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The aim of our Basic Arduino Robotics Workshop is to provide school and college students with an engaging and hands-on experience in the world of robotics. We aim to equip students with the knowledge and skills necessary to build and program their own robots using the Arduino platform.
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Robotics is an exciting and rapidly growing field that involves the design, construction, and operation of robots. It combines multiple disciplines such as mechanical engineering, electrical engineering, and computer science. Robotics offers unique opportunities for students to learn about cutting-edge technologies, programming, and problem-solving. It also provides opportunities for hands-on learning and teamwork. Robotics can be a fun and engaging way to introduce students to STEM fields and prepare them for future careers in science and technology. Overall, robotics is an excellent way for students to develop critical thinking skills, creativity, and a passion for lifelong learning.
Robotics workshops foster collaboration and communication skills as students work together in teams to design and build their robots. They learn to share ideas, delegate tasks, and work towards a common goal, which enhances their communication and collaboration skills.
Robotics workshops encourage creativity and innovation by giving students the opportunity to design and build their own robots. They can experiment with different designs, programming languages, and components to create unique and functional robots.
Robotics workshops provide students with a foundation in STEM skills that can prepare them for future careers in robotics, engineering, and other related fields. They can also learn about emerging technologies and develop the skills needed to adapt to technological advancements in the future.
Robotics workshops can help participants develop a range of security-related skills, such as programming, circuit design, and problem-solving. These skills can be useful in a variety of security-related professions, such as cybersecurity, surveillance, and risk management.
Through this workshop, we hope to foster an interest in STEM (Science, Technology, Engineering, and Mathematics) fields among students, and inspire them to pursue careers in these areas. We also aim to provide students with an opportunity to collaborate and work in teams, improving their communication, problem-solving, and critical thinking skills. Furthermore, the workshop aims to provide a platform for students to explore their creativity and imagination. By encouraging them to build robots with different functionalities, we hope to inspire them to think outside the box and develop innovative solutions to real-world problems. Ultimately, our aim is to provide an educational and enjoyable experience for students, one that will encourage them to pursue their passions and interests in robotics and technology. We believe that by fostering an interest in these fields at a young age, we can help to create a generation of innovators and problem-solvers who will make a positive impact on the world.
The first module is 4 Wheel Drive Robot, where students will learn how to design and construct a robot that can move in any direction with four wheels. In this module, students will learn about basic mechanical design, motor control, and programming using Arduino.
LightboxThe second module is Joystick Controlled Robot, where students will learn how to use a joystick to control the movements of their robot. In this module, students will learn about input devices, data processing, and controlling output devices such as motors.
The third module is Gesture Controlled Robot using Accelerometer, where students will learn how to use an accelerometer to control their robot’s movements with simple hand gestures. In this module, students
The second module is Joystick Controlled Robot, where students will learn how to use a joystick to control the movements of their robot. In this module, students will learn about input devices, data processing, and controlling output devices such as motors.
The second module is Joystick Controlled Robot, where students will learn how to use a joystick to control the movements of their robot. In this module, students will learn about input devices, data processing, and controlling output devices such as motors.
TThe sixth module is Line Following Robot, where students will learn how to create a robot that can follow a black line on a white surface using a line sensor. In this module, students will learn about light emitting sensors, sensor calibration, data processing, and using feedback mechanisms to control robot motion.
The final module is Fire Extinguisher Robot, where students will learn how to build a robot that can detect and extinguish fires using a flame sensor and a controlled fan. In this module, students will learn about safety, control systems, and designing robots for specific tasks. Throughout the workshop, students will be guided by experienced instructors who will provide them with all the necessary materials and tools to complete their projects. Students will also have the opportunity to work in teams and collaborate with their peers, which will help them develop their communication, leadership, and problem-solving skills.
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Currently the Co-Founder of an AI-based Fit-Tech Startup - FitYoga. With 6+ years of Industry Experience, he has conducted various workshops and talks in the field of AI, Robotics, Design Thinking and Startup Ecosystem
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