Journal of Telecommunication, Switching Systems and Networks

This paper describes the operation of the machine learning algorithm used in the Uber database, which contains data generated by the Uber Movement for a few locations in Hyderabad and the big apple City. Uber is known as a peer-to-peer program. This program connects you to the nearest drivers available to take you to your destination. This database includes Uber capture data with information such as time, ride date additional information such as location, using this data, this paper describes the use of the k-algorithm for combining specific data and activity in different parts of Hyderabad and big apple City. As the industry grows beyond expectations, an effective cable deployment will help each passenger and driver reduce the waiting time to hunt. This model is used to predict the need for cables in a city identified by the uber organization and can predict data-based demand. In this project, our primary data source is uber traffic and user data.This paper shows how the Uber movement data set works, which includes data from Uber from a few locations in Hyderabad and New York. Uber is known as a forum for peer-to-peer. The website connects customers and local drivers who can drive customers to the desired location. The database contains basic data about Uber capture, including time, date, and ride time, as well as location information]. This paper describes how to use the k-integration algorithm to collect data and operate other parts of Hyderabad and New York using this information.

Yan, Xiang, Xinyu Liu, and Xilei Zhao. "Using machine learning for direct demand modeling of ride-sourcing services in Chicago." Journal of Transport Geography 83 (2020): 102661.

P. Devika, Y. Prasanna , P. Swetha ,G. Akhilesh Babu International Journal of Recent Technology and Engineering (IJRTE) ISSN: 2277-3878, Volume-8 Issue-4, November 2019.

Kumar, Manish, Deepak Kumar Gupta, and Samayveer Singh. "Extreme event forecasting using machine learning models." Advances in Communication and Computational Technology. Springer, Singapore, 2021. 1503-1514.

Correa, Diego, Kun Xie, and Kaan Ozbay. "Exploring the taxi and Uber demand in New York City: An empirical analysis and spatial modeling." 96th Annual Meeting of the Transportation Research Board, Washington, DC. 2017.

Uber, Chicago case study, 2015. https://uber-static.s3.amazonaws.com/webfresh/legal/Uber_Chicago_CaseStudy.pdf. Accessed March 20, 2016.

“Data retrieved from Uber Movement, (c) 2022 Uber Technologies, Inc., https://movement.uber.com.”

Srinivas, Rishi, B. Ankayarkanni, and R. Sathya Bama Krishna. "Uber Related Data Analysis using Machine Learning." 2021 5th International Conference on Intelligent Computing and Control Systems (ICICCS). IEEE, 2021.

Poulsen, L.K., Dekkers, D., Wagenaar, N., Snijders, W., Lewinsky, B., Mukkamala, R.R.andVatrapu, R., 2016, June. Green Cabs vs. Uber in New York City. In 2016 IEEEInternational Congress on Big Data (BigData Congress) (pp. 222-229). IEEE.

Faghih, S.S., Safikhani, A., Moghimi, B. and Kamga, C., 2017. Predicting Short-Term UberDemand Using Spatio-Temporal Modeling: A New York City Case Study. arXiv preprintarXiv:1712.02001.

Guha, S. and Mishra, N., 2016. Clustering data streams. In Data stream management (pp.169-187). Springer, Berlin, Heidelberg.

Ahmed, M., Johnson, E.B. and Kim, B.C., 2018. The Impact of Uber and Lyft on TaxiService Quality Evidence from New York City. Available at SSRN 3267082.

Wallsten, S., 2015. The competitive effects of the sharing economy: how is Uber changing taxis. Technology Policy Institute, 22, pp.1-21.

Sotiropoulos, D.N., Pournarakis, D.E. and Giaglis, G.M., 2016, July. A genetic algorithm approach for topic clustering: A centroid-based encoding scheme. In 2016 7th InternationalConference on Information, Intelligence, Systems & Applications (IISA) (pp. 1-8). IEEE

Faghih, S.S., Safikhani, A., Moghimi, B. and Kamga, C., 2019. Predicting Short-TermUber Demand in New York City Using Spatiotemporal Modeling. Journal of Computing in Civil Engineering, 33(3), p.05019002.

Shah, D., Kumaran, A., Sen, R. and Kumaraguru, P., 2019, May. Travel Time EstimationAccuracy in Developing Regions: An Empirical Case Study with Uber Data in Delhi-NCR✱.In Companion Proceedings of The 2019 World Wide Web Conference (pp. 130-136). ACM.

Kumar, A., Surana, J., Kapoor, M., and Nahar, P.A., CSE 255 Assignment II PerfectingPassenger Pickups: An Uber Case Study.

L.Liu, C.Andris, and C.Ratti, “Uncovering cabdrivers behavior patterns from their digital traces”, Compu. Environ.UrbanSyst.,vol.34,no.6,pp.541-548,2010

R.H.Hwang, Y.L.Hsueh, and Y.T.Chen,” An effective taxi recommender system model on a Spatio-temporal factor analysis