Add to ORKGIn this paper, a hybrid navigation method for the autonomous control of a miniature climbing robot is presented. The method of navigation blends the optimality of the trajectory planning algorithm with the capabilities in expressing knowledge and learning of the fuzzy neural network. The actual task environment of the climbing robot is both known and dynamic. Therefore the trajectory planning is used to search roughly the optimal trajectories towards the goal based the priori data. Meanwhile, by the multi-sensor data fusion process, the fuzzy neural network is employed in dealing properly with the uncertain and dynamic situations. The experiment platform of the miniature climbing robot is also described in the paper. The properties of the h...
Abstract-This paper presents a design of behavior-fusion architecture for mobile robot navigation. W...
In mobile robot navigation, it is fundamental to have goal seeking and obstacle avoidance in the nav...
This paper presents a fuzzy control system that incorporates sensing, control and planning to improv...
In this paper, a hybrid navigation method for the autonomous control of a miniature climbing robot i...
In this paper, a motion planning method for autonomous control of a bipedal climbing robot based on ...
This paper presents a fuzzy navigation and motion control system for miniature climbing robots. Afte...
The main problem to be solved for autonomous indoor robots is that the environment where they have t...
This paper presents a fuzzy system approach that incorporates sensing, control and planning to enabl...
This paper presents a novel navigation strategy of robot to achieve reaching target and obstacle avo...
and adaptive neuro-fuzzy inference system (ANFIS) are mainly considered as effective and suitable me...
In this paper, a FNN-based adaptive control system for a miniature climbing robot is presented. The ...
This paper addresses the issue of the autonomous mobile robot (AMR) navigation task based on the hyb...
In this paper, , we discuss the ability to deal with a Hybrid Intelligent Systems (HIS) for Intellig...
IN THE REAL WORLD, MANY SYSTEMS ARE CHARACTERIZED BY COMPLEX NONLINEAR DYNAMICS BEHAVIOR. CONTROL OF...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Abstract-This paper presents a design of behavior-fusion architecture for mobile robot navigation. W...
In mobile robot navigation, it is fundamental to have goal seeking and obstacle avoidance in the nav...
This paper presents a fuzzy control system that incorporates sensing, control and planning to improv...
In this paper, a hybrid navigation method for the autonomous control of a miniature climbing robot i...
In this paper, a motion planning method for autonomous control of a bipedal climbing robot based on ...
This paper presents a fuzzy navigation and motion control system for miniature climbing robots. Afte...
The main problem to be solved for autonomous indoor robots is that the environment where they have t...
This paper presents a fuzzy system approach that incorporates sensing, control and planning to enabl...
This paper presents a novel navigation strategy of robot to achieve reaching target and obstacle avo...
and adaptive neuro-fuzzy inference system (ANFIS) are mainly considered as effective and suitable me...
In this paper, a FNN-based adaptive control system for a miniature climbing robot is presented. The ...
This paper addresses the issue of the autonomous mobile robot (AMR) navigation task based on the hyb...
In this paper, , we discuss the ability to deal with a Hybrid Intelligent Systems (HIS) for Intellig...
IN THE REAL WORLD, MANY SYSTEMS ARE CHARACTERIZED BY COMPLEX NONLINEAR DYNAMICS BEHAVIOR. CONTROL OF...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Abstract-This paper presents a design of behavior-fusion architecture for mobile robot navigation. W...
In mobile robot navigation, it is fundamental to have goal seeking and obstacle avoidance in the nav...
This paper presents a fuzzy control system that incorporates sensing, control and planning to improv...