by Analytics Insight
April 30, 2022
Robotics projects are in high demand among engineering students to have practical experience
Robotics is the trendiest and hottest cutting-edge technological field in the currency global tech market. Almost every engineering student is highly interested to kickstart their professional careers in the vast field of robotics among robots. Building and interacting with robots need sufficient hands-on experience beforehand to solve complex problems. Thus, an engineering student must work on some robotics projects to gain a deeper understanding efficiently and effectively. Let’s know about the top ten robotics projects that every engineering student must know in the robotics field to work on.
Top ten robotics projects in 2022
1. Artificial Intelligence-Based Chatbot for Appliance Control
An artificial intelligence-based chatbot for appliance control is a robotics project that helps senior citizens or handicapped people in their household chores. Chatbots can help to control the electrical appliances at home efficiently without any extra trouble. The features of this robotics project include easy maintenance, leveraging the power of artificial intelligence, and reducing the workload of old people.
2. Colour Sensing Robot with MATLAB
Colour sensing robot with MATLAB is a very helpful robotics project for engineering students. MATLAB plays a very important role in the image processing of a robot with high sensor cameras. The images taken by these cameras are processed for colours and the position of a red object is extracted out of that image. The colour sensing robot with MATLAB helps to send different real-time data through a COM port for multiple industrial applications. There is a corresponding movement with the position of the red coloured object.
3. RF Controlled Robot
RF controlled robot is known for controlling a robot with four push buttons located at the transmitter side. One needs to just push the buttons to control the robot for completing any specific task. The transmitting device consists of an RF transmitter as well as an RF encoder. This part helps to provide commands to the robot to follow necessary instructions such as moving reverse, turning left, moving forward, turning right, and finally stop.
4. Sun-Tracking Solar Panel without Controller
Solar energy is one of the most commonly used renewable energy in areas that experience a lot of sunlight annually. Through the solar tracking system, the users will be able to produce an immense amount of energy, which facilitates working with a solar panel much more efficient. The system will have a single axis of freedom since a commercially single tracker is cheaper to use. This system can be considered an eco-friendly alternative and is a valuable asset.
5. Concept Design of an Ultra-light Industrial Robot
The aim of this project is to develop a conceptual design of a lightweight robot with the help of lightweight materials like aluminium and carbon fibre, along with a newly developed servo actuator prototype.
Since, the uses of industrial robots are increasing in areas such as food, consumer goods, wood, plastics, and mostly in the automotive industry. A complex situation pertaining to using robotics in these sectors is that smaller and medium-sized companies that produce fewer batches of products, do not get productive enough by deploying a permanent industrial robot. The advent of such lightweight robots will solve this issue by being more adaptable to the products’ needs.
6. Metal Detecting Robot Using Microcontroller
This robot is designed to detect metals that human beings cannot reach easily. The robot can detect metals coming its way with the help of sensors. While detecting metals, it produces a sound in the control room or at the receiver side. It uses the radio frequency transmitter and receiver that is interfaced with the microcontroller to send and receive data. The robot can be applied for metal detection in mines, in remote areas, in security systems, and more.
7. New Interface for Rapid Feedback Control on ABB Robots
The manufacturing industry is automating its operations with the help of industrial robots. But industrial robots require static calibration due to their lack of senses, including force and vision sensing. So, by integrating advanced and more dynamic sensors in real-time robotic controllers, the dynamic processes will need exponential fewer calibrations, facilitating a reduced lead time. The new system for rapid feedback control is a complex system that can be implemented in existing robotics cells to enable real-time sensor feedback to robotic controls.
8. Cockroach Inspired Robots with Artificial Muscles
This robot was developed for the purpose of research in legged locomotion. Legged robotics have complex mechanisms as their developments can be highly aided by insights into the mechanisms by which animals usually locomote, both physical and by control. The robot is controlled by the hierarchal control system and with the help of an inter-leg coordination mechanism, which is a variant of the distributed network of the stick insect interleg coordination. The robot possesses the capability of performing the air-walking motions while suspended from the gantry, along with walking on a treadmill while weight is partially supported.
9. Automatic Pesticide Sprayer for Agricultural Purposes
The aim of this project is to provide a guidance system to build a robotic platform that is designed independently to drive through the crops in a field. The system is designed to boost agricultural production by spraying pesticides that are crucial for the growth of crops. The system is capable of detecting crops on both sides by using an ultra-sonic sensor.
Currently, the industry uses systems that need to be operated manually by humans, but his robot is created to enhance human efforts and also provide comfort to the users by performing the hard work.
10. Autonomous Quadcopter Docking System
The primary goal of this project is to design the systems and algorithms which are necessary for the quadcopters to automate locate and land on a targeted station. The purpose is to outline the framework for a quadcopter-based data collection or a surveillance system that can carry on with the low battery life of these highly mobile devices, by consistently landing the AVV safely in the designated location to be recharged.
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