IndexThe Three Laws of RoboticsTypes of RoboticsComponents of RobotsApplications of RoboticsRobotics means the review and application of robotics technology. Robotics is a field of engineering that consists of the conception, design, production and operation of machines with particular precision and repetitive tasks. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original Essay The Three Laws of Robotics Famous science fiction writer Isaac Asimov created the Three Laws of Robotics: A robot cannot harm a human being or, through inaction, allow a human being to come to harm. A robot must accept permission given to it by humans unless such commands conflict with the previous Law. A robot must guide its own existence as long as such protection does not conflict or contradict the previous Law.Types of roboticsMobile robotsRotating robotsWalking robotsFixed robotsAutonomous robotsRemote-controlled robotsMobile robots have the ability to move, occasionally they can do/perform jobs assigned to it, such as search areas. A typical example is Mars Explorer, specifically assigned to roam the surface of Mars. Mobile robots are of great help in this type of building demolition for survivors. Mobile robots are very useful in places where humans cannot go, either because it is too dangerous or because people cannot reach the area that needs to be searched. Mobile robots have wheels to move around. These robots are useful for searching and searching for objects rolling around. Therefore they can only be useful in flat areas, rocky terrain gives them a hard time. Flat lands are their territory. Robots on legs are basically brought here when the terrain is rocky and difficult to access with wheels. The robots have difficulty shifting their balance and prevent them from falling. This is why most robots have at least 4 legs, basically they have 6 or more. Robots are not fundamentally used to search and examine humans. Most robots perform repetitive tasks at rest. Most robots are industrial based settings. For robots, particularly boring and repetitive jobs are enough. A robot never gets tired of working, it will do its duty day and night without complaining. If the robots are done working, they will be reprogrammed to perform other tasks. Autonomous robots are self-supporting or in other words autonomous. He relies only on his brain. An autonomous robot, despite its autonomy, is not a very intelligent or intelligent unit. Its brain has limits on what is programmed, an autonomous robot can be similar to an insect. If a robot wants to perform difficult work but indeterminate tasks, an autonomous robot cannot use it. Robot components Structure Energy source Actuation Sensing Manipulation Locomotion The structure of a robot is predominantly mechanical and can be defined as a kinematic chain. The chain is made up of links (its bones), actuators (its muscles) and joints that together can allow one or more degrees of freedom. Adequate power is required to operate the motors and associated circuits. Typical power requirement ranges from 3V to 24V DC. Sufficient AC power must be provided. Different batteries and motors with different drivers can also be used to drive the robots. Actuators are the "muscles" of a robot, the parts that convert stored energy into motion. The best known actuators are electric motors. Robots that need to function in the real world require a way to.