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Robotics
- 3. Robotics
- 4. What are Robots? ROBOTS ARE THE ARTIFICIAL AGENTS ACTING IN A REAL WORLD ENVIRONMENT.
- 5. Objective Robots are aimed at manipulating the objects by perceiving, picking, moving, modifying the physical properties of object, destroying it, or to have an effect thereby freeing manpower from doing repetitive functions without getting bored, distracted, or exhausted.
- 6. What is Robotics? Robotics is a branch of AI, which is composed of Electrical Engineering, Mechanical Engineering, and Computer Science for Designing. Construction. Application of robots.
- 7. WHY IS ROBOTICS NEEDED…..? Robotics is Needed because : •Speed •Can work in hazardous / dangerous temperature •Can do repetitive tasks •Can do work with accuracy
- 8. Aspects of Robotics • The robots have mechanical construction, form, or shape designed to accomplish a particular task. • They have electrical components which power and control the machinery. • They contain some level of computer program that determines what, when and how a robot does something.
- 9. Automation and Robotics in Intelligent Environments Control of the physical environment Automated blinds Thermostats and heating ducts Automatic doors Automatic room partitioning Personal service robots House cleaning Lawn mowing Assistance to the elderly and handicapped Office assistants Security services
- 10. Requirements for Robots in Intelligent Environments • Autonomy • Robots have to be capable of achieving task objectives without human input • Robots have to be able to make and execute their own decisions based on sensor information • Intuitive Human-Robot Interfaces • Use of robots in smart homes can not require extensive user training • Commands to robots should be natural for inhabitants • Adaptation • Robots have to be able to adjust to changes in the environment
- 11. Autonomous Robot Control To control robots to perform tasks autonomously a number of tasks have to be addressed. • Modeling of robot mechanisms • Kinematics, Dynamics • Robot sensor selection • Active and passive proximity sensors • Low-level control of actuators • Closed-loop control • Control architectures • Traditional planning architectures • Behavior-based control architectures • Hybrid architectures
- 12. Actuator Control To get a particular robot actuator to a particular location it is important to apply the correct amount of force or torque to it. Frequently actuators are treated as if they were independent (i.e. as if moving one joint would not affect any of the other joints). The most common control approach is PD-control (proportional, differential control)
- 13. Sensor-Driven Robot Control To accurately achieve a task in an intelligent environment, a robot has to be able to react dynamically to changes its surrounding. • Robots need sensors to perceive the environment • Most robots use a set of different sensors • Different sensors serve different purposes • Information from sensors has to be integrated into the control of the robot
- 14. Traditional Human-Robot Interface: Teleoperation Remote Teleoperation: Direct operation of the robot by the user….. User uses a 3-D joystick or an exoskeleton to drive the robot Simple to install Removes user from dangerous areas Problems: Requires insight into the mechanism Can be exhaustive Easily leads to operation errors
- 15. Human-Robot Interfaces Existing technologies • Simple voice recognition and speech synthesis • Gesture recognition systems • On-screen, text-based interaction
- 16. "Social" Robot Interactions To make robots acceptable to average users they should appear and behave “natural” "Attentional" Robots Robot focuses on the user or the task Attention forms the first step to imitation "Emotional" Robots Robot exhibits “emotional” responses Robot follows human social norms for behavior
- 17. "Social" Robot Interactions Advantages: Robots that look human and that show “emotions” can make interactions more “natural” Humans tend to focus more attention on people than on objects Humans tend to be more forgiving when a mistake is made if it looks “human” Robots showing “emotions” can modify the way in which humans interact with them
- 18. Applications of Robotics The robotics has been instrumental in the various domains such as Industries : Robots are used for Handling material, • Cutting, • Welding, • Color coating, • Drilling, • Polishing,
- 19. Military Autonomous robots can reach inaccessible and hazardous zones during war. A robot named Daksh, developed by Defense Research and Development Organization (DRDO), is in function to destroy life-threatening objects safely.
- 20. Medicine The robots are capable of carrying out hundreds of clinical tests simultaneously, rehabilitating permanently disabled people, and performing complex surgeries such as brain tumors.
- 21. Exploration The robot rock climbers used for space exploration, underwater drones used for ocean exploration are to name a few.
- 22. Entertainment Disney’s Engineers have created hundreds of robots for movie making.
- 23. Difference b/t Robot System and Other AI Program Here is the difference between the two : AI Programs Robots They usually operate in computer- stimulated worlds. They operate in real physical world The input to an AI program is in symbols and rules. Inputs to robots is analog signal in the form of speech waveform or images They need general purpose computers to operate on. They need special hardware with sensors and effectors.
- 24. Conclusions Robots are an important component in Intelligent Environments Automate devices Provide physical services Robot Systems in these environments need particular capabilities Autonomous control systems Simple and natural human-robot interface Adaptive and learning capabilities Robots have to maintain safety during operation
- 25. Thank You For Your Attention