This work offers an overview of the effective communication techniques for space exploration of ground, aerial, and underwater vehicles. We not only comprehensively summarize the trajectory planning, space exploration, optimization, and other challenges encountered but also present the possible directions for future work. Because a detailed study like this is uncommon in the literature, an attempt has been made to fill the gap for readers interested in path planning. This paper also includes optimization strategies that can be used to implement terrestrial, underwater, and airborne applications. This study addresses numerical, bio-inspired, and hybrid methodologies for each dimension described. Throughout this study, we endeavored to establ...
Underwater gliders have revealed as a valuable scientific platform, with a growing number of success...
Present study reviews the current methodologies adopted for optimal path planning of single unmanned...
International audienceA 3-D A* mission planning/replanning algorithm satisfying both environmental c...
This work offers an overview of the effective communication techniques for space exploration of grou...
In this paper, a review on the three most important communication techniques (ground, aerial, and un...
Summarization: This paper presents a complete methodology for mission planning and navigation of aut...
This dissertation explores optimal path planning techniques for safe navigation of autonomous air ve...
Autonomous Underwater Vehicles (AUVs) usually operate in ocean environments characterized by complex...
Hybrid aerial underwater vehicles (HAUV) are a new frontier for vehicles. They can operate both unde...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Motion planning has become an...
State of the art unmanned surface vehicles typically exhibit rudimentary autonomy, apart from naviga...
Trajectory planning is important in many applications involving unmanned aerial vehicles, underwater...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
With autonomy offering a number of benefits in robotics applications, such as increased safety, bett...
Thesis (S.M.)--Massachusetts Institute of Technology, Sloan School of Management, 2000.Includes bibl...
Underwater gliders have revealed as a valuable scientific platform, with a growing number of success...
Present study reviews the current methodologies adopted for optimal path planning of single unmanned...
International audienceA 3-D A* mission planning/replanning algorithm satisfying both environmental c...
This work offers an overview of the effective communication techniques for space exploration of grou...
In this paper, a review on the three most important communication techniques (ground, aerial, and un...
Summarization: This paper presents a complete methodology for mission planning and navigation of aut...
This dissertation explores optimal path planning techniques for safe navigation of autonomous air ve...
Autonomous Underwater Vehicles (AUVs) usually operate in ocean environments characterized by complex...
Hybrid aerial underwater vehicles (HAUV) are a new frontier for vehicles. They can operate both unde...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Motion planning has become an...
State of the art unmanned surface vehicles typically exhibit rudimentary autonomy, apart from naviga...
Trajectory planning is important in many applications involving unmanned aerial vehicles, underwater...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
With autonomy offering a number of benefits in robotics applications, such as increased safety, bett...
Thesis (S.M.)--Massachusetts Institute of Technology, Sloan School of Management, 2000.Includes bibl...
Underwater gliders have revealed as a valuable scientific platform, with a growing number of success...
Present study reviews the current methodologies adopted for optimal path planning of single unmanned...
International audienceA 3-D A* mission planning/replanning algorithm satisfying both environmental c...