Garuda - Garba Rujukan Digital

Kaila Aura

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Author-ID : 7562261

Automotive Engineering Electrical & Electronics Engineering Mechanical Engineering

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A Implementasi Fuzzy Logic Pada Kendali Robot E-Puck Wall Following: Implementasi Metode Mamdani pada Fuzzy Logic Controller untuk Navigasi Robot e-puck Mengikuti Dinding Kaila Aura; Anugrah Akmal Arista A
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol. 9 No. 1 (2024)
Publisher : Pengelolaan Penerbitan Publikasi Ilmiah (P3I) Politeknik Negeri Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32486/jeecae.v9i1.708

This research discusses the implementation of a Fuzzy Logic Controller (FLC) on an e-puck robot for wall following navigation. The goal is to develop an efficient and adaptive control system for robot navigation in complex environments. The method used includes designing an FLC with three inputs from ultrasonic sensors (ps5, ps6, ps7) and two outputs to control the left and right motor speeds. The fuzzy inference system uses the Mamdani method with a fuzzification process, inference based on rule base, and defuzzification using Mean of Maximal (MOM). Tests were carried out in a maze arena to evaluate the robot's performance in following walls. The results show that the FLC implementation succeeded in controlling the movement of the e-puck robot well, as indicated by a decrease in sensor reading error and motor speed stability over time. Analysis of GPS coordinate graphs also shows the robot's ability to navigate complex environments. In conclusion, the fuzzy logic approach is proven to be effective in handling uncertainty and providing adaptive control for wall following tasks in e-puck robots.

A Implementasi Fuzzy Logic Pada Kendali Robot E-Puck Wall Following: Implementasi Metode Mamdani pada Fuzzy Logic Controller untuk Navigasi Robot e-puck Mengikuti Dinding Kaila Aura; Anugrah Akmal Arista A
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol. 9 No. 1 (2024): JOURNAL OF ELECTRICAL, ELECTRONICS, CONTROL, AND AUTOMOTIVE ENGINEERING (JEECAE
Publisher : Pengelolaan Penerbitan Publikasi Ilmiah (P3I) Politeknik Negeri Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32486/jeecae.v9i1.708

This research discusses the implementation of a Fuzzy Logic Controller (FLC) on an e-puck robot for wall following navigation. The goal is to develop an efficient and adaptive control system for robot navigation in complex environments. The method used includes designing an FLC with three inputs from ultrasonic sensors (ps5, ps6, ps7) and two outputs to control the left and right motor speeds. The fuzzy inference system uses the Mamdani method with a fuzzification process, inference based on rule base, and defuzzification using Mean of Maximal (MOM). Tests were carried out in a maze arena to evaluate the robot's performance in following walls. The results show that the FLC implementation succeeded in controlling the movement of the e-puck robot well, as indicated by a decrease in sensor reading error and motor speed stability over time. Analysis of GPS coordinate graphs also shows the robot's ability to navigate complex environments. In conclusion, the fuzzy logic approach is proven to be effective in handling uncertainty and providing adaptive control for wall following tasks in e-puck robots.

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