Analysis of the displacement of terrestrial mobile robots in corridors using paraconsistent annotated evidential logic eτ
This work addresses movement precision for terrestrial mobile robots in specific environments like corridors, but it appears incremental as it applies an existing logic framework to a new robotic control context.
The authors tackled the problem of controlling autonomous terrestrial mobile robots in corridors by proposing a paraconsistent annotated evidential logic eτ algorithm for servo motors, resulting in increased precision of movements as indicated by analyzed electric signals.
This article proposes an algorithm for a servo motor that controls the movement of an autonomous terrestrial mobile robot using Paraconsistent Logic. The design process of mechatronic systems guided the robot construction phases. The project intends to monitor the robot through its sensors that send positioning signals to the microcontroller. The signals are adjusted by an embedded technology interface maintained in the concepts of Paraconsistent Annotated Logic acting directly on the servo steering motor. The electric signals sent to the servo motor were analyzed, and it indicates that the algorithm paraconsistent can contribute to the increase of precision of movements of servo motors.