A Synthesis of Sustainable Public Transportation Logistics Model

Ornpapha Chutikorntaweesin; Thuchaphon Yodthong

doi:10.18535/ijsrm/v10i12.em07

Abstract

The purpose of this research was to synthesize the sustainable public transportation logistics model. The researchers reviewed the related literature in the 5 years prior to the COVID-19 pandemic. The research process began with searching, reviewing, analyzing, synthesizing and summarizing the data. The results showed that the key components of the sustainable public transportation logistics model consisted of 3 components:

Corporate of Governance: it included 1) Urban Form which were (1) Physical Form and Land Use, (2) Land Area and Density, (3) Centralities and Regionalism; and 2) Transport Policy which were (1) Regional Integration, (2) Funding and Finances.
Logistics Management: it included 1) Physical Flow which were (1) The Speed of Transportation, (2) The Economies of Transportation, (3) The Safety of Transportation, (4) Quantity of Vehicles in Transportation, (5) The Convenience of Transportation, (6) The Certainty and Timeliness in Transportation; 2) Information Flow which were (1) Internal Communication, (2) External Communication; and 3) Financial Flow which were (1) Determine the Appropriate Fare,
(2) Smart Card, (3) Common Ticketing System.
Sustainable Public Transportation: it included 1) Economic Dimension which were (1) Funding, (2) Demand Management;
2) Social Dimension which were (1) Differences in Spatial Distribution, (2) Travel Expenses, (3) Health, (4) Public Safety; and 3) Environmental Dimension which were (1) Greenhouse Gas Emission, (2) Fossil Fuel, (3) Renewable Energy.

Keywords

A Synthesis of ModelPublic TransportationLogisticsSustainable

References

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[refR-2] De Gruyter, C., Currie, G., & Rose, G. (2016). Sustainability Measures of Urban Public Transport in Cities: A World Review and Focus on the Asia/Middle East Region. Sustainability, 9(1), 43.Google Scholar ↗

[refR-3] Dong, J., Xu, Y., Hwang, B. G., Ren, R., & Chen, Z. (2019). The Impact of Underground Logistics System on Urban Sustainable Development: A System Dynamics Approach. Sustainability, 11(5), 1223.Google Scholar ↗

[refR-4] Gatta, V., Marcucci, E., Nigro, M., Patella, S., & Serafini, S. (2019). Public Transport-Based Crowdshipping for Sustainable City Logistics: Assessing Economic and Environmental Impacts. Sustainability, 11(1), 145.Google Scholar ↗

[refR-5] Holguín-Veras, J., Sánchez-Díaz, I., & Browne, M. (2016). Sustainable urban freight systems and freight demand management. Transportation Research Procedia, 12, 40-52.Google Scholar ↗

[refR-6] Karjalainen, L. E., & Juhola, S. (2019). Framework for Assessing Public Transportation Sustainability in Planning and Policy-Making. Sustainability, 11(4), 1028.Google Scholar ↗

[refR-7] Kauf, S. (2016). City logistics–a strategic element of sustainable urban development. Transportation Research Procedia, 16, 158-164.Google Scholar ↗

[refR-8] Lertdetdecha, A., Chutikorntaweesin, O., Yodthong, T., Kamolrat, A. (2015). The Model of Modern Management of Agriculture Chemical Business and Organizational Sustainability. The International Journal of Business & Management, 3(4), 404–411.Google Scholar ↗

[refR-9] Maheshwari, P., Kachroo, P., Paz, A., & Khaddar, R. (2015). Development of control models for the planning of sustainable transportation systems. Transportation Research Part C: Emerging Technologies, 55, 474-485.Google Scholar ↗

[refR-10] Miller, P., de Barros, A. G., Kattan, L., & Wirasinghe, S. C. (2016a). Public transportation and sustainability: A review. KSCE Journal of Civil Engineering, 20(3), 1076-1083.Google Scholar ↗

[refR-11] Miller, P., de Barros, A. G., Kattan, L., & Wirasinghe, S. C. (2016b). Analyzing the sustainability performance of public transit. Transportation Research Part D: Transport and Environment, 44,Google Scholar ↗

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[refR-14] Office of the National Economics and Social Development Council. (2022). Draft of 13th National Economic and Social Development Plan (2023 – 2027). Retrieve from https://www.nesdc.go.th/Google Scholar ↗

[refR-15] download/Plan13/Doc/Plan13_DraftFinal.pdfGoogle Scholar ↗

[refR-16] Office of Transport and Traffic Policy and Planning. (2016). Work plan for the main mission of the Ministry of Transport under the (draft) 20-Year Development Strategy for Thailand's Transport System (2017-2036). Ministry of Transport.Google Scholar ↗

[refR-17] Pojani, D., & Stead, D. (2015). Sustainable urban transport in the developing world: beyond megacities. Sustainability, 7(6), 7784-7805.Google Scholar ↗

[refR-18] Rai, H. B., Verlinde, S., Merckx, J., & Macharis, C. (2017). Crowd logistics: an opportunity for more sustainable urban freight transport?. European Transport Research Review, 9(3), 39.Google Scholar ↗

[refR-19] Shen, L., Du, L., Yang, X., Du, X., Wang, J., & Hao, J. (2018). Sustainable strategies for transportation development in emerging cities in China: A simulation approach. Sustainability,Google Scholar ↗

[refR-20] , 844.Google Scholar ↗

[refR-21] Speranza, M. G. (2018). Trends in transportation and logistics. European Journal of Operational Research, 264(3), 830-836.Google Scholar ↗

[refR-22] Stawiarska, E., & Sobczak, P. (2018). The impact of Intelligent Transportation System implementations on the sustainable growth of passenger transport in EU regions. Sustainability, 10(5), 1318.Google Scholar ↗

[refR-23] Sullet, C. H., & Dossou, P. E. (2018). Sustainable Logistics and mobility in cities: Paris South-East Area. Procedia Manufacturing, 17, 1128-1135.Google Scholar ↗

[refR-24] The Secretariat of The House of Representatives. (2015). National Reform Council Development Agenda 2: Infrastructure and Logistics Development Plan. The Secretariat of The House of Representatives.Google Scholar ↗

[refR-25] World Bank. (2018). Connecting to Compete 2018: Trade Logistics in the Global Economy, the Logistics Performance Index and its Indicators. World Bank.Google Scholar ↗

[refR-26] World Economic Forum. (2019). The Global Competitiveness Report 2019. World Economic Forum.Google Scholar ↗

[refR-27] Wu, W., Ma, W., Long, K., Zhou, H., & Zhang, Y. (2016). Designing sustainable public transportation: Integrated optimization of bus speed and holding time in a connected vehicle environment. Sustainability, 8(11), 1170.Google Scholar ↗