최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0609124 (2009-10-30) |
등록번호 | US-8463438 (2013-06-11) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 12 인용 특허 : 653 |
A control system for a mobile robot (10) is provided to effectively cover a given area by operating in a plurality of modes, including an obstacle following mode (51) and a random bounce mode (49). In other embodiments, spot coverage, such as spiraling (45), or other modes are also used to increase
A control system for a mobile robot (10) is provided to effectively cover a given area by operating in a plurality of modes, including an obstacle following mode (51) and a random bounce mode (49). In other embodiments, spot coverage, such as spiraling (45), or other modes are also used to increase effectiveness. In addition, a behavior based architecture is used to implement the control system, and various escape behaviors are used to ensure full coverage.
1. A mobile robot comprising: a drive mechanism that both drives the robot forward in a drive direction and turns the robot to change the drive direction;a floor cleaner disposed on a first lateral side of the robot, transverse to the drive direction;a forward obstacle sensor system responsive to ob
1. A mobile robot comprising: a drive mechanism that both drives the robot forward in a drive direction and turns the robot to change the drive direction;a floor cleaner disposed on a first lateral side of the robot, transverse to the drive direction;a forward obstacle sensor system responsive to objects encountered by the robot while moving in the drive direction, the forward obstacle sensor system comprising first and second obstacle sensors disposed on a forward portion of the robot, wherein the first obstacle sensor is disposed on the first lateral side of the robot and the second obstacle sensor is disposed on an opposite, second lateral side of the robot with respect to the drive direction;a side sensor positioned to detect proximity of objects on the first lateral side of the robot, transverse to the drive direction; anda drive controller that controls the drive mechanism to turn the robot;wherein the drive controller is configured to, in response to detecting an object by the forward obstacle sensor system proximate the forward portion of the robot, determine an approximate angle at which the detected object was encountered by the robot, and when the angle is on the second lateral side of the robot with respect to the drive direction, turn the robot to position the floor cleaner substantially adjacent the detected object while monitoring with the side sensor proximity of the object on the first lateral side of the robot, and then drive the robot in the drive direction to follow the detected object proximate the first lateral side with the floor cleaner substantially adjacent the detected object. 2. The mobile robot of claim 1, wherein the floor cleaner includes a side brush extending beyond a lateral extent of a housing of the robot, the side brush arranged to sweep debris from beyond a perimeter of the robot for collection by the robot. 3. The mobile robot of claim 2, wherein the forward obstacle sensor system and the side sensor are both responsive to walls, and wherein the drive controller, in response to the forward sensor system detecting a wall in the drive direction, turns the robot until the detected wall is detected on the first lateral side of the robot, and then drives the robot to keep the detected wall on the first lateral side of the robot. 4. The mobile robot of claim 1, wherein the drive controller is further configured to drive the robot to follow an object detected on the first lateral side of the robot, by changing a turning radius to maintain detection of the sensed object by the side sensor; andupon detecting that the object is no longer proximate the first lateral side of the robot, to initiate a turn of the robot toward the first lateral side of the robot in accordance with a turning radius in response to detecting that the followed object is no longer proximate the first lateral side; and then to progressively decrease the turning radius of the robot over time while driving the robot forward, thereby causing the robot to turn more sharply until the robot encounters a change in sensory input. 5. The mobile robot of claim 1, wherein the drive controller determines that an object is no longer proximate the first lateral side of the robot upon transition of the side sensor from a reflection state to a non-reflection state. 6. The mobile robot of claim 1 wherein the drive controller is configured to drive the robot to turn in a spiral having a steadily increasing radius, such that the first lateral side of the robot is positioned on an outward edge of the spiral. 7. The mobile robot of claim 1, further comprising a bump sensor responsive to the robot bumping into an object in the drive direction, and wherein the drive controller, in response to the robot bumping into an object in the drive direction while the robot is following an object on the first lateral side of the robot, turns the robot away from the first lateral side of the robot through a first angle, stops turning the robot when the side sensor detects the bumped object, and then drives the robot forward in the drive direction, such that the robot tends to travel along the bumped object. 8. The mobile robot of claim 7, wherein the drive controller, in response to turning the robot away from the first lateral side of the robot through a turn angle larger than the first angle, without detecting the bumped object with the side sensor, stops turning the robot and then drives the robot forward in the drive direction. 9. A mobile robot comprising: a drive mechanism that both drives the robot forward across a floor in a drive direction and turns the robot to change the drive direction;a proximity sensor responsive to proximity of an object to be followed on a lateral side of the robot;a drive controller that controls the drive mechanism to turn the robot to follow the object on the lateral side of the robot, by changing a robot turning radius to maintain continuous detection of the object by the sensor, including turning the robot toward the lateral side in response to cessation of detection of the object proximate the lateral side; anda drive controller that controls the drive mechanism to turn the robot to follow the object on the lateral side of the robot, by changing a robot turning radius to maintain continuous detection of the object by the sensor, including turning the robot toward the lateral side in response to cessation of detection of the object proximate the lateral side;wherein the proximity sensor is configured to detect the proximity of an object located at an expected position approximately three inches ahead of a drive wheel of the drive mechanism in the drive direction, the proximity sensor comprising an emitter and a detector collimated so that a finite volume of intersection occurs at the expected position. 10. The mobile robot of claim 9, wherein the proximity sensor has a radial detection range of about 0.75 inches. 11. The mobile robot of claim 9, wherein the controller decreases the robot turning radius until the proximity sensor detects an object on the lateral side. 12. The mobile robot of claim 9, wherein the controller sets an initial turning radius and steadily decreases the turning radius until the robot bumps against an object. 13. The mobile robot of claim 9, wherein the sensor is responsive to proximity of a room wall, and wherein the controller drives the robot to follow a proximate wall on the lateral side of the robot by changing a turning radius to maintain continuous detection of the wall by the sensor, including turning the robot toward the lateral side while decreasing the turning radius of the robot in response to cessation of detection of the wall proximate the lateral side. 14. The mobile robot of claim 9, wherein the proximity sensor comprises a one bit sensor for indicating the presence or absence of an object. 15. The mobile robot of claim 9, further comprising a work element defining a work width, and wherein the work width is approximately between 15 centimeters and 25 centimeters. 16. The mobile robot of claim 9, wherein the robot comprises a circular chassis supporting the drive mechanism, the proximity sensor, and the drive controller, and wherein the drive controller is configured to control the drive mechanism to follow an object on the lateral side of the robot using the proximity sensor for a distance equal to approximately twice the diameter of the chassis.
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