HUMANOID ROBOT ACT AS GYM TRAINER

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Published Apr 15, 2024
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Vol. 9 No. 2 (2024): Volume 9 Issue 2

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Mr. Desai P.B.
Lecturer Department of Electronics & Telecommunication Engineering, SVSMD’s KKI Polytechnic, Akkalkot, Maharashtra, India.
Ms.Dhallu Shreya
Student Department of Electronics & Telecommunication Engineering, SVSMD’s KKI Polytechnic, Akkalkot, Maharashtra, India.
Mr.Limbale Manjunath
Student Department of Electronics & Telecommunication Engineering, SVSMD’s KKI Polytechnic, Akkalkot, Maharashtra, India.

Abstract

Humanoid robots are becoming an important part of modern fitness and healthcare applications. The proposed project titled “Humanoid Robot Act As Gym Trainer” is developed to assist people during gym exercises and fitness training sessions. The humanoid robot is capable of demonstrating exercise movements, guiding users with voice instructions, monitoring body posture, and providing exercise schedules. The system uses sensors, servo motors, microcontrollers, cameras, and Artificial Intelligence technologies to interact with users effectively. The humanoid robot can perform predefined gym activities such as push-ups, squats, stretching, arm exercises, and warm-up activities. The robot also motivates users by providing instructions and safety alerts during workout sessions. The implemented system combines hardware and software technologies to create a smart fitness trainer that can reduce the dependency on human trainers for basic gym exercises. The proposed system is reliable, intelligent, user-friendly, and cost-effective for fitness applications.

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Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite
[1]
Mr. Desai P.B., Ms.Dhallu Shreya, and Mr.Limbale Manjunath, “HUMANOID ROBOT ACT AS GYM TRAINER”, IEJRD - International Multidisciplinary Journal, vol. 9, no. 2, p. 5, Apr. 2024.

References

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  5. Sidney R. Bowes, Ata Sevinc, Derrick Holliday, “New Intelligent Fitness Robot Applications Using Artificial Intelligence and Computer Vision”, IEEE Robotics and Automation Conference.

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