Eco-Routing: An ant colony based approach
Author | Elbery, Ahmed |
Author | Rakha, Hesham |
Author | El Nainay, Mustafa Y. |
Author | Drira, Wassim |
Author | Filali, Fethi |
Available date | 2024-11-21T09:24:44Z |
Publication Date | 2016 |
Publication Name | VEHITS 2016 - 2nd International Conference on Vehicle Technology and Intelligent Transport Systems, Proceedings |
Resource | Scopus |
Identifier | http://dx.doi.org/10.5220/0005778900310038 |
Abstract | Global warming, environmental pollution, and fuel shortage are currently major worldwide challenges. Ecorouting is one of several tools that attempt to address this challenge by minimizing network-wide vehicle fuel consumption and emission levels. Eco-routing systems select the most environmentally friendly route. The subpopulation feedback eco-routing (SPF-ECO) algorithm that is implemented in the INTEGRATION software can produce a reduction in fuel consumption levels by approximately 17%. However, in some cases, due to delayed updates or the lack for updates, its performance degrades. In this paper, we propose the ant colony based eco-routing technique (ACO-ECO), which is a novel feedback eco-routing and cost updating algorithm to overcome these shortcomings. In the ACO-ECO algorithm, real-time performance measures on various roadway links are shared. Vehicles build their minimum path routes using the latest real-time information to minimize their fuel consumption and emission levels. ACO-ECO is also able to capture randomness in route selection, pheromone updating, and pheromone evaporation. The results show that the ACO-ECO algorithm and SPF-ECO have similar performances in normal cases. However, in the case of link blocking, the ACO-ECO algorithm reduces the network-wide fuel consumption and CO2 emission levels in the range of 2.3% to 6.0%. It also reduces the average trip time by approximately 3.6% to 14.0%. |
Language | en |
Publisher | SciTePress |
Subject | Ant colony Eco-routing Emissions Fuel consumption ITS Travel time Vehicle routing |
Type | Conference |
Pagination | 31-38 |
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QMIC Research [219 items ]