The following outline is provided as an overview of and topical guide to robotics:

Robotics is a branch of mechanical engineering, electrical engineering and computer science that deals with the design, construction, operation, and application of robots, as well as computer systems for their control, sensory feedback, and information processing. These technologies deal with automated machines that can take the place of humans in dangerous environments or manufacturing processes, or resemble humans in appearance, behaviour, and or cognition. Many of today's robots are inspired by nature contributing to the field of bio-inspired robotics.

The word "robot" was introduced to the public by Czech writer Karel Čapek in his play R.U.R. (Rossum's Universal Robots), published in 1920. The term "robotics" was coined by Isaac Asimov in his 1941 science fiction short-story "Liar!"[1]

Nature of robotics

Robotics can be described as:

Branches of robotics

  • Adaptive control control method used by a controller which must adapt to a controlled system with parameters which vary, or are initially uncertain. For example, as an aircraft flies, its mass will slowly decrease as a result of fuel consumption; a control law is needed that adapts itself to such changing conditions.
  • Aerial robotics development of unmanned aerial vehicles (UAVs), commonly known as drones, aircraft without a human pilot aboard. Their flight is controlled either autonomously by onboard computers or by the remote control of a pilot on the ground or in another vehicle.
  • Android science interdisciplinary framework for studying human interaction and cognition based on the premise that a very humanlike robot (that is, an android) can elicit human-directed social responses in human beings.
  • Anthrobotics science of developing and studying robots that are either entirely or in some way human-like.
  • Artificial intelligence the intelligence of machines and the branch of computer science that aims to create it.
  • Artificial neural networks a mathematical model inspired by biological neural networks.
  • Autonomous car an autonomous vehicle capable of fulfilling the human transportation capabilities of a traditional car
  • Autonomous research robotics
  • Bayesian network
  • BEAM robotics a style of robotics that primarily uses simple analogue circuits instead of a microprocessor in order to produce an unusually simple design (in comparison to traditional mobile robots) that trades flexibility for robustness and efficiency in performing the task for which it was designed.
  • Behavior-based robotics the branch of robotics that incorporates modular or behavior based AI (BBAI).
  • Bio-inspired robotics making robots that are inspired by biological systems. Biomimicry and bio-inspired design are sometimes confused. Biomimicry is copying the nature while bio-inspired design is learning from nature and making a mechanism that is simpler and more effective than the system observed in nature.
  • Biomimetic see Bionics.
  • Biomorphic robotics a sub-discipline of robotics focused upon emulating the mechanics, sensor systems, computing structures and methodologies used by animals.
  • Bionics also known as biomimetics, biognosis, biomimicry, or bionical creativity engineering is the application of biological methods and systems found in nature to the study and design of engineering systems and modern technology.
  • Biorobotics a study of how to make robots that emulate or simulate living biological organisms mechanically or even chemically.
  • Cloud robotics is a field of robotics that attempts to invoke cloud technologies such as cloud computing, cloud storage, and other Internet technologies centered around the benefits of converged infrastructure and shared services for robotics.
  • Cognitive robotics views animal cognition as a starting point for the development of robotic information processing, as opposed to more traditional Artificial Intelligence techniques.
  • Clustering
  • Computational neuroscience study of brain function in terms of the information processing properties of the structures that make up the nervous system.
  • Robot control a study of controlling robots
  • Robotics conventions
  • Data mining Techniques
  • Degrees of freedom in mechanics, the degree of freedom (DOF) of a mechanical system is the number of independent parameters that define its configuration. It is the number of parameters that determine the state of a physical system and is important to the analysis of systems of bodies in mechanical engineering, aeronautical engineering, robotics, and structural engineering.
  • Developmental robotics a methodology that uses metaphors from neural development and developmental psychology to develop the mind for autonomous robots
  • Digital control a branch of control theory that uses digital computers to act as system controllers.
  • Digital image processing the use of computer algorithms to perform image processing on digital images.
  • Dimensionality reduction the process of reducing the number of random variables under consideration, and can be divided into feature selection and feature extraction.
  • Distributed robotics
  • Electronic stability control is a computerized technology that improves the safety of a vehicle's stability by detecting and reducing loss of traction (skidding).
  • Evolutionary computation
  • Evolutionary robotics a methodology that uses evolutionary computation to develop controllers for autonomous robots
  • Extended Kalman filter
  • Flexible Distribution functions
  • Feedback control and regulation
  • Human–computer interaction a study, planning and design of the interaction between people (users) and computers
  • Human robot interaction a study of interactions between humans and robots
  • Intelligent vehicle technologies comprise electronic, electromechanical, and electromagnetic devices - usually silicon micromachined components operating in conjunction with computer controlled devices and radio transceivers to provide precision repeatability functions (such as in robotics artificial intelligence systems) emergency warning validation performance reconstruction.
  • Kinematics study of motion, as applied to robots. This includes both the design of linkages to perform motion, their power, control and stability; also their planning, such as choosing a sequence of movements to achieve a broader task.
  • Laboratory robotics the act of using robots in biology or chemistry labs
  • Robot learning learning to perform tasks such as obstacle avoidance, control and various other motion-related tasks
  • Direct manipulation interface In computer science, direct manipulation is a human–computer interaction style which involves continuous representation of objects of interest and rapid, reversible, and incremental actions and feedback. The intention is to allow a user to directly manipulate objects presented to them, using actions that correspond at least loosely to the physical world.
  • Manifold learning
  • Microrobotics a field of miniature robotics, in particular mobile robots with characteristic dimensions less than 1 mm
  • Motion planning (a.k.a., the "navigation problem", the "piano mover's problem") is a term used in robotics for the process of detailing a task into discrete motions.
  • Motor control information processing related activities carried out by the central nervous system that organize the musculoskeletal system to create coordinated movements and skilled actions.
  • Nanorobotics the emerging technology field creating machines or robots whose components are at or close to the scale of a nanometer (10−9 meters).
  • Passive dynamics refers to the dynamical behavior of actuators, robots, or organisms when not drawing energy from a supply (e.g., batteries, fuel, ATP).
  • Programming by Demonstration an End-user development technique for teaching a computer or a robot new behaviors by demonstrating the task to transfer directly instead of programming it through machine commands.
  • Quantum robotics a subfield of robotics that deals with using quantum computers to run robotics algorithms more quickly than digital computers can.[2]
  • Rapid prototyping automatic construction of physical objects via additive manufacturing from virtual models in computer aided design (CAD) software, transforming them into thin, virtual, horizontal cross-sections and then producing successive layers until the items are complete. As of June 2011, used for making models, prototype parts, and production-quality parts in relatively small numbers.
  • Reinforcement learning an area of machine learning in computer science, concerned with how an agent ought to take actions in an environment so as to maximize some notion of cumulative reward.
  • Robot kinematics applies geometry to the study of the movement of multi-degree of freedom kinematic chains that form the structure of robotic systems.
  • Robot locomotion collective name for the various methods that robots use to transport themselves from place to place.
  • Robot programming
  • Robotic mapping the goal for an autonomous robot to be able to construct (or use ) a map or floor plan and to localize itself in it
  • Robotic surgery computer-assisted surgery, and robotically-assisted surgery are terms for technological developments that use robotic systems to aid in surgical procedures.
  • Sensors (also called detector) is a converter that measures a physical quantity and converts it into a signal which can be read by an observer or by an (today mostly electronic) instrument.
  • Simultaneous localization and mapping a technique used by robots and autonomous vehicles to build up a map within an unknown environment (without a priori knowledge), or to update a map within a known environment (with a priori knowledge from a given map), while at the same time keeping track of their current location.
  • Software engineering the application of a systematic, disciplined, quantifiable approach to the design, development, operation, and maintenance of software, and the study of these approaches; that is, the application of engineering to software.
  • Speech processing study of speech signals and the processing methods of these signals. The signals are usually processed in a digital representation, so speech processing can be regarded as a special case of digital signal processing, applied to speech signal. Aspects of speech processing includes the acquisition, manipulation, storage, transfer and output of digital speech signals.
  • Support vector machines supervised learning models with associated learning algorithms that analyze data and recognize patterns, used for classification and regression analysis.
  • Swarm robotics involves large numbers of mostly simple physical robots. Their actions may seek to incorporate emergent behavior observed in social insects (swarm intelligence).
    • Ant robotics swarm robots that can communicate via markings, similar to ants that lay and follow pheromone trails.
  • Telepresence refers to a set of technologies which allow a person to feel as if they were present, to give the appearance of being present, or to have an effect, via telerobotics, at a place other than their true location.
  • Ubiquitous robotics integrating robotic technologies with technologies from the fields of ubiquitous and pervasive computing, sensor networks, and ambient intelligence.

Contributing fields

Robotics incorporates aspects of many disciplines including electronics, engineering, mechanics, software and arts. The design and control of robots relies on many fields knowledge, including:

Robots

A robot is a machine—especially one programmable by a computer—capable of carrying out a complex series of actions automatically. A robot can be guided by an external control device, or the control may be embedded within.

Types of robots

Autonomous robots robots that are not controlled by humans:

  • Aerobot robot capable of independent flight on other planets
  • Android humanoid robot; resembling the shape or form of a human[3][4]
  • Automaton early self-operating robot, performing exactly the same actions, over and over
  • Animatronic a robot that is usually used for theme parks and movie/tvs show set.
  • Autonomous vehicle vehicle equipped with an autopilot system, which is capable of driving from one point to another without input from a human operator
  • Ballbot dynamically-stable mobile robot designed to balance on a single spherical wheel (i.e., a ball)
  • Cyborg also known as a cybernetic organism, a being with both biological and artificial (e.g. electronic, mechanical or robotic) parts
  • Explosive ordnance disposal robot mobile robot designed to assess whether an object contains explosives; some carry detonators that can be deposited at the object and activated after the robot withdraws[5]
  • Gynoid humanoid robot designed to look like a human female
  • Hexapod (walker) a six-legged walking robot, using a simple insect-like locomotion
  • Industrial robot reprogrammable, multifunctional manipulator designed to move material, parts, tools, or specialized devices through variable programmed motions for the performance of a variety of tasks[6]
  • Insect robot small robot designed to imitate insect behaviors rather than complex human behaviors.[5]
  • Microbot microscopic robots designed to go into the human body and cure diseases
  • Military robot exosuit which is capable of merging with its user for enhanced strength, speed, handling, etc.
  • Mobile robot self-propelled and self-contained robot that is capable of moving over a mechanically unconstrained course.[6]
    • Cruise missile robot-controlled guided missile that carries an explosive payload.
  • Music entertainment robot robot created to perform music entertainment by playing custom made instrument or human developed instruments.
  • Nanobot the same as a microbot, but smaller. The components are at or close to the scale of a nanometer (10−9 meters).
  • Prosthetic robot programmable manipulator or device replacing a missing human limb.[6]
  • Rover a robot with wheels designed to walk on other planets' terrain
  • Service robot machines that extend human capabilities.[6]
  • Snakebot robot or robotic component resembling a tentacle or elephant's trunk, where many small actuators are used to allow continuous curved motion of a robot component, with many degrees of freedom. This is usually applied to snake-arm robots, which use this as a flexible manipulator. A rarer application is the snakebot, where the entire robot is mobile and snake-like, so as to gain access through narrow spaces.
  • Surgical robot remote manipulator used for keyhole surgery
  • Walking robot robot capable of locomotion by walking. Owing to the difficulties of balance, two-legged walking robots have so far been rare, and most walking robots have used insect-like multilegged walking gaits.

By mode of locomotion

Mobile robots may be classified by:

Robot components and design features

  • Actuator motor that translates control signals into mechanical movement. The control signals are usually electrical but may, more rarely, be pneumatic or hydraulic. The power supply may likewise be any of these. It is common for electrical control to be used to modulate a high-power pneumatic or hydraulic motor.[5][6]
  • Delta robot tripod linkage, used to construct fast-acting manipulators with a wide range of movement.
  • Drive power energy source or sources for the robot actuators.[6]
  • End-effector accessory device or tool specifically designed for attachment to the robot wrist or tool mounting plate to enable the robot to perform its intended task. (Examples may include gripper, spot-weld gun, arc-weld gun, spray- paint gun, or any other application tools.)[6]
  • Forward chaining process in which events or received data are considered by an entity to intelligently adapt its behavior.[5]
  • Haptic tactile feedback technology using the operator's sense of touch. Also sometimes applied to robot manipulators with their own touch sensitivity.
  • Hexapod (platform) movable platform using six linear actuators. Often used in flight simulators and fairground rides, they also have applications as a robotic manipulator.
See Stewart platform
  • Hydraulics control of mechanical force and movement, generated by the application of liquid under pressure. c.f. pneumatics.
  • Kalman filter mathematical technique to estimate the value of a sensor measurement, from a series of intermittent and noisy values.
  • Klann linkage simple linkage for walking robots.
  • Manipulator gripper. A robotic 'hand'.
  • Muting deactivation of a presence-sensing safeguarding device during a portion of the robot cycle.[6]
  • Pendant Any portable control device that permits an operator to control the robot from within the restricted envelope (space) of the robot.[6]
  • Pneumatics control of mechanical force and movement, generated by the application of compressed gas. c.f. hydraulics.
  • Servo motor that moves to and maintains a set position under command, rather than continuously moving
  • Servomechanism automatic device that uses error-sensing negative feedback to correct the performance of a mechanism
  • Single point of control ability to operate the robot such that initiation or robot motion from one source of control is possible only from that source and cannot be overridden from another source[6]
  • Slow speed control mode of robot motion control where the velocity of the robot is limited to allow persons sufficient time either to withdraw the hazardous motion or stop the robot[6]
  • Stepper motor motor whose rotation is divided into intervals called 'steps'. The motor can then rotate through a controlled number of steps which allows an exact awareness of the rotated distance.
  • Stewart platform movable platform using six linear actuators, hence also known as a Hexapod
  • Subsumption architecture robot architecture that uses a modular, bottom-up design beginning with the least complex behavioral tasks
  • Teach mode control state that allows the generation and storage of positional data points effected by moving the robot arm through a path of intended motions[6]

Specific robots

  • Aura (satellite) robotic spacecraft launched by NASA in 2004 which collects atmospheric data from Earth[5]
  • Chandra X-ray Observatory robotic spacecraft launched by NASA in 1999 to collect astronomical data[5]
  • Justin
  • Robonaut development project conducted by NASA to create humanoid robots capable of using space tools and working in similar environments to suited astronauts
  • Unimate the first off-the-shelf industrial robot, of 1961

Real robots by region

Robots from Australia
Robots from Britain
Robots from Canada
  • ANAT AMI-100
  • ANATROLLER ARE-100
  • ANATROLLER ARI-100
  • ANATROLLER ARI-50
  • ANATROLLER Dusty Duct Destroyer
  • Canadarm2
  • Dextre
  • hitchBOT
Robots from China
Robots from Croatia
Robots from Czech Republic
  • SyRoTek
Robots from France
Robots from Germany
Robots from Italy
Robots from Japan
Robots from Mexico
Robots from the Netherlands
Robots from New Zealand
Robots from Portugal
Robots from Qatar
Robots from Russia (or former Soviet Union)
Robots from South Korea
Robots from Spain
Robots from Switzerland
Robots from the United States
Robots from Vietnam
International robots

Fictional robots by region

Fictional robots from the United Kingdom
From British literature
From British radio
From British television
Fictional robots from the Czech Republich
From Czech plays
Fictional robots from France
From French ballets
From French literature
Fictional robots from Germany
From German film
From German literature
Fictional robots from Japan
From anime
From manga
Fictional robots from the United States
From American comics
From American film
From American literature
From American television

History of robotics

History of robots

Future of robotics

Robotics development and development tools

Robotics principles

  • Artificial intelligence intelligence of machines and the branch of computer science that aims to create it.
  • Degrees of freedom extent to which a robot can move itself; expressed in terms of Cartesian coordinates (x, y, and z) and angular movements (yaw, pitch, and roll).[5]
  • Emergent behaviour complicated resultant behaviour that emerges from the repeated operation of simple underlying behaviours.
  • Envelope (Space), Maximum volume of space encompassing the maximum designed movements of all robot parts including the end-effector, workpiece, and attachments.[6]
  • Humanoid resembling a human being in form, function, or both.
  • Roboethics
  • Three Laws of Robotics coined by the science fiction author Isaac Asimov, one of the first serious considerations of the ethics and robopsychological aspects of robotics.
  • Tool Center Point (TCP) origin of the tool coordinate system.[6]
  • Uncanny valley hypothesized point at which humanoid robot behavior and appearance is so close to that of actual humans yet not precise or fully featured enough as to cause a sense of revulsion.

Robotics companies

Robotics organizations

Robotics competitions

Robot competition

People influential in the field of robotics

See also

References

  1. According to the Oxford English Dictionary, the term "robotics" was first used in the short story "Liar!" published in the May, 1941 issue of Astounding Science Fiction.
  2. Tandon, Prateek (2017). Quantum Robotics. Morgan & Claypool Publishers. ISBN 978-1627059138.
  3. V. Daniel Hunt (1983), "Appendix A - Glossary", Industrial robotics handbook, Industrial Press Inc., ISBN 978-0-8311-1148-9
  4. Helena Domaine (2006), "Glossary", Robotics, Lerner Publications, ISBN 978-0-8225-2112-9
  5. 1 2 3 4 5 6 7 8 Joseph A. Angelo (2007). Robotics: a reference guide to the new technology. Libraries Unlimited. pp. 258–327. ISBN 978-1-57356-337-6. Retrieved 28 January 2011.
  6. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 "OSHA Technical Manual - SECTION IV: CHAPTER 4 - INDUSTRIAL ROBOTS AND ROBOT SYSTEM SAFETY". Occupational Safety and Health Administration. Retrieved 2011-01-28.
  7. Rail track and Linear track (PDF)
  8. "Improvement of humanlike conversations in humanoid robots".
  9. "Ibuki Child-like Robot Demo". 31 July 2018.
  10. "Ibuki -Breathing life-". YouTube.
  11. "DARPA ROBOTICS CHALLENGE (DRC)". Archived from the original on 20 January 2013. Retrieved 14 January 2013.
Research
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