Запис Детальніше

Development of online taxi ridesharing application

Електронний науковий архів Науково-технічної бібліотеки Національного університету "Львівська політехніка"

Переглянути архів Інформація
 
 
Поле Співвідношення
 
Title Development of online taxi ridesharing application
 
Creator Popova, A.
Kunanets, N.
Rzheuskyi, A.
 
Contributor Lviv Polytechnic National University
 
Subject route development
taxi ridesharing application
database of orders
messaging
user identification
request processing
customer
 
Description The paper highlights the main principles and
modalities for developing a mobile application for sharing the
ride via online taxi based on the use of innovative software
elements and logistic flow management models. The proposed
approach for the development of application is based on the
latest marketing course, the use of logistic models and the
elimination of analogues.
 
Date 2019-06-18T12:03:50Z
2019-06-18T12:03:50Z
2018-06-18
2018-06-18
 
Type Article
 
Identifier Popova A. Development of online taxi ridesharing application / A. Popova, N. Kunanets, A. Rzheuskyi // Econtechmod. — Lublin, 2018. — Vol 7. — No 3. — P. 39–46.
2084-5715
http://ena.lp.edu.ua:8080/handle/ntb/45137
Popova A. Development of online taxi ridesharing application / A. Popova, N. Kunanets, A. Rzheuskyi // Econtechmod. — Lublin, 2018. — Vol 7. — No 3. — P. 39–46.
 
Language en
 
Relation Econtechmod, 3 (7), 2018
http://www
https://ridesharechoices
1. Goldman J., Conservation. 2014. University of Washington How carpooling save the world.Access mode: http://www. conservationmagazine.org/ 2014/09/how-carpooling-will-save-the-world/.
2. Andrew M. Amey. 2010. Real-Time Ridesharing: Exploring the Opportunities and Challenges of Designing a Technology-based Rideshare Trial for the MIT Community. Access mode:https://ridesharechoices. scripts. mit. edu/home/wp-content/papers/AMEY_Thesis_Final. pdf.
3. Amey A., Attanucci J., and Mishalani R. 2011. Real-Time Ridesharing, Opportunities and Challenges in Using Mobile Phone Technology to Improve Rideshare Services. Transportation Research Record, Vol. 2217, 103–110.
4. Stach C. Stuttgart. 2011. Saving time, money, and the environment–vHike, a dynamic ridesharing service for mobile devices. IEEE International Conference on Pervasive Computing and Communications Workshops, 352–355.
5. Yaoli Wang, Winter S., and Tomko M. 2018. Collaborative activity-based ridesharing. Journal of Transport Geography, Vol. 72, 131–138.
6. Zhuo Chen, Xiaoyue Cathy Liu, and Ran Wei.2018. Agent-based approach to analyzing the effects of dynamic ridesharing in a multimodal network. Computers, Environment and Urban Systems. In press.
7. Yasaman Amirkiaee S., Nicholas Evangelopoulos. 2018. Why do people rideshare? An experimental study. Transportation Research Part F: Traffic Psychology and Behaviour,Vol. 55, 9–24.
8. Cetin T., Deakin E. 2017. Regulation of taxis and the rise of ridesharing. Transport Policy. In press.
9. Xuan Di, Rui Ma, Henry X. Liu, and Xuegang (Jeff) Ban. 2018. A link-node reformulation of ridesharing user equilibrium with network design. Transportation Research Part B: Methodological, Vol. 112, 230–255.
10. Farhan J., Donna Chen T. 2018. Impact of ridesharing on operational efficiency of shared autonomous electric vehicle fleet. Transportation Research Part C: Emerging Technologies,Vol. 93, 310–321.
11. Qian-Ping Gu, Jiajian Leo Liang, and Guochuan Zhang. 2017. Algorithmic analysis for ridesharing of personal vehicles. Theoretical Computer Science. In press.
12.Weiwei Jiang, Carlos Ruiz Dominguez, Pei Zhang, Max Shen, and Lin Zhang. 2018. Largescale nationwide ridesharing system: A case study of Chunyun. International Journal of Transportation Science and Technology, Vol. 7, Iss. 1, 45–59.
13. Huayu Xu, Jong-Shi Pang, Fernando Ordóñez, and Maged Dessouky. 2015. Complementarity models for traffic equilibrium with ridesharing. Transportation Research Part B: Methodological,Vol. 81, Part 1, 161–182.
14. Rashmi P. Payyanadan, John D. Lee. 2018. Understanding the ridesharing needs of older adults. Travel Behaviour and Society, Vol. 13,155–164.
1. Goldman J., Conservation. 2014. University of Washington How carpooling save the world.Access mode: http://www. conservationmagazine.org/ 2014/09/how-carpooling-will-save-the-world/.
2. Andrew M. Amey. 2010. Real-Time Ridesharing: Exploring the Opportunities and Challenges of Designing a Technology-based Rideshare Trial for the MIT Community. Access mode:https://ridesharechoices. scripts. mit. edu/home/wp-content/papers/AMEY_Thesis_Final. pdf.
3. Amey A., Attanucci J., and Mishalani R. 2011. Real-Time Ridesharing, Opportunities and Challenges in Using Mobile Phone Technology to Improve Rideshare Services. Transportation Research Record, Vol. 2217, 103–110.
4. Stach C. Stuttgart. 2011. Saving time, money, and the environment–vHike, a dynamic ridesharing service for mobile devices. IEEE International Conference on Pervasive Computing and Communications Workshops, 352–355.
5. Yaoli Wang, Winter S., and Tomko M. 2018. Collaborative activity-based ridesharing. Journal of Transport Geography, Vol. 72, 131–138.
6. Zhuo Chen, Xiaoyue Cathy Liu, and Ran Wei.2018. Agent-based approach to analyzing the effects of dynamic ridesharing in a multimodal network. Computers, Environment and Urban Systems. In press.
7. Yasaman Amirkiaee S., Nicholas Evangelopoulos. 2018. Why do people rideshare? An experimental study. Transportation Research Part F: Traffic Psychology and Behaviour,Vol. 55, 9–24.
8. Cetin T., Deakin E. 2017. Regulation of taxis and the rise of ridesharing. Transport Policy. In press.
9. Xuan Di, Rui Ma, Henry X. Liu, and Xuegang (Jeff) Ban. 2018. A link-node reformulation of ridesharing user equilibrium with network design. Transportation Research Part B: Methodological, Vol. 112, 230–255.
10. Farhan J., Donna Chen T. 2018. Impact of ridesharing on operational efficiency of shared autonomous electric vehicle fleet. Transportation Research Part C: Emerging Technologies,Vol. 93, 310–321.
11. Qian-Ping Gu, Jiajian Leo Liang, and Guochuan Zhang. 2017. Algorithmic analysis for ridesharing of personal vehicles. Theoretical Computer Science. In press.
12.Weiwei Jiang, Carlos Ruiz Dominguez, Pei Zhang, Max Shen, and Lin Zhang. 2018. Largescale nationwide ridesharing system: A case study of Chunyun. International Journal of Transportation Science and Technology, Vol. 7, Iss. 1, 45–59.
13. Huayu Xu, Jong-Shi Pang, Fernando Ordóñez, and Maged Dessouky. 2015. Complementarity models for traffic equilibrium with ridesharing. Transportation Research Part B: Methodological,Vol. 81, Part 1, 161–182.
14. Rashmi P. Payyanadan, John D. Lee. 2018. Understanding the ridesharing needs of older adults. Travel Behaviour and Society, Vol. 13,155–164.
 
Rights © Copyright by Lviv Polytechnic National University 2018
© Copyright by Polish Academy of Sciences 2018
© Copyright by University of Engineering and Economics in Rzeszów 2018
© Copyright by University of Life Sciences in Lublin 2018
 
Format 39-46
8
application/pdf
image/png
 
Coverage Lublin