Genetic algorithm based solution to dead-end problems in robot navigation Online publication date: Mon, 26-Sep-2011
by Xiaoming Kang; Yong Yue; Dayou Li; Carsten Maple
International Journal of Computer Applications in Technology (IJCAT), Vol. 41, No. 3/4, 2011
Abstract: In robot navigation, mobile robots can suffer from dead-end problems, that is, they can be stuck in areas which are surrounded by obstacles. Attempts have been reported to avoid a robot entering into such a dead-end area. However, in some applications, for example, rescue work, the dead-end areas must be explored. Therefore, it is vital for the robot to come out from the dead-end areas after exploration. This paper presents an approach which enables a robot to come out from dead-end areas. There are two main parts: a dead-end detection mechanism and a genetic algorithm (GA) based online training mechanism. When the robot realises that it is stuck in a dead-end area, it will operate the online training to produce a new best chromosome that will enable the robot to escape from the area.
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