Robotics.pptx hhhhhhhhhhhhhhhhhhhhhhhhhhhhhh
- 2. Contents • History • Robotics Terminology • Definition of Robot • Laws of Robotics • How Do Robots Work • The robot control loop • Types of Robots • Robot Components • Degrees of Freedom • Robotic Applications / Advantages / Disadvantages • Introduction to Artificial Intelligence (AI)
- 3. History The term "robot" was first used in 1920 in a play called "R.U.R." Or "Rossum's universal robots" by the Czech writer Karel Capek. • The play begins in a factory that makes artificial people called robots . • The word “Robot” comes from the word “Robota”, meaning, in Czech”, forced labour, drudgery. The word “Robotics” , used to describe this field of study was coined accidentally by Russian- born scientist and science fiction writer, Isaac Asimov in 1940s.
- 4. Robotics Terminology • Robot - Mechanical device that performs human tasks, either automatically or by remote control. • Robotics - Study and application of robot technology. • Telerobot - Robot that is operated remotely.
- 5. Definition What is the Definition of a Robot? “A reprogrammable multifunctional manipulator designed to move material, parts, tools or specialized devices through various programmed motions for the performance of a variety of Tasks.” Robot Institute of America.
- 6. Laws of Robotics Asimov proposed three “Laws of Robotics” Law 1: A robot may not injure a human being or through inaction, allow a human being to come to harm. Law 2: A robot must obey orders given to it by human beings, except where such orders would conflict with the first law. Law 3: A robot must protect its own existence as long as such protection does not conflict with the first law.
- 7. How Do Robots Work? • A robot is any moving machine that can be programmed to perform tasks and gather information from its surroundings. • Robots work from a central microprocessor that controls their movements, they also have sensors for examining the environment and power sources.
- 8. The robot control loop • Speech, Vision • Acceleration, • Temperature • Position ,Distance • Touch, Force • Magnetic field ,Light • Position Sense • Task planning • Plan Classification • Learn • Process data • Path planning • Motion planning Output information Move, Speech, Text, Visuals Wheels Legs Arms Tracks
- 9. Types of Robots • Industrial Robots – –materials handling –welding –inspection –improving productivity –Laboratory applications
- 10. Types of Robots Mobile Robots- –Robots that move around on legs, tracks or wheels. Eg- In 1979 a nuclear accident in the USA caused a leak of radioactive material which led to Production of special robot –which Can handle the radioactive materials
- 11. Types of Robots Educational Robots – Robotic kits Are used extensively in education. Eg- Robolab , Lego and RoboCupe Soccer Domestic Robots– 2 types – those designed to perform household tasks and modern toys which are programmed to do things like talking, walking and dancing , etc.
- 12. Robot Components 1. Manipulator or Rover: Main body of robot (Links, Joints, other structural element of the robot) 2. End Effecter: The part that is connected to then last joint hand) of a manipulator. 3. Actuators: Muscles of the manipulators (servomotor, stepper motor, pneumatic and hydraulic cylinder). 4. Sensors: To collect information about the internal state of the robot or To communicate with the outside environment.
- 13. Robot Components… 5. Controller: Similar to cerebellum. It controls and coordinates the motion of the actuators. 6. Processor: The brain of the robot. It calculates the motions and the velocity of the robot’s joints, etc. 7. Software: Operating system, robotic software and the collection of routines.
- 14. SENSORS Sensors provide awareness of the environment by sensing things. Sensors are the core of robots. It is the system that alerts the robots. Sensing can be in different forms like- • Light • Sound • Heat • Chemicals • Force • Object proximity • Physical orientation/position • Magnetic & Electric Fields • Resistance Ultra Sonic Infra Red Sensor LDR Sound Sensor
- 17. Actuators… Manipulations- • Degrees of freedom – independently controllable components of motion • Arms – convenient method to allow full movement in 3D – more often used in fixed robots due to power & weight – even more difficult to control! due to extra degrees of freedom • Grippers – may be very simple (two rigid arms) to pick up objects – may be complex device with fingers on end of an arm – probably need feedback to control grip force
- 18. End Effectors In robotics, an end effectors is the device at the end of a robotic arm, designed to interact with the environment. End effectors may consist of a gripper or a tool. The gripper can be of two fingers, three fingers or even five fingers.
- 19. Degrees of Freedom • Each plane in which a robot can manoeuvre. • ROTATE BASE OF ARM • PIVOT BASE OF ARM • BEND ELBOW • WRIST UP AND DOWN • WRIST LEFT AND RIGHT • ROTATE WRIST
- 20. The Purpose of Robots Robots are also used for the following tasks: • Dirty Tasks • Repetitive tasks • Dangerous / hazardous tasks • Impossible tasks • Robots assisting the handicapped • Can operate equipment at much higher precision than humans. • Cheaper on a long term basis.
- 21. Robotic Applications EXPLORATION- – Space Missions – Robots in the Antarctic – Exploring Volcanoes – Underwater Exploration MEDICAL SCIENCE – Surgical assistant ASSEMBLY- factories Parts- - handling - Assembly - Painting - Surveillance - Security (bomb disposal , etc) - Home help (grass cutting, nursing)
- 22. Advantages.. Going to far away planets. Going far down into the unknown waters and mines where humans would be crushed Giving us information that humans can't get Working at places 24/7 without any salary and food. Plus they don't get bored They can perform tasks faster than humans and much more consistently and accurately Most of them are automatic so they can go around by themselves without any human interference.
- 23. Disadvantages.. • People can lose jobs in factories. • It needs a supply of power. • It needs maintenance to keep it running . • It costs money to make or buy a robot
- 24. Artificial intelligence Artificial intelligence (AI) refers to the simulation of human intelligence in machines that are programmed to think like humans and mimic their actions. The term may also be applied to any machine that exhibits traits associated with a human mind such as learning and problem-solving. The goals of artificial intelligence include learning, reasoning, and perception. examples of machines with artificial intelligence include computers that play chess and self-driving cars.
- 25. Thank You