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Robots are taking over the world. The technology is now using different technologies such as AI, ML, and many others to improve its functions and applications. Across the globe, there are many robotics enthusiasts who are striving really hard to discover or invent some or the other new things in robotics. And are really coming up with innovative projects. For instance, Humanoid robots are the best example. These robots at times represent humans or at times they mimic humans in some or the other ways such as walking, talking, gestures, etc. These robots are not just used for entertainment but also in doing chores, caretaking, medical applications, and many. Here are the top robotics project ideas, read below.
The major drawback in today's surveillance rests on the involvement of human operators who can easily be distracted, so we need a system that can autonomously monitor regions continuously, making decisions while identifying unwanted or obnoxious things and responding accordingly. Object tracking using computer vision is crucial in achieving automated surveillance. The objective was to make a basic prototype for such a bot that can sense color and shape and follow it. This robot tries to find a color that is hardcoded, if it finds a ball of that color it follows it.
These robots are built around the Pixy computer vision sensor. This vision sensor is a low-cost sensor for under 80 dollars. The sensor tracks color hues at a whopping 50 frames per second. If you're interested, you can find more information about Pixy on their wiki page. This project sprang up from the idea that Arch Reactor members often go to events to get the community involved in making and repairing. Robots would be a nice way to draw individuals to the table and get them interested in robotics, this would be an interactive display. People are able to play with the robots by moving around the balls so the robots can follow them.
Solar power is mainly harnessed from photovoltaic (PV) panels which are arranged in multiple arrays in a solar farm or solar system. However, the efficiency of energy generated from PV panels is affected by the accumulation of dust and debris, even on one panel in an array. This condition leads to the need for regular cleaning of the surface of PV panels. Current labor-based cleaning methods for photovoltaic arrays are costly in time, water, and energy usage as well as lacking in automation capabilities. To overcome this problem, a fully automatic solar panel cleaning system with/without water is proposed. The design utilizes an Arduino controller system to control the robot's movement during the cleaning process. In addition, it is equipped with two rough sponges and a water pump system that can be used to clean dust or debris found on PV panel surfaces. The efficiency of the PV panels before and after the cleaning process is also observed. The result shows that the developed solar panel cleaning robot is able to clean the panel effectively and increase back the output current as well as the maximum power of the panel by 50%, after the dust on the PV panel is cleaned.
Human detection robots are not a new technology. Many types of human detection robots were designed depending on the application. During natural calamities like earthquakes, it is difficult to rescue the human beings under the buildings. Though detection by the rescue team is done, it consumes a lot of time. Detection of humans at an appropriate time is very important in such situations. This article presents a simple human detection robot that is operated manually using RF technology.
The main principle of the circuit is to detect the human using a human detection sensor. The wireless robot is operated manually using a PC. The wireless technology used here is Radio Frequency technology. The data is transmitted to the receiver through RF. Using the received data, the robot is operated and controlled.
A Gesture Controlled robot is a robot that can be controlled by hand gestures. You just need to have a small transmitting device in your hand, which includes an acceleration meter to transmit an appropriate command to the robot so that it can do whatever you want. The transmitting device included an ADC for analog to digital conversion and an encoder IC(HT12E) which is used to encode the four-bit data and then will transmit by an RF Transmitter module. At the receiving end, an RF Receiver receives the encoded data, and decoder IC decodes it. A microcontroller processes this data, and the motor driver is used to control the motors.
Jumping robots can overcome obstacles higher than their own height, while robots with wheels or caterpillars cannot. In this paper, a 22.5g frog-inspired small jumping robot is presented. It can jump more than 2.5 m, i.e., 58 times its own height. The four-bar linkage structure is employed to imitate the musculoskeletal structure and behavior of the frog's hind leg, and twisting actuation is applied to store large elastic energy on the elastomer using a motor of small power.
Smart robots can think for themselves while sending and sorting garbage.
All you have to do is to put the trash into the container. The container then takes advantage of its detectors to compare or study the garbage recovered from the previous waste records and then decides on what has to be done with the trash.
Primarily based on the decision, the container itself sends the waste to a proper disposal system, whether it's a drop zone or a recycling plant. With more intelligent solutions to dump the trash, we can certainly expect a substantial reduction in the waste generated throughout the world. This may significantly help in maintaining our ecosystem for a sustainable and better future.
A soccer robot is one kind of mobile or autonomous robot, used to play soccer with variants. Every year there are many tournaments organized like FIRA, and Robocup. At present, the RoboCup contest has various soccer leagues like Simulation, Small Size, Middle Size, Four-Legged, and Humanoid. At the present robot, technology offers many services in the field of robotic vehicles, intelligent systems, soccer-playing robots, etc. This article discusses a soccer robot and its working.
Obstacle Avoiding Robot is an intelligent device that can automatically sense the obstacle in front of it and avoid them by turning itself. The basic principle behind the working of ultrasonic sensors is to note down the time taken by the sensor to transmit ultrasonic beams and receive the ultrasonic beams after hitting the surface. Then further the distance is calculated using the formula. In this project, the widely available HC-SR04 Ultrasonic Sensor is used. To use this sensor, a similar approach will be followed as explained above.
This is the best project that can easily be made. Mini Conveyor products offered are the Low Profile (LP) Series small conveyor and the Lite Series small conveyor.
The breadth of options and accessories allows for a custom small conveyor setup that fits your needs. The various options categories are drive packages, motor voltage options, belt options, drive mount positions, and conveyor options. The "accessory categories are guides & rails, part stops, couplers & drive shaft (LP Series), product indexing timer, product guide cushions, mounting brackets and conveyor stand
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