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Mobile robot = motion control and path planning /
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Mobile robot/ edited by Ahmad Taher Azar, Ibraheem Kasim Ibraheem, Amjad Jaleel Humaidi.
其他題名:
motion control and path planning /
其他作者:
Azar, Ahmad Taher.
出版者:
Cham :Springer International Publishing : : 2023.,
面頁冊數:
xi, 670 p. :ill., digital ; : 24 cm.;
Contained By:
Springer Nature eBook
標題:
Mobile robots - Automatic control. -
電子資源:
https://doi.org/10.1007/978-3-031-26564-8
ISBN:
9783031265648
Mobile robot = motion control and path planning /
Mobile robot
motion control and path planning /[electronic resource] :edited by Ahmad Taher Azar, Ibraheem Kasim Ibraheem, Amjad Jaleel Humaidi. - Cham :Springer International Publishing :2023. - xi, 670 p. :ill., digital ;24 cm. - Studies in computational intelligence,v. 10901860-9503 ;. - Studies in computational intelligence ;v. 50. .
Leader-Follower Formation Control of Mobile Robots Based on Simplified Super-Twisting Algorithm -- Deep Reinforcement Learning Applied to Multiagent Path Planning for Information Gathering in Environmental Missions -- Analysis of Computer Vision-Based Techniques for the Recognition of Landing Platforms for UAVs -- Monitoring Peak Pollution Points of Water Resources with Autonomous Surface Vehicles using a PSO-based Informative Path Planner -- Robots in Medicine: Mobile Robots Versus Mobile Decision, Necessity Versus Possibility and Future Challenges -- Event-based Robust Control Techniques for Wheel-Based Robots Under Cyber-attack and Dynamic Quantizer -- Path Optimization and Multi-Level Path Planning for The Steam Field Navigation Algorithm -- Modeling and Simulation of Quadcopter using Self-Tuning Fuzzy-PI Controller -- Using an Interactive Theorem Prover for Formally Analyzing the Dynamics of the Unmanned Aerial Vehicles -- Adaptive Fault-Tolerant Control Design for Multi-Linked Two-Wheel Drive Mobile Robots -- Design and Implementation of a Robust 6-DOF Quadrotor Controller Based on Kalman Filter for Position Control -- Wireless Sensor Network Based Mobile Robot Applications -- Fault Diagnosis and Fault Tolerant Control for linked Two Wheel Drive Mobile Robots -- Fractional Order Extended State Observer Enhances the Performance of Controlled Tri-copter UAV Based on Active Disturbance Rejection Control -- Robust Adaptive Sliding Mode Controllers Design for a Non-holonomic Mobile Robot.
This book presents the recent research advances in linear and nonlinear control techniques. From both a theoretical and practical standpoint, motion planning and related control challenges are key parts of robotics. Indeed, the literature on the planning of geometric paths and the generation of time-based trajectories, while accounting for the compatibility of such paths and trajectories with the kinematic and dynamic constraints of a manipulator or a mobile vehicle, is extensive and rich in historical references. Path planning is vital and critical for many different types of robotics, including autonomous vehicles, multiple robots, and robot arms. In the case of multiple robot route planning, it is critical to produce a safe path that avoids colliding with objects or other robots. When designing a safe path for an aerial or underwater robot, the 3D environment must be considered. As the number of degrees of freedom on a robot arm increases, so does the difficulty of path planning. As a result, safe pathways for high-dimensional systems must be developed in a timely manner. Nonetheless, modern robotic applications, particularly those requiring one or more robots to operate in a dynamic environment (e.g., human-robot collaboration and physical interaction, surveillance, or exploration of unknown spaces with mobile agents, etc.), pose new and exciting challenges to researchers and practitioners. For instance, planning a robot's motion in a dynamic environment necessitates the real-time and online execution of difficult computational operations. The development of efficient solutions for such real-time computations, which could be offered by specially designed computational architectures, optimized algorithms, and other unique contributions, is thus a critical step in the advancement of present and future-oriented robotics.
ISBN: 9783031265648
Standard No.: 10.1007/978-3-031-26564-8doiSubjects--Topical Terms:
915272
Mobile robots
--Automatic control.
LC Class. No.: TJ211.415
Dewey Class. No.: 629.8932
Mobile robot = motion control and path planning /
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Leader-Follower Formation Control of Mobile Robots Based on Simplified Super-Twisting Algorithm -- Deep Reinforcement Learning Applied to Multiagent Path Planning for Information Gathering in Environmental Missions -- Analysis of Computer Vision-Based Techniques for the Recognition of Landing Platforms for UAVs -- Monitoring Peak Pollution Points of Water Resources with Autonomous Surface Vehicles using a PSO-based Informative Path Planner -- Robots in Medicine: Mobile Robots Versus Mobile Decision, Necessity Versus Possibility and Future Challenges -- Event-based Robust Control Techniques for Wheel-Based Robots Under Cyber-attack and Dynamic Quantizer -- Path Optimization and Multi-Level Path Planning for The Steam Field Navigation Algorithm -- Modeling and Simulation of Quadcopter using Self-Tuning Fuzzy-PI Controller -- Using an Interactive Theorem Prover for Formally Analyzing the Dynamics of the Unmanned Aerial Vehicles -- Adaptive Fault-Tolerant Control Design for Multi-Linked Two-Wheel Drive Mobile Robots -- Design and Implementation of a Robust 6-DOF Quadrotor Controller Based on Kalman Filter for Position Control -- Wireless Sensor Network Based Mobile Robot Applications -- Fault Diagnosis and Fault Tolerant Control for linked Two Wheel Drive Mobile Robots -- Fractional Order Extended State Observer Enhances the Performance of Controlled Tri-copter UAV Based on Active Disturbance Rejection Control -- Robust Adaptive Sliding Mode Controllers Design for a Non-holonomic Mobile Robot.
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This book presents the recent research advances in linear and nonlinear control techniques. From both a theoretical and practical standpoint, motion planning and related control challenges are key parts of robotics. Indeed, the literature on the planning of geometric paths and the generation of time-based trajectories, while accounting for the compatibility of such paths and trajectories with the kinematic and dynamic constraints of a manipulator or a mobile vehicle, is extensive and rich in historical references. Path planning is vital and critical for many different types of robotics, including autonomous vehicles, multiple robots, and robot arms. In the case of multiple robot route planning, it is critical to produce a safe path that avoids colliding with objects or other robots. When designing a safe path for an aerial or underwater robot, the 3D environment must be considered. As the number of degrees of freedom on a robot arm increases, so does the difficulty of path planning. As a result, safe pathways for high-dimensional systems must be developed in a timely manner. Nonetheless, modern robotic applications, particularly those requiring one or more robots to operate in a dynamic environment (e.g., human-robot collaboration and physical interaction, surveillance, or exploration of unknown spaces with mobile agents, etc.), pose new and exciting challenges to researchers and practitioners. For instance, planning a robot's motion in a dynamic environment necessitates the real-time and online execution of difficult computational operations. The development of efficient solutions for such real-time computations, which could be offered by specially designed computational architectures, optimized algorithms, and other unique contributions, is thus a critical step in the advancement of present and future-oriented robotics.
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