|
Reference
|
|
Abedi, N., Bhaskar, A., Chung, E. (2014) Tracking spatio-temporal movement of human in terms of space utilization using Media-Access-Control address data. Applied Geography, vol. 51, pp. 72-81
|
|
Ajayi, O.O., Bagula, A.B., Maluleke, H.C., Odun-Ayo, I.A. (2021) Transport inequalities and the adoption of intelligent transportation systems in Africa: A research landscape. Sustainability, 13(22): 12891-12891
|
|
Aldegheishem, A., Yasmeen, H., Maryam, H., Shah, M., Mehmood, A., Alrajeh, N., Song, H. (2018) Smart road traffic accidents reduction strategy based on intelligent transportation systems (TARS). Sensors, 18(7): 1983-1983
|
|
Baek, K., Lee, H., Chung, J., Kim, J. (2021) Electric scooter sharing: How do people value it as a last-mile transportation mode?. Transportation Research Part D: Transport and Environment, 90: 102642-102642
|
|
Boltze, M., Tuan, V.A. (2016) Approaches to achieve sustainability in traffic management. Procedia Engineering, 142: 205-212
|
|
Edwards, S., Hill, G., Goodman, P., Blythe, P.T., Mitchell, P., Huebner, Y. (2018) Quantifying the impact of a real world cooperative-ITS deployment across multiple cities. Transportation Research Part A: Policy and Practice, 115: 102-113
|
|
European Commission (2020) Statistical pocketbook 2020: Mobility and Transport. Brussels
|
|
European Commission (2020) Sustainable and smart mobility strategy: Putting European transport on track for the future. Brussels
|
|
Institute for European Environmental Policy (2001) Background for the integration of environmental concerns into transport policy in the accession candidate countries: Final report
|
|
Khodaparastan, M., Mohamed, A.A., Brandauer, W. (2019) Recuperation of regenerative braking energy in electric rail transit systems. IEEE Transactions on Intelligent Transporrtation Systems, 20(8): 2831-2847
|
|
Lv, Z., Shang, W. (2023) Impacts of intelligent transportation systems on energy conservation and emission reduction of transport systems: A comprehensive review. Green Technologies and Sustainability, 1(1): 100002-100002
|
|
Neves, A., Brand, C. (2019) Assessing the potential for carbon emissions savings from replacing short car trips with walking and cycling using a mixed GPS-travel diary approach. Transportation Research Part A: Policy and Practice, 123: 130-146
|
|
Paulino, F., Pina, A., Baptista, P. (2018) Evaluation of alternatives for the passenger road transport sector in Europe: A life-cycle assessment approach. Environments, 5(2): 21-21
|
|
Qian, C., Liu, H., Zhang, M., Shu, B., Xu, L., Zhang, R. (2016) A geometry-based cycle slip detection and repair method with time-differenced carrier phase (TDCP) for a single frequency global position system (GPS)+ BeiDou navigation satellite system (BDS) receiver. Sensors, 16(12): 2064-2064
|
|
Reis, A.F., Baptista, P., Moura, F. (2023) How to promote the environmental sustainability of shared e-scooters: A life-cycle analysis based on a case study from Lisbon, Portugal. Journal of Urban Mobility, 3
|
|
Richardson, B.C. (2005) Sustainable transport: Analysis frameworks. Journal of Transport Geography, vol. 13, no. 1, pp. 29-39
|
|
Schiene, A.P. (2020) Allianz pro Schiene. Available: https://www.allianzproschiene.de/presse/publikationen/. [Accessed 21 Mart 2023]
|
|
UNECE (2015) Transport for Sustainable Development, The case of Inland Transport
|
|
Urban Update Available: www.urbanupdate.in. [Accessed 23 Mart 2023]
|
|
Wang, X., Zhang, F., Li, B., Gao, J. (2017) Developmental pattern and international cooperation on intelligent transport system in China. Case Studies on Transport Policy, 5(1): 38-44
|
|
Yang, D., Liu, D., Huang, A., Lin, J., Xu, L. (2021) Critical transformation pathways and socio-environmental benefits of energy substitution using a LEAP scenario modeling. Renewable and Sustainable Energy Reviews, 135: 110116-110116
|
|
|
|