A subfield of engineering called robotics deals with the creation, design, production, and use of robots. Making intelligent devices that can help people in a number of ways is the goal of the robotics sector. It is a cross-disciplinary field of science and engineering devoted to the creation, maintenance, and application of mechanical robots.

The top 7 Robotics projects for students to learn from and put their talents to the test are as follows:

1. Design and Development of Robotic Vehicle for Isolation Ward

In the work that is being presented, a smart robotic vehicle is discussed that can go throughout the COVID-19 isolation unit and provide supplies like food and medicine. The danger of infectious infections among hospital employees can be greatly decreased by robotic vehicles, which also make it feasible to provide patients with food and medications.

Reduced human contact is the main purpose of these robots. As a result, there will be less of a risk to the lives of medical professionals and physicians who are actively managing the COVID-19 epidemic.

The fundamentals of conception, design, building or manufacture, functioning, mechanism, perception system, control system, and usage of mechanical robots to monitor robots are crucial to the success of your project.

2. Intrusion Detection System Using Regulated Patrolling Robots for Apartments

The prompt patrol robot enables in-motion, medium-distance intelligent video monitoring. Due to the Prompt's continuous patrol design, any size property may be effectively maintained under control.

The easiest option to protect locations where there are many buildings, fences, or other impediments that prevent conducting video surveillance from places that are far away is to use the Patrol Robot. When numerous robots are placed in a single, secure location, the degree of efficacy is increased to the maximum.

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3. Smart Buggy: An IoT Based Smart Surveillance Robotic Car Using Raspberry Pi

A robotic surveillance vehicle called the Smart Buggy is designed to be controlled from anywhere in the world. With the help of the raspberry pi, it completes every task. Smart Buggy records the video and streams it live through a micro web framework so that viewers may access it from various locations. A motion detection sensor is used to identify motions in the video, which was recorded using a web camera.

Servo motors can be used to connect the camera and tilt it. The Smart Buggy is propelled by DC motors. Forward, backward, left, and right movements are all possible. The Internet of Things and other technologies are used for all processes. By port forwarding the device, the Smart Buggy can be controlled from any location and is primarily used for surveillance.

Read: Top 7 Industrial Automation Projects

4. Pothole Detection and Levelling Robot

The roads in our nation will get worse throughout the rainy season by developing path holes. The usage of large load trucks on the roads and the use of inferior cement for road construction are other causes of path holes. Accidents might happen as a result.

Therefore, this project is being done in order to find and level path holes. For the purpose of locating and levelling the path hole, a robot is used in this. The robot will move wirelessly, eliminating the need for humans to walk the whole route looking for potholes.

To find road path holes, a sensor that uses ultrasonic waves is installed. If a pothole is found, the robot will halt right away and turn on a servo motor to level it. This will level up the route holes and decrease accidents brought on by potholes.

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5. Trash Collector Robot

In this project, an Arduino microcontroller-based garbage collector robot is shown. The robot is supported by a metal base that is powered by a 12V battery.

The robot is made to gather trash from beaches, public locations (parks, universities, and schools), largely concreted walkways, and footpaths. Muddy surfaces are not suitable for usage by the robot.

The robot is designed to walk along the path specified in the software when it is switched ON. The robot moves forward after hitting an obstacle based on the circumstances set out in the software, and it then picks up the trash.

6. Social Distance and Monitoring Robot Queue

Here, we propose the construction of a social distance monitoring robot to ensure social distance in lines. The robotic vehicle is propelled using a four-wheel design mechanism. It continually moves with the line and looks out for instances of social distance breaches using the line-following concept.

For the purpose of spotting infractions, the robot moves with the line while using IR sensors. In order to identify obstructions in the route of the vehicle, the robot is now fitted with an ultrasonic obstacle detector.

7. Automation of Floor Cleaning Robot

The typical objective of a floor cleaning bot is to clean the space. We've employed the Arduino Mega Controller for this project. Both automated and human control of the system are possible in this instance.

Furthermore, we have connected the arduino mega to the node MCU for manual control. Based on ultrasonic range detection results, robot control may be carried out. An item will move in the direction of its far-reaching range.

Know More: Automation of Floor Cleaning Robot