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In this paper is presented a form to govern a swarm of robots using only two parameters for repulsion and attraction. Behavior of the swarm is first simulated using kinematic models of differential vehicles then an implementation of a pack of five robots is made. As a results, it is evident in simulations and implementations that changing repulsion and attraction parameters can change the behavior...
Modeling and simulation are fundamental tools to develop new urban vehicles. The aim of this work is to model and simulate a narrow urban tilting car, which should significantly decrease traffic congestion, pollution, and parking problems. The structure of the vehicle contains closed kinematic chains. The modeling approach is based on the modified Denavit and Hartenberg description, which is commonly...
The development of automatic robots is one of the research fields in flexible manufacturing systems (FMS) aiming to carry out tasks in the logistic areas. This reduces human intervention, as well as automates repetitive and/or inappropriate tasks. This article presents the design and mathematical models of an AGV, Automated guided vehicle, as part of FMS. It proposes a mechatronics design methodology...
Path planning is one of the most important fields of research in the area of robotics. In this paper, a path planning method for a certain type of wheeled mobile robots called automated guided vehicles (AGVs) is proposed. The proposed model applies fuzzy control techniques to navigate multi AGVs in an unknown environment to reach certain destinations by using hybrid.
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