E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light

Khalil Ben Fredj; Akhil Reddy Pallamreddy; Geert Heijenk; Paul Havinga; Yanqiu Huang

doi:10.1007/978-3-031-63989-0_10

E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light

Khalil Ben Fredj^*, Akhil Reddy Pallamreddy, Geert Heijenk, Paul Havinga, Yanqiu Huang

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

The expanding growth of electric bikes in recent years underscores their increasing importance as a sustainable and eco-friendly mode of transportation. With zero emissions and the ability to ease urban congestion, e-bikes are becoming a pivotal solution in promoting greener and more efficient commuting habits. However, signalized intersections and frequent stops at traffic lights (TL) are considered uncomfortable for cyclists. This article introduces a personalized and privacy-preserving Intelligent Speed Adaption (ISA) system that helps cyclists adapt to the required speed to catch the green light. In our system design, traffic lights are augmented with Bluetooth Low Energy (BLE) beaconing devices which allow connected e-bikes to get the remaining green light phase duration, estimate the distance to the intersection, and assist the cyclist to catch the green light when necessary. We address the speed adaption problem as a convex optimization problem to ensure smooth and safe acceleration. In addition, a fuzzy logic controller is used to control motor power to reach the recommended speed while considering the human pedal power. We generate different scenarios with various initial velocities, time to red (TTR), slope of the road, and human pedal power to evaluate the system’s performance. The results demonstrate that ISA improves the probability of crossing the traffic light by about 77% compared to the absence of speed adaptation.

Original language	English
Title of host publication	Mobile and Ubiquitous Systems
Subtitle of host publication	Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I
Editors	Arkady Zaslavsky, Zhaolong Ning, Vana Kalogeraki, Dimitrios Georgakopoulos, Panos K. Chrysanthis
Place of Publication	Cham, Switzerland
Publisher	Springer
Pages	201-220
Number of pages	20
ISBN (Electronic)	978-3-031-63989-0
ISBN (Print)	978-3-031-63988-3
DOIs	https://doi.org/10.1007/978-3-031-63989-0_10
Publication status	Published - 19 Jul 2024
Event	20th EAI International Conference on Mobile and Ubiquitous Systems, MobiQuitous 2023: Computing, Networking and Services - RMIT University, Melbourne, Australia Duration: 14 Nov 2023 → 17 Nov 2023 Conference number: 20 https://mobiquitous.eai-conferences.org/2023/

Publication series

Name	Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering
Publisher	Springer
Volume	593
ISSN (Print)	1867-8211
ISSN (Electronic)	1867-822X

Conference

Conference	20th EAI International Conference on Mobile and Ubiquitous Systems, MobiQuitous 2023
Abbreviated title	MobiQuitous 2023
Country/Territory	Australia
City	Melbourne
Period	14/11/23 → 17/11/23
Internet address	https://mobiquitous.eai-conferences.org/2023/

Keywords

2024 OA procedure
Fuzzy Logic Control
Intelligent Speed Adaptation
Privacy Preserving
RSSI distance estimation
Smart e-bikes
SPaT
Bluetooth Low Energy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-3-031-63989-0_10

ArticleFinal published version, 1.98 MBLicence: Taverne

Cite this

Ben Fredj, K., Pallamreddy, A. R., Heijenk, G., Havinga, P., & Huang, Y. (2024). E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light. In A. Zaslavsky, Z. Ning, V. Kalogeraki, D. Georgakopoulos, & P. K. Chrysanthis (Eds.), Mobile and Ubiquitous Systems: Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I (pp. 201-220). (Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering; Vol. 593). Springer. https://doi.org/10.1007/978-3-031-63989-0_10

Ben Fredj, Khalil ; Pallamreddy, Akhil Reddy ; Heijenk, Geert et al. / E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light. Mobile and Ubiquitous Systems: Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I. editor / Arkady Zaslavsky ; Zhaolong Ning ; Vana Kalogeraki ; Dimitrios Georgakopoulos ; Panos K. Chrysanthis. Cham, Switzerland : Springer, 2024. pp. 201-220 (Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering).

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title = "E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light",

abstract = "The expanding growth of electric bikes in recent years underscores their increasing importance as a sustainable and eco-friendly mode of transportation. With zero emissions and the ability to ease urban congestion, e-bikes are becoming a pivotal solution in promoting greener and more efficient commuting habits. However, signalized intersections and frequent stops at traffic lights (TL) are considered uncomfortable for cyclists. This article introduces a personalized and privacy-preserving Intelligent Speed Adaption (ISA) system that helps cyclists adapt to the required speed to catch the green light. In our system design, traffic lights are augmented with Bluetooth Low Energy (BLE) beaconing devices which allow connected e-bikes to get the remaining green light phase duration, estimate the distance to the intersection, and assist the cyclist to catch the green light when necessary. We address the speed adaption problem as a convex optimization problem to ensure smooth and safe acceleration. In addition, a fuzzy logic controller is used to control motor power to reach the recommended speed while considering the human pedal power. We generate different scenarios with various initial velocities, time to red (TTR), slope of the road, and human pedal power to evaluate the system{\textquoteright}s performance. The results demonstrate that ISA improves the probability of crossing the traffic light by about 77% compared to the absence of speed adaptation.",

keywords = "2024 OA procedure, Fuzzy Logic Control, Intelligent Speed Adaptation, Privacy Preserving, RSSI distance estimation, Smart e-bikes, SPaT, Bluetooth Low Energy",

author = "{Ben Fredj}, Khalil and Pallamreddy, {Akhil Reddy} and Geert Heijenk and Paul Havinga and Yanqiu Huang",

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Ben Fredj, K , Pallamreddy, AR , Heijenk, G, Havinga, P & Huang, Y 2024, E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light. in A Zaslavsky, Z Ning, V Kalogeraki, D Georgakopoulos & PK Chrysanthis (eds), Mobile and Ubiquitous Systems: Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I. Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering, vol. 593, Springer, Cham, Switzerland, pp. 201-220, 20th EAI International Conference on Mobile and Ubiquitous Systems, MobiQuitous 2023, Melbourne, Victoria, Australia, 14/11/23. https://doi.org/10.1007/978-3-031-63989-0_10

E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light. / Ben Fredj, Khalil ; Pallamreddy, Akhil Reddy ; Heijenk, Geert et al.
Mobile and Ubiquitous Systems: Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I. ed. / Arkady Zaslavsky; Zhaolong Ning; Vana Kalogeraki; Dimitrios Georgakopoulos; Panos K. Chrysanthis. Cham, Switzerland: Springer, 2024. p. 201-220 (Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering; Vol. 593).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light

AU - Ben Fredj, Khalil

AU - Pallamreddy, Akhil Reddy

AU - Heijenk, Geert

AU - Havinga, Paul

AU - Huang, Yanqiu

N1 - Conference code: 20

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N2 - The expanding growth of electric bikes in recent years underscores their increasing importance as a sustainable and eco-friendly mode of transportation. With zero emissions and the ability to ease urban congestion, e-bikes are becoming a pivotal solution in promoting greener and more efficient commuting habits. However, signalized intersections and frequent stops at traffic lights (TL) are considered uncomfortable for cyclists. This article introduces a personalized and privacy-preserving Intelligent Speed Adaption (ISA) system that helps cyclists adapt to the required speed to catch the green light. In our system design, traffic lights are augmented with Bluetooth Low Energy (BLE) beaconing devices which allow connected e-bikes to get the remaining green light phase duration, estimate the distance to the intersection, and assist the cyclist to catch the green light when necessary. We address the speed adaption problem as a convex optimization problem to ensure smooth and safe acceleration. In addition, a fuzzy logic controller is used to control motor power to reach the recommended speed while considering the human pedal power. We generate different scenarios with various initial velocities, time to red (TTR), slope of the road, and human pedal power to evaluate the system’s performance. The results demonstrate that ISA improves the probability of crossing the traffic light by about 77% compared to the absence of speed adaptation.

AB - The expanding growth of electric bikes in recent years underscores their increasing importance as a sustainable and eco-friendly mode of transportation. With zero emissions and the ability to ease urban congestion, e-bikes are becoming a pivotal solution in promoting greener and more efficient commuting habits. However, signalized intersections and frequent stops at traffic lights (TL) are considered uncomfortable for cyclists. This article introduces a personalized and privacy-preserving Intelligent Speed Adaption (ISA) system that helps cyclists adapt to the required speed to catch the green light. In our system design, traffic lights are augmented with Bluetooth Low Energy (BLE) beaconing devices which allow connected e-bikes to get the remaining green light phase duration, estimate the distance to the intersection, and assist the cyclist to catch the green light when necessary. We address the speed adaption problem as a convex optimization problem to ensure smooth and safe acceleration. In addition, a fuzzy logic controller is used to control motor power to reach the recommended speed while considering the human pedal power. We generate different scenarios with various initial velocities, time to red (TTR), slope of the road, and human pedal power to evaluate the system’s performance. The results demonstrate that ISA improves the probability of crossing the traffic light by about 77% compared to the absence of speed adaptation.

KW - 2024 OA procedure

KW - Fuzzy Logic Control

KW - Intelligent Speed Adaptation

KW - Privacy Preserving

KW - RSSI distance estimation

KW - Smart e-bikes

KW - SPaT

KW - Bluetooth Low Energy

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A2 - Zaslavsky, Arkady

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Ben Fredj K , Pallamreddy AR , Heijenk G, Havinga P, Huang Y. E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light. In Zaslavsky A, Ning Z, Kalogeraki V, Georgakopoulos D, Chrysanthis PK, editors, Mobile and Ubiquitous Systems: Computing, Networking and Services - 20th EAI International Conference, MobiQuitous 2023, Melbourne, VIC, Australia, November 14-17, 2023. Proceedings, Part I. Cham, Switzerland: Springer. 2024. p. 201-220. (Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering). doi: 10.1007/978-3-031-63989-0_10

E-Go Bicycle Intelligent Speed Adaptation System for Catching the Green Light

Abstract

Publication series

Conference

Keywords

UN SDGs

Access to Document

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