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Intelligent Robotics and Applications: 17th International Conference, ICIRA 2024, Xi'an, China, July 31 August 2, 2024, Proceedings, Part IV [Mīkstie vāki]

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  • Formāts: Paperback / softback, 480 pages, height x width: 235x155 mm, 208 Illustrations, color; 23 Illustrations, black and white; XIV, 480 p. 231 illus., 208 illus. in color., 1 Paperback / softback
  • Sērija : Lecture Notes in Computer Science 15204
  • Izdošanas datums: 25-Jan-2025
  • Izdevniecība: Springer Nature Switzerland AG
  • ISBN-10: 9819607973
  • ISBN-13: 9789819607976
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Intelligent Robotics and Applications: 17th International Conference, ICIRA 2024, Xi'an, China, July 31 August 2, 2024, Proceedings, Part IVPalielināt
  • Formāts: Paperback / softback, 480 pages, height x width: 235x155 mm, 208 Illustrations, color; 23 Illustrations, black and white; XIV, 480 p. 231 illus., 208 illus. in color., 1 Paperback / softback
  • Sērija : Lecture Notes in Computer Science 15204
  • Izdošanas datums: 25-Jan-2025
  • Izdevniecība: Springer Nature Switzerland AG
  • ISBN-10: 9819607973
  • ISBN-13: 9789819607976
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9789819607976.html
The 10-volume set LNAI 15201-15210 constitutes the proceedings of the 17th International Conference on Intelligent Robotics and Applications, ICIRA 2024, which took place in Xian, China, during July 31August 2, 2024.





The 321 full papers included in these proceedings were carefully reviewed and selected from 489 submissions.





They were organized in topical sections as follows:





Part I: Innovative Design and Performance Evaluation of Robot Mechanisms.





Part II: Robot Perception and Machine Learning; Cognitive Intelligence and Security Control for Multi-domain Unmanned Vehicle Systems.





Part III: Emerging Techniques for Intelligent Robots in Unstructured Environment; Soft Actuators and Sensors; and Advanced Intelligent and Flexible Sensor Technologies for Robotics.





Part IV: Optimization and Intelligent Control of Underactuated Robotic Systems; and Technology and application of modular robots.





Part V: Advanced actuation and intelligent control in medical robotics: Advancements in Machine Vision for Enhancing Human-Robot Interaction; and Hybrid Decision-making and Control for Intelligent Robots.





Part VI: Advances in Marine Robotics; Visual, Linguistic, Affective Agents: Hybrid-augmented Agents for Robotics;  and Wearable Robots for Assistance, Augmentation and Rehabilitation of human movements.





Part VII: Integrating World Models for Enhanced Robotic Autonomy; Advanced Sensing and Control Technologies for Intelligent Human-Robot Interaction; and Mini-Invasive Robotics for In-Situ Manipulation.





Part VIII: Robot Skill Learning and Transfer; Human-Robot Dynamic System: Learning, Modelling and Control; AI-Driven Smart Industrial Systems; and Natural Interaction and Coordinated Collaboration of Robots in Dynamic Unstructured Environments.





Part IX: Robotics in Cooperative Manipulation, MultiSensor Fusion, and Multi-Robot Systems; Human-machine Co-adaptive Interface; Brain inspired intelligence for robotics; Planning, control and application of bionic novel concept robots; and Robust Perception for Safe Driving.





Part X:  AI Robot Technology for Healthcare as a Service; Computational Neuroscience and Cognitive Models for Adaptive Human-Robot Interactions; Dynamics and Perception of Human-Robot Hybrid Systems; and Robotics for Rehabilitation: Innovations, Challenges, and Future Directions.
.- Optimization and Intelligent Control of Underactuated Robotic
Systems.

.- Study of Kinematics and Trajectory Planning for the Pneumatic Soft
Manipulator.

.- Modeling and Nonlinear Coordinated Stabilizing Control for Dual
Ship-mounted Cranes Subject to Roll and Heave Motions.

.- Double closed-loop trajectory tracking control strategy for wheeled mobile
robot.

.- Sliding mode control of VTOL aircraft based on stability criterion.

.- Neural Network-Based Adaptive Tracking Control for Marine Lifting Arm
System.

.- Hierarchical Optimization-based Hybrid Whole-body Control for Wheel-Legged
Robots.

.- Fixed-Time Fault-Tolerant Control for Robotic Manipulators Based on Bias
Neural Network with Input Saturation.

.- Multi-contact trajectory planning of humanoid based on relaxed contact
constraint.

.- Adaptive anti-swing control for a Ship board boom crane.

.- ESO-Based Tracking Controller of A Nonlinear System with Disturbance: An
FAS Approach.

.- Design of A Pneumatic-Driven Bionic Robot Fish Based on A Fish Tail
Structure.

.- Nonlinear Model predictive control based on disturbance observer for
cross-domain unmanned platform.

.- A Novel Bio-Inspired Optimal Control Strategy of Heavy-Duty Robots
Considering Leg Momentum.

.- A Quadruped Manipulator Robot that Achieves Bipedal Motion via ZMP
Planning and Dynamic Control.

.- A New Unified Frame and System of Bionic Variable Structure Robots: Design
and Applications. 

.- Technology and application of modular robots.

.- Development of a Bistable Multi-Joint Modular Gripper with Enhanced
Adaptability and Speed.

.- Online Parallel Optimization Motion Planner for Robots under Moving
Obstacle Circumstances.

.- Design, modeling and implementation of a novel rigid-flexible hybrid
robotic arm.

.- Design and Development of a Modular Pneumatic-Driven Soft Tripod Robot.

.- Parallel Self-Assembly for Modular Robots Using Deep Reinforcement
Learning.

.- Optimal Configuration Generation of Reconfigurable Modular Robots for
Specific Tasks.

.- Nested Dual-chamber Origami (NDO) Actuator with Pressure Compounding and
Enhanced Payload.

.- A Locomotion Control Method for Modular Robot Based on PPO Algorithm.

.-Design a pneumatic-driven sorting modular soft hand based on visual object
detection.

.- Design and Kinematic Simulation Analysis of Spherical Modular Robots.

.- Pick-and-place trajectory optimization for a two-DOF cable-suspended
modular parallel robot.

.- MOPARAS: A Modular Parallel Spherical Robot with Position-Adjustable
Connectors.

.- Rolling Contact Motion Modeling for Spherical Modular Self-Reconfigurable
Robots.