When my dad purchased a Tesla, I was more excited about this modern car than him but, I noticed he was struggling to unlock the car. In order to start the car, he had to take out his phone, unlock it, allocate the Tesla app, open it, and then finally start the car. The whole process was quite cumbersome and made my dad irate. This made me think of a solution: vehicles should be able to operate with voice commands. This would allow for keyless entry because every human has a unique voice harmonics similar to fingerprints. After researching the topic and becoming intrigued in the field of software, robotics, and physics, I discussed the idea with my science teacher and sought guidance for further direction. I went to libraries and read prolific books on voice harmonics, robotics, and software development. I also searched for more information on online databases. I knew this project would require coding skills, which I previously acquired through summer coding camps at the University of Texas at Dallas. Once I established my goals and resources for the prototype, my teacher guided me to put it into action.
This Voice Controlled Robot project allows people to make their lives more convenient and efficient by enabling devices to operate through user-specific voice commands. With this, the number of vehicle crashes and thefts will decrease; it can contribute to advancing space explorations and robotics engineering. This innovation can be utilized to espouse physically challenged individuals and seniorcitizens via the installation of this voice-enabled device on wheelchairs and hospital beds. Most importantly, this technology can limit the contact made by individuals or health professionals with objects and surfaces that may be contaminated, reducing the risk of contagious diseases such as COVID-19.
Robot Circuit using breadboard, bluetooth module, and Arduino Uno. Testing conducted using LEDs to check the functionality of the circuit.
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