Integrating Radar-Based Obstacle Detection with Deep Reinforcement Learning for Robust Autonomous Navigation

被引：3

作者：

Pico, Nabih ^{[1
,2
]}

Montero, Estrella ^{[3
]}

Vanegas, Maykoll ^{[4
]}

Ayon, Jose Miguel Erazo ^{[5
]}

Auh, Eugene ^{[1
]}

Shin, Jiyou ^{[1
]}

Doh, Myeongyun ^{[1
]}

Park, Sang-Hyeon ^{[1
]}

Moon, Hyungpil ^{[1
]}

机构：

[1] Sungkyunkwan Univ, Dept Mech Engn, 2066 Seobu Ro, Suwon 16419, South Korea

[2] Escuela Super Politecn Litoral, ESPOL, Campus Gustavo Galindo,POB 09-01-5863, Guayaquil, Ecuador

[3] Sungkyunkwan Univ, Dept Elect & Comp Engn, Suwon 16419, South Korea

[4] Escuela Super Politecn Litoral, ESPOL, Campus Gustavo Galindo,POB 09-01-5863, Guayaquil, Ecuador

[5] Catholic Univ Santiago Guayaquil, Fac Engn, Guayaquil 090603, Ecuador

来源：

APPLIED SCIENCES-BASEL | 2025年 / 15卷 / 01期

关键词：

autonomous navigation; radar sensors; dynamic obstacles; deep reinforcement learning; IDENTIFICATION; TRACKING;

D O I：

10.3390/app15010295

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

This study presents an approach to autonomous navigation for wheeled robots, combining radar-based dynamic obstacle detection with a BiGRU-based deep reinforcement learning (DRL) framework. Using filtering and tracking algorithms, the proposed system leverages radar sensors to cluster object points and track dynamic obstacles, enhancing precision by reducing noise and fluctuations. A BiGRU-enabled DRL model is introduced, allowing the robot to process sequential environmental data and make informed decisions in dynamic and unpredictable environments, achieving collision-free paths and reaching the goal. Simulation and experimental results validate the proposed method's efficiency and adaptability, highlighting its potential for real-world applications in dynamic scenarios.

引用

页数：25

共 50 条

[1] Deep Reinforcement Learning Based Efficient and Robust Navigation Method For Autonomous Applications
Hemming, Nathan
Menon, Vineetha
2023 IEEE 35TH INTERNATIONAL CONFERENCE ON TOOLS WITH ARTIFICIAL INTELLIGENCE, ICTAI, 2023, : 287 - 293
[2] Autonomous navigation of UAV in multi-obstacle environments based on a Deep Reinforcement Learning approach
Zhang, Sitong
Li, Yibing
Dong, Qianhui
APPLIED SOFT COMPUTING, 2022, 115
[3] Autonomous navigation of UAV in multi-obstacle environments based on a Deep Reinforcement Learning approach
Zhang, Sitong
Li, Yibing
Dong, Qianhui
Applied Soft Computing, 2022, 115
[4] The autonomous navigation and obstacle avoidance for USVs with ANOA deep reinforcement learning method
Wu, Xing
Chen, Haolei
Chen, Changgu
Zhong, Mingyu
Xie, Shaorong
Guo, Yike
Fujita, Hamido
KNOWLEDGE-BASED SYSTEMS, 2020, 196 (196)
[5] Autonomous obstacle avoidance of UAV based on deep reinforcement learning
Yang, Songyue
Yu, Guizhen
Meng, Zhijun
Wang, Zhangyu
Li, Han
JOURNAL OF INTELLIGENT & FUZZY SYSTEMS, 2022, 42 (04) : 3323 - 3335
[6] Enhancing Radar-Based Stroke Detection: A Novel Approach Integrating Huygens' Principle and Deep Learning Techniques
Movafagh, Moein
Ghavami, Navid
Tiberi, Gianluigi
Taghipour-Gorjikolaie, Mehran
Cecchi, Paolo
Cosottini, Mirco
Dudley, Sandra
Ghavami, Mohammad
IEEE SENSORS JOURNAL, 2024, 24 (21) : 36085 - 36098
[7] Autonomous Marine Craft Navigation On The Study of Radar Obstacle Detection
Onunka, Chiemela
Bright, Glen
11TH INTERNATIONAL CONFERENCE ON CONTROL, AUTOMATION, ROBOTICS AND VISION (ICARCV 2010), 2010, : 567 - 572
[8] Data Augmentation in Deep Learning-Based Obstacle Detection System for Autonomous Navigation on Aquatic Surfaces
Navarro, Ingrid
Herrera, Alberto
Hernandez, Itzel
Garrido, Leonardo
ADVANCES IN COMPUTATIONAL INTELLIGENCE, MICAI 2018, PT II, 2018, 11289 : 344 - 355
[9] Incremental Learning for Autonomous Navigation of Mobile Robots based on Deep Reinforcement Learning
Manh Luong
Cuong Pham
Journal of Intelligent & Robotic Systems, 2021, 101
[10] Lightweight Deep Learning Model for Radar-Based Fall Detection With Metric Learning
Ou, Zixuan
Ye, Wenbin
IEEE INTERNET OF THINGS JOURNAL, 2023, 10 (09) : 8111 - 8122

← 1 2 3 4 5 →