Title :
Mobile robot navigation using the mathematical model of the sensing system
Author :
Apolloni, Bruno ; Moise, Adrian
Author_Institution :
Milan Univ., Italy
Abstract :
The paper presents a remotely controlled mobile robot able to work in an unstructured environment. The main constraint is represented by the communication time, which was evaluated of two orders higher than the inner clock of the control system. This difficulty has been avoided by giving a short-term autonomy to the system. Namely, the control system was configured as a neural network on board the robot that reacts to external stimuli. A copy of the network is in the remote control station. Here, a workstation periodically identifies the system dynamics, the robot environment and the optimal control strategy. The strategy is translated in a proper selection of the free parameters of the neural network. The values of these parameters are transmitted as remote control action to the robot neural network
Keywords :
computerised navigation; intelligent control; mobile robots; neurocontrollers; optimal control; telerobotics; communication time; control system; external stimuli; free parameters; inner clock; mathematical model; mobile robot navigation; optimal control strategy; remote control action; remote control station; remotely controlled mobile robot; robot environment; robot neural network; sensing system; short-term autonomy; system dynamics; unstructured environment; workstation; Clocks; Communication system control; Control systems; Mathematical model; Mobile communication; Mobile robots; Navigation; Neural networks; Robot control; Workstations;
Conference_Titel :
Systems, Man, and Cybernetics, 2000 IEEE International Conference on
Conference_Location :
Nashville, TN
Print_ISBN :
0-7803-6583-6
DOI :
10.1109/ICSMC.2000.884390
