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Line 1: {{Short description\|Mechanical sensors, often based on human senses}} ~~{{multiple issues\|~~ [[File:~~Robot~~Роботизовані ~~sensors~~датчики.jpg\|thumb\|right~~\|size~~\|300px\|Types of [[robot]] sensors ([[Light]] and [[Sound]] sensors)]]▼ ~~{{Orphan\|date=March 2015}}~~ '''~~Robot~~Robotic sensors''' are used to estimate a [[robot]]'s condition, ~~its~~and environment. ~~and~~These ~~passes~~signals ~~that~~are ~~signal~~passed to ~~robot~~a controller ~~in order~~ to ~~control~~enable ~~robot~~appropriate ~~functionality~~behavior.<ref>{{cite web \| url=http://www.robotstorehk.com/sensor.html \| title=Automation and Robotics ( Robot Store ) \| publisher=Robot Store (HK) \| accessdate=23 January 2015}}</ref><ref>{{cite web \| url=http://www.active-robots.com/sensors \| title=Robotics sensors (Active) \| publisher=[[Active Robots]] \| accessdate=23 January 2015}}</ref>▼ ~~{{Copy edit\|for=grammar\|date=March 2015}}~~ }} Sensors in robots are based on the functions of human [[sensory organ]]s. Robots require extensive information about their environment in order to function effectively. ▲[[File:Robot sensors.jpg\|thumb\|right\|size\|300px\|Types of [[robot]] sensors ([[Light]] and [[Sound]] sensors)]] ▲'''Robot sensors''' are used to estimate [[robot]] condition, its environment and passes that signal to robot controller in order to control robot functionality.<ref>{{cite web \| url=http://www.robotstorehk.com/sensor.html \| title=Automation and Robotics ( Robot Store ) \| publisher=Robot Store (HK) \| accessdate=23 January 2015}}</ref><ref>{{cite web \| url=http://www.active-robots.com/sensors \| title=Robotics sensors (Active) \| publisher=Active Robots \| accessdate=23 January 2015}}</ref> == ~~Part-Picking~~Classification == Sensors provide analogs to human senses and can monitor other phenomena for which humans lack explicit sensors. In special parts feeder, an alignment pallet are not necessarily required since automatic system can be constructed at low cost alignment operation like vision sensors that perform inspection, pick bins, etc. Insertion [[robot]]s can perform fitting and insertion operation of [[machine]] parts precisely with the help of different kind of [[sensor]]. Different phases parts are attached by [[robot]] after matching. It can perform tasks that are beyond from human approach.<ref>{{cite web \| url=http://www.universalrobotics.com/random-bin-picking \| title=Random Bin Picking & Automated Assembly \| publisher=Universal \| accessdate=23 January 2015}}</ref>▼ * Simple Touch: Sensing an object's presence or absence. * Complex Touch: Sensing an object's size, shape and/or hardness. * Simple Force: Measuring force along a single axis. * Complex Force: Measuring force along multiple axes. * Simple Vision: [[Edge detection\|Detecting edges]], holes and corners. * Complex Vision: [[Object recognition\|Recognizing objects]]. * [[proximity sensor\|Proximity]]: Non-contact detection of an object. ~~Robot~~Sensors ~~Sensation~~can ~~allows~~measure ~~robot~~physical toproperties, ~~measure~~such as the distance between ~~object~~objects, the presence of light, ~~frequency of sound etc. depending on~~and the ~~type~~frequency of ~~sensors embedded in [[robot]]~~sound.<ref>{{cite web \| url=http://www.britishpathe.com/video/robot-sensation \| title=Robot Sensation \| publisher=British Pathe \| accessdate=27 January 2015}}</ref>▼ ~~== Robot Sensation ==~~ ~~Robot~~They can measure:▼ ▲Robot Sensation allows robot to measure distance between object, presence of light, frequency of sound etc. depending on the type of sensors embedded in [[robot]].<ref>{{cite web \| url=http://www.britishpathe.com/video/robot-sensation \| title=Robot Sensation \| publisher=British Pathe \| accessdate=27 January 2015}}</ref> * Object Proximity: ~~Presence~~The presence/absence of an object, bearing, color, distance between objects.▼ ▲Robot can measure: * Physical orientation. The co-ordinates of object in space.▼ ▲* Object Proximity: Presence/absence of object, bearing, color, distance between objects. * Heat: The ~~Wavelength~~wavelength of infrared or ultra violet rays, temperature, magnitude, direction.▼ ▲* Physical orientation. co-ordinates of object in space. * Chemicals: ~~Robot can measure~~The presence, identity, and concentration of chemicals or reactants.▼ ▲* Heat: Wavelength of infrared or ultra violet rays, temperature, magnitude, direction. * Sound: ~~Presence~~The presence, frequency, and intensity of sound.<ref>{{cite web \| url=http://www.robotplatform.com/knowledge/sensors/types_of_robot_sensors.html \| title=Types of Robot Sensors \| publisher=Robot ~~Plateform~~Platform \| accessdate=23 January 2015}}</ref>▼ ▲* Chemicals: Robot can measure presence, identity, concentration of chemicals or reactants. * Light: Presence of light, different color, intensity of light. Motion controllers, potentiometers, tacho-generators and encoder are used as joint sensors, whereas strain-gauge based sensing is used at the end-effector ___location for contact force control. ▲* Sound: Presence, frequency, intensity.<ref>{{cite web \| url=http://www.robotplatform.com/knowledge/sensors/types_of_robot_sensors.html \| title=Types of Robot Sensors \| publisher=Robot Plateform \| accessdate=23 January 2015}}</ref> ==Internal sensor== It is the part of the robot. Internal sensors measure the robot's internal state. They are used to measure position, velocity and acceleration of the robot joint or end effectors. === Position sensor === [[Position sensor]]s measure the position of a joint (the degree to which the joint is extended). They include: [[Encoder (position)\|Encoder]]: a digital optical device that converts motion into a sequence of digital pulses. * [[Potentiometer]]: a variable resistance device that expresses linear or angular displacements in terms of voltage. * [[Linear variable differential transformer]]: a displacement transducer that provides high accuracy. It generates an AC signal whose magnitude is a function of the displacement of a moving core. * [[Synchro\|Synchros]] and [[Resolver (electrical)\|Resolvers]] === Velocity Sensor === A [[velocity sensor\|velocity or speed sensor]] measures consecutive position measurements at known intervals and computes the time rate of change in the position values. == Applications == ▲In ~~special~~a parts feeder, ana ~~alignment~~vision ~~pallet are not necessarily required since automatic system~~sensor can beeliminate ~~constructed~~the atneed ~~low~~for ~~cost~~an alignment ~~operation~~pallet. ~~like~~Vision-enabled ~~vision~~insertion ~~sensors~~robots ~~that~~can ~~perform inspection, pick bins, etc. Insertion [[robot]]s can~~precisely perform fitting and insertion ~~operation~~operations of [[machine]] parts ~~precisely with the help of different kind of [[sensor]]. Different phases parts are attached by [[robot]] after matching. It can perform tasks that are beyond from human approach~~.<ref>{{cite web \| url=http://www.universalrobotics.com/random-bin-picking \| title=Random Bin Picking & Automated Assembly \| publisher=Universal \| accessdate=23 January 2015}}</ref> ==See also== * [[Robotic sensing]] ~~{{Portal\|Robotics}}~~ * [[Robot]] * [[Robotics]] * [[Tactile sensor]] * [[Robot locomotion]] Line 32 ⟶ 54: * [[Index of robotics articles]] * [[Mechatronics]] * [[Outline of robotics]] ==References== {{reflist\|30em}} [[Category:Robotics hardware]] [[Category:~~Robots~~Robotic sensing]] [[Category:Sensors]]