Smart City Gnosys

Smart city article details

Title Supporting Mobility Planning In Small Cities And Communities With Low-Power, Machine Learning Based Sensing
ID_Doc 53682
Authors Aráuz J.
Year 2021
Published Procedia Computer Science, 185
DOI http://dx.doi.org/10.1016/j.procs.2021.05.012
Abstract Cities and communities around the country have very limited resources to invest in projects that go beyond supporting their traditional operational needs. Unfortunately, it is not uncommon to encounter cases where these limited resources are employed in large "smart city" projects that have little or no impact on the social good of the community. On the other hand, the work in this article considers specific needs and financial limitations of suburban or rural communities in the mobility sector. This article presents the work in the design, test and performance evaluation of a low-cost, machine learning based, solution for distributed monitoring of the use of public transit in small communities. The proposed solution utilizes a low-resolution infrared array, that provides non-personally identifiable information coupled with a low-power deep learning module. We also compare the machine-based solution to a traditional algorithmic approach. We believe the solution allows small communities, with limited resources, to collect near real-time data that can be employed for evidence-based decisions of coverage and frequency in public transit. The successful collection of this kind of mobility data is vital for small communities as this is needed to support grant applications that are increasingly commonly used to improve public transit or other mobility modes. © 2021 Elsevier B.V.. All rights reserved.
Author Keywords distributed sensing; IoT; Machine learning; social good


Similar Articles

Id Similarity Authors Title Published
17449 View0.883Höhne E.; Teich T.; Scharf O.; Leonhardt S.; Schlachte M.; Trommer M.; Mewes C.; Kraus M.; Bergelt S.; Queck-Hänel S.Data-Driven Mobility And Transport Planning In Municipalities: Smart Solutions For Limited ResourcesLecture Notes in Networks and Systems, 1028 LNNS (2024)
2477 View0.86Bertolusso M.; Spanu M.; Pettorru G.; Anedda M.; Fadda M.; Girau R.; Farina M.; Giusto D.A Machine Learning-Based Approach For Vehicular Tracking In Low Power Wide Area NetworksIEEE International Symposium on Broadband Multimedia Systems and Broadcasting, BMSB, 2022-June (2022)
51664 View0.857Mahrez Z.; Sabir E.; Badidi E.; Saad W.; Sadik M.Smart Urban Mobility: When Mobility Systems Meet Smart DataIEEE Transactions on Intelligent Transportation Systems, 23, 7 (2022)
40232 View0.856Bonola, M; Bracciale, L; Loreti, P; Amici, R; Rabuffi, A; Bianchi, GOpportunistic Communication In Smart City: Experimental Insight With Small-Scale Taxi Fleets As Data CarriersAD HOC NETWORKS, 43 (2016)
58847 View0.856Sharma A.; Rani S.Transforming Urban Spaces And Industries: The Power Of Machine Learning And Deep Learning In Smart Cities, Smart Industries, And Smart HomesEmerging Technologies and the Application of WSN and IoT: Smart Surveillance, Public Security, and Safety Challenges (2024)
899 View0.855Priyadarshi R.; Ranjan R.; Vishwakarma A.K.; Kumar R.R.A Comprehensive Overview Of Transformative Potential Of Machine Learning And Wireless Sensor Networks In Sustainable Urban Development2024 International Conference on Intelligent Systems for Cybersecurity, ISCS 2024 (2024)
57090 View0.855Kubik A.The Use Of Artificial Intelligence In The Assessment Of User Routes In Shared Mobility Systems In Smart CitiesSmart Cities, 6, 4 (2023)
35883 View0.854Oladipo I.D.; AbdulRaheem M.; Awotunde J.B.; Bhoi A.K.; Adeniyi E.A.; Abiodun M.K.Machine Learning And Deep Learning Algorithms For Smart Cities: A Start-Of-The-Art ReviewEAI/Springer Innovations in Communication and Computing (2022)
14531 View0.852Bolaños-Martinez D.; Bermudez-Edo M.; Garrido J.L.Clustering Pipeline For Vehicle Behavior In Smart VillagesInformation Fusion, 104 (2024)
13158 View0.852Meegahapola L.; Kandappu T.; Jayarajah K.; Akoglu L.; Xiang S.; Misra A.Buscope: Fusing Individual & Aggregated Mobility Behavior For “Live” Smart City ServicesMobiSys 2019 - Proceedings of the 17th Annual International Conference on Mobile Systems, Applications, and Services (2019)