July 21, 2025
The GIST Researchers use multidimensional data mining for obstacle avoidance system in autonomous vehicles 
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Andrew Zinin
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A new data-driven technique for obstacle avoidance in autonomous vehicles is reported in the International Journal of Vehicle Design. The approach might overcome many of the longstanding challenges in the development of self-driving navigation.
Obstacle avoidance refers to the ability of a vehicle to detect and maneuver around objects in its path. Despite years of development, many systems still struggle with this core capability, often producing inefficient routes, reacting slowly to sudden changes, or failing altogether in complex or unpredictable environments. The new method addresses these shortcomings by integrating advanced data mining and optimization algorithms into the vehicle's navigation process.
The researchers explain that multidimensional data mining is key to their approach. This involves extracting patterns from a wide array of data sources, including visual input from cameras, spatial measurements from LIDAR (light detection and ranging, a laser-based system for mapping distances), location data from GPS (Global Positioning System), and real-time traffic information.
This data is processed using K-means clustering, a machine-learning algorithm that groups similar data points without needing prior labels. The purpose is to allow the vehicle to interpret its surroundings more intelligently, recognizing patterns such as obstacle types, road features, or the movement of nearby objects.
Once the environment is processed, the vehicle builds what researchers call a target function. This is a mathematical model that balances the goals of safety, speed, and efficiency. To optimize this function, the team applied the Whale Optimization Algorithm (WOA), a method inspired by the foraging behavior of killer whales, Orcinus orca. WOA excels at quickly identifying optimal solutions in complex spaces, making it well-suited to the high-speed demands of on-road decision-making.
In their simulations, the team demonstrated an obstacle-avoidance success rate of almost 99%, with reaction times as fast as 0.44 seconds. These results represent a marked improvement over many existing techniques, which often require longer processing times and produce less direct or more conservative paths.
More information: Aiju Wang et al, An obstacle avoidance path selection for autonomous vehicles based on multi-dimensional data mining, International Journal of Vehicle Design (2025). DOI: 10.1504/IJVD.2025.147128. www.inderscience.com/info/inar … cle.php?artid=147128
Provided by Inderscience Citation: Researchers use multidimensional data mining for obstacle avoidance system in autonomous vehicles (2025, July 21) retrieved 21 July 2025 from https://techxplore.com/news/2025-07-multidimensional-obstacle-autonomous-vehicles.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
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