantitative research design will be used to study how improvements in transport facilities and infrastructure have impacted socio-economic well-being of Californian residents. The reason for choosing the correlational research design is attributed to the fact that there is need for developing a valid study for the description and investigation of the phenomena under study (Paltridge & Starfield, 2011; Rocco, Hatcher & Creswell, 2011).

According to Moballeghi and Moghaddam (2012) correlational study is an important research method involving in-depth, comparative analysis of scenario that are similar in various organizations within the same sector, where the nature in which the research problem is defined happen to be universal irrespective of who carry out the study. The most imperative features of a correlational study are its scientific credentials as well as professional applications that are evidence-based. Therefore, correlational study enables the study of a phenomenon in a timely manner within the settings which are by allowing researchers to embark on retaining the meaningful and holistic characteristics of events that are real and touching on organizations as well as individuals (Hunter & Leahey, 2013; Paltridge & Starfield, 2011; Rocco, Hatcher & Creswell, 2011).

A correlational study mainly concentrates on a particular situation and is useful for utilization when the complexity and uniqueness of a phenomenon is to be studied and it in-depth understanding achieved. Hunter and Leahey (2013) further asserts that the correlational research design should always be consisting of various fundamental components such as the research question(s), the devised propositions, reliable and quantifiable unit(s) of measurement and analysis, ability to determine the link the research data and propositions as well as the proposed criteria of interpreting the research findings. However, in correlational study it is possible to either use single or multiple-case studies in the attempts to succinctly elucidate the phenomenon under study (Kasim, Alexander & Hudson, 2011; Matusov & Brobst, 2013). Thus, the researcher may choose to focus on a particular or multiple aspects of the phenomenon under investigation depending on the proposed research questions. As a result, the researcher may opt to delve on a single aspect or multiple aspects. However, despite the fact that correlational research design is to be used in this study; a quantitative research approach will be adopted to enable collection of quantitative data for analysis (Matusov & Brobst, 2013; Paltridge & Starfield, 2011).

Operational Definition of Variables

The operational definition of variables provides a description of the variables included for measurement in this study whereby the description is provident for both the independent and dependent variables as shown below:

Improvement of transportation facilities. This construct/variable concerns the extent to which the transportation facilities have moved from one status/situation to a better one ( Yang,  Li,  & Cao, 2015). The study will consider the varieties of transportation facilities in relationship to the average earnings of the people within the study area.

Employment opportunities: This variable concerns the increase in the number of job openings with a region (Hopcraft, Bigurube, Lembeli, & Borner, 2015). Average amount of job opportunities will be considered.

Income level: This variable concerns the level of earnings among individuals or households within a region (Hopcraft, Bigurube, Lembeli, & Borner, 2015). Average income of the households will be noted.

Accessibility: This variable concerns the ease of access of one location from another within a region through increased mobility by reducing congestion among all the transportation modes (Hopcraft, Bigurube, Lembeli, & Borner, 2015). This will take into account the number of road networks present within a locality.

Transport expenses: This variable concerns the costs people have to pay when traveling from one location to another within a region (Hopcraft, Bigurube, Lembeli, & Borner, 2015).  The average of the amount of money the residents pay to move from one market area to another will be estimated.

Consumer goods’ prices: This variable concerns the costs people have to pay when purchasing consumer goods, that is, goods that are domestically used in households (Yang, Li, & Cao, 2015). The study will seek to find out the average amount of money that household use as their daily expenses.

Measurement

The measurement will be conducted on basis of the data collected on the independent variable and dependent variables using the appropriate data collection tools. The independent variable is the improvement in transport facilities while the dependent variables are: employment opportunities, income level, accessibility, transport expenses as well as consumer goods’ prices. In order to ensure the objectives of the study are achieved, the instruments to be used as means of measurement must also be outlined and described particularly those to be utilized in gathering data from the target population. In this study quantitative data shall be gathered in order to examine whether improvements in transport facilities has impact on economic development as well as socio-economic effects on daily lives of Californians. According to Hunter and Leahey (2013), several measurement instruments as well as methods of data collection exist which have been developed for specific measurement of the assessment outcomes.

Prior to engaging in the data collection process, there is need for the researcher to be familiar with the factors that inform the utilization of the measurement instruments chosen as well as the mode of determining if the instrument should be created or a commercially designed instrument should be utilized. According to Hunter and Leahey (2013), there must be consideration of several factors prior to selecting a measurement instrument, including methodology, purpose of measurement, type of measurement outcomes, available resources, as well as audience expectations. Moballeghi and Moghaddam (2012) further contend that when a researcher begins with outlining the purpose of the measurement obviously leads to identification other factors that are best suited to address the research questions. Furthermore, for the sake of clearly understanding the phenomena which is being investigated there is need to use quantitative research methods that emphasize more on making sure that there is succinct understanding of both the meaning as well as gaining an in-depth understanding of data collected through quantitative research methods such as focus groups, observations, interviews, or analysis of written material (Kasim, Alexander & Hudson, 2011; Matusov & Brobst, 2013; OECD, 2012). Pursuant to Moballeghi and Moghaddam (2012), quantitative methods are used for deductive examination of greater details of the phenomenon under investigation, which may sometimes go beyond the quantitative measurements’ scope.

Conducting interviews whether structured or semi-structured is one of the best ways through which quantitative primary data can be collected from the sample respondents chosen from the target population (Hunter & Leahey, 2013; Matusov & Brobst, 2013). However, one-on-one interviews can be conducted through emails or through telephone. Nevertheless, Moballeghi and Moghaddam (2012) asserts that face-to-face interviews is the best mode mainly because it allows a clear notice of interviewees’ facial expressions by the researcher during interviews which is critical in providing insights into some vital information concerning the study topic. However, the interviews in this study will be conducted through administration of questionnaires in order to make sure that the interview questions are answered in a structured format (Matusov & Brobst, 2013; Paltridge & Starfield, 2011).

Population and Sample

The targeted population for this study is the Californians working in the transport sector. The transport sector employees will be categorized into the following: lower cadre employees, middle level managers and top-level managers. The sampling frame for transport sector employees will be the computerized list from the transport organizations both public and private. The list for employees will be stratified by cadre/working levels and then further stratified by geographic locations. A mixture of probability and non-probability samples will be used and probability sampling will be conducted for content analysis of employees’ records.

Geographical Location

Los Angeles, the capital city of California State will be selected as the study site for most of the top-level managers, middle level managers, and employees working in the transport sector. However, in order to avoid biased sampling participants will also be randomly selected from other regions of California State who will be picked randomly in order to make sure that there is a balanced representation of the target population which in this case the California State population.

Pilot Study

Prior to designing the final questionnaire, face-to-face interviews will be conducted on randomly selected respondents from the target population in order to gain insights into the understanding level of respondents towards the questionnaire. This plays an essential role in identifying which questions that proven difficult for the selected respondents to answer, either by not being well framed or failure of respondents to understand them. During the interviews the researcher will use digital recorder to record the responses of those chosen to participate in the pilot study to each questions asked during the interview (Paltridge & Starfield, 2011; Rocco, Hatcher & Creswell, 2011). Subsequent to data collection from all the chosen participants, the recorder will be played in order to make sure that all the responses are noted down with respect to each research question asked. The analysis from the pilot study will help the researcher to make amendments into the questionnaire questions that prove to be difficult for a majority of respondents in order to ensure that in the actual questionnaire administration there will be high response rate with fully filled questionnaires (Given, 2012; Paltridge & Starfield, 2011).

Data collection and data analysis     

The main methodology for data collection that will be applied is survey questionnaires. This is the best method for this kind of study because it is less time consuming and does not require a lot of personnel. In addition, it is affordable. The participants will be brought in one venue during the delivery of the questionnaires so that they can be directed together (Moballeghi & Moghaddam, 2012; Paltridge & Starfield, 2011; Rocco, Hatcher & Creswell, 2011). In order to stimulate research participants response, the questionnaires will be designed accommodate both open-ended and closed ended questions. The researcher will distribute one 111 questionnaires, which will be administered using survey approach. Surveys are a research instrument that is common in correlational studies due to the flexibility they offer during interviews (Babbie, 2012). Hunter and Leahey (2013) defined surveys as research instruments that systemically attempt to collect information to describe and explain values, attitudes, behavior and beliefs of selected groups of people. Similarly, in spite the fact that surveys are conventional, this ensures that they confer tremendous benefits in the process of conducting non-experimental studies whose intention is to investigate the reality of a situation (Gauch, 2013; Hunter & Leahey, 2013; Paltridge & Starfield, 2011). For instance, during surveys it is possible to determine the prevalence of a certain aspect in the situation under investigation using the selected research participants. This study seeks to provide insights into the situation of transportation in California: the impact of improvement in transport facilities on economic development and socio-economic effects on daily lives among Californians.

The designed questionnaires will be delivered by the researcher, assisted by a team of five research assistants. The researcher will use pre-existing questionnaires because they have been devised by experts; therefore, they are very comprehensive. Data to be collected will be both primary and secondary (Paltridge & Starfield, 2011; Rocco, Hatcher & Creswell, 2011). The data to be used in the study will be gathered via questionnaires which will be delivered to the area under study and distributed to the selected research participants. This will span for duration of ten days. Filled-in questionnaires will be presented to the researcher in order to sort and store them followed by the cleaning and processing of the collected awaiting statistical analysis (Babbie, 2012; Paltridge & Starfield, 2011).

Secondary data collection will be carried out from sources that exist such as websites, publications electronic and print as well as historical literature on other studies related to the research topic. The stages of collecting and analyzing data are classified as either “integrated” or “disconnected” (Moballeghi & Moghaddam, 2012). Questionnaires from one set of research respondents will be handled prior to handling the next set. The refined or processed data will then be analyzed using SPSS.

Human Participants and Ethics Precautions

A research study involving participation of human subjects is required to adequately address all ethical considerations prior to the beginning of the study (Gauch, 2013; Hunter & Leahey, 2013; Rocco, Hatcher & Creswell, 2011). Armstrong and Sperry (2014) particularly stated the fundamental ethical considerations that must be dealt with sufficiently prior to beginning the research process at levels include: obtaining consent from the human subjects envisaged to be enrolled in research, providing an assurance of safety and security to all research participants to be involved, as well as giving a guarantee of privacy of gathered of data to be obtaining by maintaining confidentiality. According to Cohen and Arieli (2011), the highest ethical standards should always be adhered to in order to make sure that there are no violations of the rights of human participants taking part in the study. As a result, ethical considerations as outlined in the university guidelines will be regarded with the highest level of imperativeness during this study. This is attributable to the fact that research will be carried out in compliance with the ethical guidelines stipulated in the California Intercontinental University’s research guide. In order to ensure full compliance, the researcher will undertake a thorough process of reviewing the ethics checklist to ensure it is fully complete as well as gain succinct insights of the ethical policy and guidelines provided by the university and other authorities prior to obtaining approval to begin the study. This is highly imperative since it will help in the preparation of the researcher towards addressing the ethical challenges that have a high likelihood of occurrence during the research process and devise a contingency plan while making sure there is strict compliance to the ethical policy and research guidelines of the University as well as the other relevant standards guiding the research process.

Research Validity and Reliability

In social research, the researcher must ensure that the instruments development to measure the variables are accurate and of good fit (Cohen & Arieli, 2011). Moballeghi and Moghaddam (2012) states that, “it is imperative to ensure that the developed research instrument precisely measures a particular concept of the variables (p.157)”. For social sciences research, it is common to estimate the reliability and validity in order to ensure that the measures developed are reasonably good and will produce dependable measurements (Kara, 2012; Liu, 2015; Paltridge & Starfield, 2011).

Reliability will be an important element in this research. Measurements in a research are termed reliable if they can be replicated with minimal variations and in case randomness, then the measurement error should be arising from a particular source. As expressed by Hunter and Leahey (2013), the measurement reliability is an indication of absence of biasness, which is essential in making sure that consistency, is maintained. In quantitative research, reliability is an indication of the research findings trustworthiness (Creswell, 2012; Given, 2012). In order to make sure that the research findings are valid, the research will ascertain the accuracy of the measurement methods to determine whether they precisely capture what ought to be measured in variables (Soeters, Shields & Sebastiaan, 2014).

Summary

In summary, the current research faces a number of limitations that ought to be delimited in order for it to be successful. These limitations include: The area of study under consideration is to some extent limiting in a manner that the findings obtained from the study area cannot be generally applied. This is attributable to the fact that, since the California State is area of study it cannot be assumed that the research findings obtained shall have the possibility universal application globally. However, as mentioned earlier in the discussions of this conceptual paper, different styles and modes of transportation exist in different countries across various regions worldwide in the management of transport sector. This fact poses a limitation or challenge on how to conclusively study the phenomenon considering the feasibility of studying all transportation systems globally is not attainable. Finally, there will also be a limitation of the study with regards to the research participants to be included in the sample size, which shall be relatively small on the basis of available resources i.e. money and time both of which are scarce meaning that the researcher is not privileged to expand the study coverage. 

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