LWDNet-A lightweight water-obstacles detection network for unmanned surface vehicles
Author:
Funder
National Key Research and Development Program of China
Publisher
Elsevier BV
Subject
Computer Science Applications,General Mathematics,Software,Control and Systems Engineering
Reference56 articles.
1. Deep reinforcement learning-based controller for path following of an unmanned surface vehicle;Woo;Ocean Eng.,2019
2. GPU based generation of state transition models using simulations for unmanned surface vehicle trajectory planning;Thakur;Robot. Auton. Syst.,2012
3. Fast image-based obstacle detection from unmanned surface vehicles;Kristan;IEEE Trans. Cybern.,2015
4. Human–machine cooperation research for navigation of maritime autonomous surface ships: A review and consideration;Liu;Ocean Eng.,2022
5. A short-range ship navigation system based on ladar imaging and target tracking for improved safety and efficiency;Ruiz;IEEE Trans. Intell. Transp. Syst.,2009
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1. LDMNet: Enhancing the Segmentation Capabilities of Unmanned Surface Vehicles in Complex Waterway Scenarios;Applied Sciences;2024-08-31
2. Tunable Error Reduction Scheme in Proximity Sensor Function Applied to Unmanned Vehicular Networks;IEEE Sensors Journal;2024-05-15
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