| Patent application number | Description | Published |
|---|
| 20090024353 | Method of measuring pose of mobile robot and method and apparatus for measuring position of mobile robot using the same - A method of measuring pose of mobile robot, and method and apparatus for measuring for measuring position of mobile robot using the same are provided. The apparatus for measuring the pose of a mobile robot includes an accelerometer measuring acceleration of the mobile robot in a forward direction, a uniform-motion-determining unit determining whether the mobile robot belongs to a uniform motion section, an acceleration section, or a deceleration section, and a pose-calculating unit calculating a pitch and a roll of the mobile robot in the uniform motion section, using the relationship between the measured acceleration in the forward direction and the acceleration due to gravity. | 01-22-2009 |
| 20090125175 | Apparatus and method for generating three-dimensional map using structured light - A three-dimensional map-generating apparatus and method using structured light. The apparatus for generating a three-dimensional map using structured light includes an odometer detecting the pose of a mobile robot, and a distance-measuring sensor including a light source module that emits light upward and a camera module that captures an image formed by light reflected from an obstacle, and measuring a distance to the obstacle using the captured image. The apparatus measures a distance to the obstacle using the distance-measuring sensor while changing the relative pose of the mobile robot, thereby generating a three-dimensional map. | 05-14-2009 |
| 20100070078 | Apparatus and method for building map - An apparatus and method for building a map are provided. According to the apparatus and method, a path is generated on the basis of the degrees of uncertainty of features extracted from an image obtained while a mobile robot explores unknown surroundings, and the mobile robot travels along the generated path. The path based on the degrees of uncertainty of the features is generated and this may increase the accuracy of a feature map of the mobile robot or accuracy in self localization. | 03-18-2010 |
| 20100152945 | Apparatus and method of localization of mobile robot - A localization method and localization device of a mobile robot is provided. In one aspect, characteristic information of a reference object is stored in advance to be used as a landmark for localization, and reference characteristic information is defined by utilizing the stored characteristic information and characteristic information obtained at an initial location of the mobile robot. Therefore, the accuracy of localization can be increased without the use of additional artificial landmarks. | 06-17-2010 |
| 20100324773 | Method and apparatus for relocating mobile robot - Provided is a method and apparatus for relocating a mobile robot when the mobile robot loses its position due to slipping. The method includes storing a moving path of the mobile robot and effective points on the moving path capable of finding an absolute position from a peripheral image; detecting an abnormal motion of the mobile robot; and when the abnormal motion of the mobile robot is detected, controlling the mobile robot to move to the effective point along a predetermined return path. | 12-23-2010 |
| 20110054686 | Apparatus and method detecting a robot slip - Disclosed is an apparatus and method for detecting slip of a robot. The robot periodically repeats a pattern movement in the order of a uniform motion, a decelerating motion, and an accelerating motion, or in the order of a uniform motion, an accelerating motion, and a deceleration motion. The occurrence of slip of the robot performing a pattern movement is determined by comparing a first acceleration of the robot measured by an acceleration sensor and a second acceleration of the robot measured by an encoder. | 03-03-2011 |
| 20110085699 | Method and apparatus for tracking image patch considering scale - A method and apparatus for tracking an image considering scale are provided. A registered image patch may be divided into a scale-invariant image patch and a scale-variant image patch according to a predetermined scale invariance index (SII). If a registered image patch within an image is a scale-invariant image patch, the scale-invariant image patch is tracked by adjusting its position, while if the registered image patch is a scale-variant image patch, the scale-invariant image patch is tracked by adjusting its position and scale. | 04-14-2011 |
| 20110137461 | Mobile robot and method for moving mobile robot - Disclosed is a mobile robot and method generating a path of the mobile robot, capable of quickly moving the mobile robot to a location at which the mobile robot is able to detect a docking station. A first configuration space map is built by expanding an obstacle area including an obstacle by a first thickness, and a second configuration space map is built by expanding the obstacle area by a second thickness which is less than the first thickness. A path is generated by sequentially using the first configuration space map and the second configuration space map. | 06-09-2011 |
| 20110166763 | Apparatus and method detecting a robot slip - An apparatus and method for detecting a slip of a robot. According to the apparatus and method, the probability of a slip occurring may be preliminarily determined using a first acceleration obtained from an acceleration sensor and a second acceleration obtained from an encoder. Then, finally the occurrence of a slip may be determined using a change in a driving control signal. Thus, accurate detection of a slip can be realized while preventing incorrect determination of slip occurrence. | 07-07-2011 |
| 20110205338 | Apparatus for estimating position of mobile robot and method thereof - An apparatus and method for estimating the position of a mobile robot capable of reducing the time required to estimate the position is provided. The mobile robot position estimating apparatus includes a range data acquisition unit configured to acquire three-dimensional (3D) point cloud data, a storage unit configured to store a plurality of patches, each including points around a feature point which is extracted from previously acquired 3D point cloud data, and a position estimating unit configured to estimate the position of the mobile robot by tracking the plurality of patches from the acquired 3D point cloud data. | 08-25-2011 |
