IR Navigator Postioning System


Authors : Prathamesh Jadhav; Yash Dhekale; Abhishek Joshi; Darshan Achalkar

Volume/Issue : Volume 8 - 2023, Issue 12 - December

Google Scholar : http://tinyurl.com/3r6unstn

Scribd : http://tinyurl.com/mpays7m2

DOI : https://doi.org/10.5281/zenodo.10434279

Abstract : The IR Navigator Positioning System shows how IR remote control and Arduino-powered servo motors can work together smoothly. It's a project that provides accurate control in different situations using IR communication and servo motors. It's a clever and easy- to-use solution for various applications. The system uses IR receivers to pick up signals from a standard remote control. These signals are carefully handled by an Arduino microcontroller, the brain of the operation. What makes this system stand out is its ability to turn those IR signals into precise movements of a servo motor, enabling accurate angular positioning for various applications. Combining these elements opens up a world of possibilities, enhancing robotics, automation, and enabling incredibly accurate remote-controlled devices. The Precision Positioning System, introduced here, invites a closer look into its technical intricacies and practical applications. This integration provides a foundation for advancing various projects, making them more precise and efficient. Whether it's refining the movements of robots or ensuring unparalleled accuracy in remote-controlled devices, the system offers versatile solutions. The following exploration will delve into the details of how this system works and its potential impact on a wide range of applications.

The IR Navigator Positioning System shows how IR remote control and Arduino-powered servo motors can work together smoothly. It's a project that provides accurate control in different situations using IR communication and servo motors. It's a clever and easy- to-use solution for various applications. The system uses IR receivers to pick up signals from a standard remote control. These signals are carefully handled by an Arduino microcontroller, the brain of the operation. What makes this system stand out is its ability to turn those IR signals into precise movements of a servo motor, enabling accurate angular positioning for various applications. Combining these elements opens up a world of possibilities, enhancing robotics, automation, and enabling incredibly accurate remote-controlled devices. The Precision Positioning System, introduced here, invites a closer look into its technical intricacies and practical applications. This integration provides a foundation for advancing various projects, making them more precise and efficient. Whether it's refining the movements of robots or ensuring unparalleled accuracy in remote-controlled devices, the system offers versatile solutions. The following exploration will delve into the details of how this system works and its potential impact on a wide range of applications.

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