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WELCOME. undefined.

[Audio] The robot is designed to be easily controlled through voice commands and Bluetooth making it easy for users to navigate its environment and complete tasks. It is equipped with an ultrasonic sensor motor driver DC motor and battery pack which allow it to move and function effectively. The ultrasonic sensor is located at the front of the robot and emits ultrasonic waves from its sensor head. These waves help the robot to detect its surroundings and avoid collisions with obstacles. The Arduino board is used to control the motors left right back and front based on the ultrasonic signals received from the sensor. Our robot has a wide range of applications including traffic signal automatic changeovers counting instruments access switches parking meters and military applications. With its advanced technology and versatile capabilities our robot is an ideal solution for a variety of tasks that require precision and accuracy..

[Audio] We built the wall-E mini robot as a project which includes an obstacle avoiding robot that uses voice control and Bluetooth control. Our robot uses Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack for movement. The ultrasonic sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. We control the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). Our robot uses ultrasonic sensors and servo motor activated and its applications include automatic changeovers of traffic signals counting instruments access switches parking meters and military applications..

[Audio] Our robot is a valuable tool for a wide range of applications. From parking meters to military applications our robot's abilities make it a versatile and useful device. We believe that this project will help to further the field of robotics and pave the way for future innovations. Robotics is becoming increasingly relevant in today's world and this project is a great example of this..

DIAGRAM.

[Audio] Our project is an obstacle avoiding robot that uses voice control and Bluetooth control. The robot uses Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack for movement. The ultrasonic sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. The arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). In addition to ultrasonic sensors the robot uses infrasonic sensors for better navigation. The robot has jumper wires which enable the circuit to be easily connected and disconnected. Our project is an example of how technology can be used to solve practical problems in various industries. The wall-E mini robot is a project made by Sukhpreet Singh Harshdeep Singh Nitin Chaudhary and Jashanpreet Singh that involves an obstacle avoiding robot which uses voice control and Bluetooth control. The robot uses Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack for movement. The ultrasonic sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. The arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). The robot uses ultrasonic sensors and servo motor activated. Its applications include automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. We are proud of the work we have done on this project and believe that it has the potential to make a positive impact in the world..

[Audio] The robot is an obstacle avoiding robot that uses voice control and Bluetooth control. It is powered by an Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack. The robot uses an ultrasonic sensor to detect obstacles in its path and navigate around them. The sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. The arduino controls the motors left right back and front based on the data received from the ultrasonic sensor using pulse width modulation (P-W-M--). This project has a wide range of potential applications including automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. In this slide we will be focusing on the working of the ultrasonic sensor and how it helps the robot navigate around obstacles. The wall-E mini robot is a great example of how technology can be used to solve practical problems and improve our daily lives..

PREVIEW.

[Audio] discuss a project made by Sukhpreet Singh Harshdeep Singh Nitin Chaudhary and Jashanpreet Singh. This project involves an obstacle avoiding robot which uses voice control and Bluetooth control. The robot uses Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack for movement. The ultrasonic sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. The arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). The robot uses ultrasonic sensors and servo motor activated and its applications include automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. Working of the obstacle avoiding robot vehicle:.

[Audio] mini robot is a project created by Sukhpreet Singh Harshdeep Singh Nitin Chaudhary and Jashanpreet Singh. The robot uses voice control and Bluetooth control for obstacle avoiding movement. It is powered by an Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack. mini robot's ultrasonic sensor continuously transmits ultrasonic waves from its sensor head. The Arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). When the ultrasonic sensor detects an object within its path the motor will rotate to avoid the obstacle. mini robot has various applications including automatic changeovers of traffic signals counting instruments access switches parking meters and military applications..

[Audio] The wall-E mini robot software allows for flexibility and customization in the robot's movement through a combination of open-source code and proprietary libraries. The software uses the Arduino I-D-E for sketch creation PulseIn for ultrasonic sensor communication Servo for servo motor control and Bluetooth for mobile device communication. These libraries provide precise control of the robot's movement and data transmission. The software is designed to provide flexibility and customization in the control of the robot's movement..

[Audio] 1. Robot with an ultrasonic sensor that detects obstacles within a specific range. 2. Programmed to send command to microcontroller based on input signal. 3. Directs robot to move in alternate direction by activating motors connected to microcontroller via motor driver. 4. Allows robot to navigate around obstacles and avoid collisions. 5. Useful tool for various applications such as automatic changeovers of traffic signals counting instruments access switches parking meters and military applications..

[Audio] Our robot is an obstacle avoiding robot that utilizes voice control and Bluetooth control. The design of our robot includes an Arduino U-N-O board ultrasonic sensors motor driver DC motor and battery pack for movement. One of the key features of our robot is its ability to connect to Bluetooth and receive mobile signals. This allows us to send messages to the robot which can then be used to control its movement. Using voice commands such as right left forward back stop or go we can navigate our robot around obstacles and move it to our desired location. Our project showcases the potential of voice control and Bluetooth technology in robotics and automation and we hope to continue exploring these areas in the future..

[Audio] The wall-E mini robot is a powerful tool with many potential uses in a variety of fields. It was created by a team of engineers and is powered by an Arduino U-N-O and uses voice control and Bluetooth control. One of its main applications is in the field of robotics where it is used to control motors sensors and actuators. It can also be used for a variety of other applications including automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. The wall-E mini robot is a powerful tool that is sure to pique the interest of anyone who is interested in robots and automation..

[Audio] We present our wall-E mini robot project. This robot is controlled through voice and Bluetooth and features an obstacle avoidance system that uses ultrasonic sensors and motor drivers for movement. The wall-E mini robot is an efficient and safe way to navigate through obstacles enhancing productivity and minimizing the risk of accidents. The robot's sensors can detect objects at a greater distance and in poor visibility making it highly effective at detecting smaller and more subtle obstacles. This technology can be applied to various types of robots such as fire detecting Arduino robots or vacuum cleaners. The sensory technology used in this project allows us to perceive our environment more effectively than human senses making it valuable in numerous applications. In conclusion the wall-E mini robot represents how technology can improve efficiency and safety across various industries..

[Audio] Our robot is an obstacle avoidance robot that uses voice control and Bluetooth control. This robot has many applications including automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. Our robot is built using Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack. The ultrasonic sensor is attached in front of the robot and continuously transmits ultrasonic waves from its sensor head. The Arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). Obstacle avoidance is crucial for all navigation robots and our robot is no exception. Our robot has numerous applications in science exploration and emergency rescue. There may be places that are dangerous for humans or even impossible for humans to reach directly and robots can help us in such situations. Our robot is also designed to help disabled people by integrating a voice recognition system in the robotic vehicle. Speech control is a simple yet powerful tool that can be used to apply speech recognition techniques to control the application. In conclusion our obstacle avoidance robot is a versatile and valuable tool that has many applications in various fields. Its integration of voice recognition and Bluetooth control systems makes it accessible to a wider range of users including those with disabilities. We believe that our robot has great potential to revolutionize the way we explore and rescue in dangerous or inaccessible environments..

[Audio] The robot is an obstacle avoiding robot that uses voice control and Bluetooth control. It is powered by an Arduino U-N-O ultrasonic sensors motor driver DC motor and battery pack. The ultrasonic sensor is located in front of the robot and continuously transmits ultrasonic waves from its sensor head. The Arduino controls the motors left right back and front based on ultrasonic signals using pulse width modulation (P-W-M--). The robot's applications include automatic changeovers of traffic signals counting instruments access switches parking meters and military applications. The team utilized their coding and designing skills from the base and they gained profound knowledge into different advancements and devices for improvement of the venture. They were exposed to various software such as Arduino I-D-E and Proteus which widened their knowledge in a broad aspect. There is much scope of improvement in the communication range and considerable reduction in processing time..

[Audio] 1. wall-E mini robot project 2. Voice control and Bluetooth control 3. Arduino U-N-O ultrasonic sensors motor driver DC motor and batter.