Modeling of Mobile Robot With Obstacle Avoidance Using Fuzzy Controller

Khudaverdiyeva, Mahabbat

doi:10.20998/2522-9052.2022.2.04

Cited by 2 publications

(1 citation statement)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A Mamdani fuzzy reasoning system was used in Ref. [15] for designing a controller that was capable of reducing the amount of time spent on the programming of the controller. Twenty-five rules are used to cover a robot's possible interactions with various obstacles.…”

Section: Introductionmentioning

confidence: 99%

Obstacles Avoidance for Mobile Robot Using Type-2 Fuzzy Logic Controller

2022

View full text Add to dashboard Cite

Intelligent mobile robots need to deal with different kinds of uncertainties in order to perform their tasks, such as tracking predefined paths and avoiding static and dynamic obstacles until reaching their destination. In this research, a Robotino® from Festo Company was used to reach a predefined target in different scenarios, autonomously, in a static and dynamic environment. A Type-2 fuzzy logic controller was used to guide and help Robotino® reach its predefined destination safely. The Robotino® collects data from the environment. The rules of the Type-2 fuzzy logic controller were built from human experience. They controlled the Robotino® movement, guiding it toward its goal by controlling its linear and angular velocities, preventing it from colliding obstacles at the same time, as well. The Takagi–Sugeno–Kang (TSK) algorithm was implemented. Real-time and simulation experimental results showed the capability and effectiveness of the proposed controller, especially in dealing with uncertainty problems.

show abstract

Section: Introductionmentioning

confidence: 99%

Obstacles Avoidance for Mobile Robot Using Type-2 Fuzzy Logic Controller

2022

View full text Add to dashboard Cite

show abstract

Fuzzy Logic in Distance Measurement: Comparative Analysis

Mahabbat Khudaverdiyeva

2023

PAHTEI

View full text Add to dashboard Cite

Measuring distance plays a pivotal role across a multitude of domains, such as robotics, automation, and navigation systems. Fuzzy logic has increasingly garnered substantial interest as a means to augment the accuracy and versatility of distance measurement systems. This comprehensive review delves deep into the examination and juxtaposition of diverse techniques for measuring distance by harnessing the power of Fuzzy logic. The primary objective is to meticulously assess the efficacy of Fuzzy logic when contrasted with alternative methodologies and affirm their dominance regarding precision, resilience, and adaptability. Fuzzy logic holds the potential to revolutionize distance measurement technology and contribute to safer and more efficient operations in fields such as robotics, automation, and navigation systems. Future research should focus on fine-tuning fuzzy logic parameters and exploring new applications to further harness their potential. Fuzzy logic outperforms conventional control methods in distance measurement due to their remarkable adaptability, robustness, human-like decision-making capabilities, ease of integration, capacity to handle non-linearity, and real-time adaptability. While traditional methods have their merits, they often struggle to match the versatility and reliability of Fuzzy logic in a world where complex and uncertain environments demand precision and adaptability. As technology continues to evolve and applications become more demanding, Fuzzy logic remains at the forefront of enhancing the accuracy and efficiency of distance measurement systems across various domains. Keywords: Fuzzy Logic, Distance Measurement, Ultrasonic sensors, Non-linearity, Measurement accuracy.

show abstract

Modeling of Mobile Robot With Obstacle Avoidance Using Fuzzy Controller

Cited by 2 publications

References 19 publications

Obstacles Avoidance for Mobile Robot Using Type-2 Fuzzy Logic Controller

Obstacles Avoidance for Mobile Robot Using Type-2 Fuzzy Logic Controller

Fuzzy Logic in Distance Measurement: Comparative Analysis

Contact Info

Product

Resources

About