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ROBOTICS The Avi Sharma Cyber Security Expert
Overview ● Definition of Robotics. ● What is robot ? ● Applications of robots ● Need of Robotics ● Parts of Robot
Definition of robotics Robotics is an interdisciplinary research area at the interface of computer science and engineering .Robotics involves design, construction, operation, and use of robots. The goal of robotics is to design intelligent machines that can help and assist humans in their day-to-day lives and keep everyone safe. Robotics draws on the achievement of information engineering, computer engineering, mechanical engineering, electronic engineering and others. Robotics develops machines that can substitute for humans and replicate human actions.
What is robot ? • Robots can be used in many situations and for many purposes, but today many are used in dangerous environments (including inspection of radioactive materials, bomb detection and deactivation), manufacturing processes, or where humans cannot survive (e.g. in space, underwater, in high heat, and clean up and containment of hazardous materials and radiation). Robots can take on any form but some are made to resemble humans in appearance. This is said to help in the acceptance of a robot in certain replicative behaviors usually performed by people. Such robots attempt to replicate walking, lifting, speech, cognition, or any other human activity. Many of today's robots are inspired by nature, contributing to the field of bio-inspired robotics.
Applications of robot ● Robots are used in many fields - 1. Industrial Areas 2. Military Areas ● 3. Medical Line 4. Space Exploration centers ● 5. Research & Development centers etc.
Industrial Robots • Robots are increasingly used in manufacturing (since the 1960s). According to the Robotic Industries Association US data, in 2016 automotive industry was the main customer of industrial robots with 52% of total sales. In the auto industry, they can amount for more than half of the "labor". There are even "lights off" factories such as an IBM keyboard manufacturing factory in Texas that was fully automated as early as 2003.
Industrial Robots
Medical Robot • A medical robot is a robot used in the medical sciences. They include surgical robots. These are in most telemanipulators, which use the surgeon's activators on one side to control the "effector" on the other side. • Types - Surgical robots, Rehabilitation robots, Biorobots..etc.
Medical Robot
MILITARY ROBOTS- Military robots are autonomous robots or remote- controlled mobile robots designed for military applications, from transport to search & rescue and attack. Some such systems are currently in use, and many are under development.
MILITARY ROBOTS
Space Exploration robot Robots in space exploration- A robotic spacecraft is an uncrewed spacecraft, usually under telerobotic control. A robotic spacecraft designed to make scientific research measurements is often called a space probe. Many space missions are more suited to telerobotic rather than crewed operation, due to lower cost and lower risk factors.
Space Exploration robot
NEED OF ROBOTICS • Robotics technology influences every aspect of work and home. Robotics has the potential to positively transform lives and work practices, raise efficiency and safety levels and provide enhanced levels of service. Even more, robotics is set to become the driving technology underpinning a whole new generation of autonomous devices and cognitive artefacts that, through their learning capabilities, interact seamlessly with the world around them, and hence, provide the missing link between the digital and physical world .
NEED OF ROBOTICS • Robotics is already the key driver of competitiveness and flexibility in large scale manufacturing industries. Without robotics many of Europe’s successful manufacturing industries would not be able to compete from their current European bases of operation. In these industries robotics already underpins employment. Increasingly robotics is becoming more relevant for smaller manufacturing industries which are central to Europe’s manufacturing and employment capacity.
Parts of Robots The Main Parts of a Robot: ● 1. Control System ● 2. Actuator ● 3. Power Supply ● 4. End Effector ● 5. Sensors
Control system • Our brains decide what to do and how to react to the world based on feedback from our five senses. A robot's CPU does the same thing based on their control system. • Control systems allow for the movement and function of various parts of the robot, as well as execute a specific set of motions and forces in the presence of unforeseen errors.
Actuator • To be considered a robot, a device must have a body that it can move in reaction to feedback from its sensors. Robot bodies consist of metal, plastic and similar materials. Inside these bodies are small motors called actuators. Actuators mimic the action of human muscle to move parts of the robot's body. The simplest robots consist of an arm with a tool attached for a particular task. More advanced robots may move around on wheels or treads. Humanoid robots have arms and legs that mimic human movement.
POWER SUPPLY- • In order to function a robot must have power. Human beings get their energy from food. After we eat, the food is broken down and converted into energy by our cells. Most robots get their energy from electricity. Stationary robotic arms like the ones that work in car factories can be plugged in like any other appliance. Robots that move around are usually powered by batteries. Our robotic space probes and satellites are often designed to collect solar power.
END EFFECTORS In order to interact with the environment and carry out assigned tasks, robots are equipped with tools called end effectors. These vary according to the tasks the robot has been designed to carry out. For example, robotic factory workers have interchangeable tools such as paint sprayers or welding torches. Mobile robots such as the probes sent to other planets or bomb disposal robots often have universal grippers that mimic the function of the human hand
SENSOR- • Robots receive feedback from sensors that mimic human senses such as video cameras or devices called light- dependent resistors that function like eyes or microphones that act as ears. Some robots even have touch, taste and smell. The robot's CPU interprets signals from these sensors and adjusts its actions accordingly.
Thank You Thank You The Avi Sharma Cyber Security Expert

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Robotics

  • 2. Overview ● Definition of Robotics. ● What is robot ? ● Applications of robots ● Need of Robotics ● Parts of Robot
  • 3. Definition of robotics Robotics is an interdisciplinary research area at the interface of computer science and engineering .Robotics involves design, construction, operation, and use of robots. The goal of robotics is to design intelligent machines that can help and assist humans in their day-to-day lives and keep everyone safe. Robotics draws on the achievement of information engineering, computer engineering, mechanical engineering, electronic engineering and others. Robotics develops machines that can substitute for humans and replicate human actions.
  • 4. What is robot ? • Robots can be used in many situations and for many purposes, but today many are used in dangerous environments (including inspection of radioactive materials, bomb detection and deactivation), manufacturing processes, or where humans cannot survive (e.g. in space, underwater, in high heat, and clean up and containment of hazardous materials and radiation). Robots can take on any form but some are made to resemble humans in appearance. This is said to help in the acceptance of a robot in certain replicative behaviors usually performed by people. Such robots attempt to replicate walking, lifting, speech, cognition, or any other human activity. Many of today's robots are inspired by nature, contributing to the field of bio-inspired robotics.
  • 5. Applications of robot ● Robots are used in many fields - 1. Industrial Areas 2. Military Areas ● 3. Medical Line 4. Space Exploration centers ● 5. Research & Development centers etc.
  • 6. Industrial Robots • Robots are increasingly used in manufacturing (since the 1960s). According to the Robotic Industries Association US data, in 2016 automotive industry was the main customer of industrial robots with 52% of total sales. In the auto industry, they can amount for more than half of the "labor". There are even "lights off" factories such as an IBM keyboard manufacturing factory in Texas that was fully automated as early as 2003.
  • 8. Medical Robot • A medical robot is a robot used in the medical sciences. They include surgical robots. These are in most telemanipulators, which use the surgeon's activators on one side to control the "effector" on the other side. • Types - Surgical robots, Rehabilitation robots, Biorobots..etc.
  • 10. MILITARY ROBOTS- Military robots are autonomous robots or remote- controlled mobile robots designed for military applications, from transport to search & rescue and attack. Some such systems are currently in use, and many are under development.
  • 12. Space Exploration robot Robots in space exploration- A robotic spacecraft is an uncrewed spacecraft, usually under telerobotic control. A robotic spacecraft designed to make scientific research measurements is often called a space probe. Many space missions are more suited to telerobotic rather than crewed operation, due to lower cost and lower risk factors.
  • 14. NEED OF ROBOTICS • Robotics technology influences every aspect of work and home. Robotics has the potential to positively transform lives and work practices, raise efficiency and safety levels and provide enhanced levels of service. Even more, robotics is set to become the driving technology underpinning a whole new generation of autonomous devices and cognitive artefacts that, through their learning capabilities, interact seamlessly with the world around them, and hence, provide the missing link between the digital and physical world .
  • 15. NEED OF ROBOTICS • Robotics is already the key driver of competitiveness and flexibility in large scale manufacturing industries. Without robotics many of Europe’s successful manufacturing industries would not be able to compete from their current European bases of operation. In these industries robotics already underpins employment. Increasingly robotics is becoming more relevant for smaller manufacturing industries which are central to Europe’s manufacturing and employment capacity.
  • 16. Parts of Robots The Main Parts of a Robot: ● 1. Control System ● 2. Actuator ● 3. Power Supply ● 4. End Effector ● 5. Sensors
  • 17. Control system • Our brains decide what to do and how to react to the world based on feedback from our five senses. A robot's CPU does the same thing based on their control system. • Control systems allow for the movement and function of various parts of the robot, as well as execute a specific set of motions and forces in the presence of unforeseen errors.
  • 18. Actuator • To be considered a robot, a device must have a body that it can move in reaction to feedback from its sensors. Robot bodies consist of metal, plastic and similar materials. Inside these bodies are small motors called actuators. Actuators mimic the action of human muscle to move parts of the robot's body. The simplest robots consist of an arm with a tool attached for a particular task. More advanced robots may move around on wheels or treads. Humanoid robots have arms and legs that mimic human movement.
  • 19. POWER SUPPLY- • In order to function a robot must have power. Human beings get their energy from food. After we eat, the food is broken down and converted into energy by our cells. Most robots get their energy from electricity. Stationary robotic arms like the ones that work in car factories can be plugged in like any other appliance. Robots that move around are usually powered by batteries. Our robotic space probes and satellites are often designed to collect solar power.
  • 20. END EFFECTORS In order to interact with the environment and carry out assigned tasks, robots are equipped with tools called end effectors. These vary according to the tasks the robot has been designed to carry out. For example, robotic factory workers have interchangeable tools such as paint sprayers or welding torches. Mobile robots such as the probes sent to other planets or bomb disposal robots often have universal grippers that mimic the function of the human hand
  • 21. SENSOR- • Robots receive feedback from sensors that mimic human senses such as video cameras or devices called light- dependent resistors that function like eyes or microphones that act as ears. Some robots even have touch, taste and smell. The robot's CPU interprets signals from these sensors and adjusts its actions accordingly.
  • 22. Thank You Thank You The Avi Sharma Cyber Security Expert