Probabilistic path planning using current obstacle position in static environment
Samir N. Ajani, Salim Y. Amdani
Abstract
In current scenario so many real time application based on predefined path has been introduced who decides the future movement of an heavy crowded traffic in a current scenario & the analysis of this heavily crowded surrounding (area) is a most complex and challenging task in visual monitoring system and hence important key points should be kept into account such as current environmental surrounding, current and future obstructions, and obstacles. These application based on a mobile robot or an any intelligent device that can be seen in different fields like medical field, agricultural fields, science and research field, commercial field, engineering field, industries, defense, transportation field etc. The movement of intelligent device is sometimes predefined or may be changed during the real time task hence the navigation plays a very important role. Predicting the future path needs various data like real time environmental surrounding of the destination, current state of an destination etc. Also the path finding techniques and obstacle avoidance is key point while discussing the various navigational approaches. Here in this paper we try to systematically summarize the various methods of path prediction of future navigation of an target in a crowded environment. We systematically summarize the various methods of path prediction for navigation of target. In this we have presented a multifold probabilistic path planning algorithm along with its based function for the implementation of algorithm. Finally we have systematically represented all the steps obtained by implementing the algorithm in the form of coordinate system generated results. We also motioned the conclusion of the work carried out.