Patent application number | Description | Published |
20080232678 | Localization method for a moving robot - A localization method of a moving robot is disclosed in which the moving robot includes: capturing a first omni-directional image by the moving robot; confirming at least one node at which a second omni-directional image having a high correlation with the first omni-directional image is captured; and determining that the moving robot is located at the first node when the moving robot reaches a first node, at which a second omni-directional image having a highest correlation with the first omni-directional image is captured, from among the at least one node. | 09-25-2008 |
20090154769 | Moving robot and moving object detecting method and medium thereof - A moving robot and moving object detecting method and medium thereof is disclosed. The moving object detecting method includes transforming an omni-directional image captured in the moving robot to a panoramic image, comparing the panoramic image with a previous panoramic image and estimating a movement region of the moving object based on the comparison, and recognizing that a movement of the moving object exist in the estimated movement region when the area of the estimated movement region exceeds the reference area. | 06-18-2009 |
20090154791 | Simultaneous localization and map building method and medium for moving robot - A simultaneous localization and map building (SLAM) method and medium for a moving robot is disclosed. The SLAM method includes extracting a horizontal line from an omni-directional image photographed at every position where the mobile robot reaches during a movement of the mobile robot, correcting the extracted horizontal line, to create a horizontal line image, and simultaneously executing a localization of the mobile robot and building a map for the mobile robot, using the created horizontal line image and a previously-created horizontal line image. | 06-18-2009 |
20090276092 | Robot and method of building map therefor - Disclosed are a robot, which builds a map using a surface data of a three-dimensional image, from which a dynamic obstacle is removed, and a method of building a map for the robot. The method includes sequentially acquiring first and second surface data of a route on which the robot moves; matching the first and second surface data with each other to calculate a difference between the first and second surface data; detecting a dynamic obstacle from the first and second surface data according to the difference between the first and second surface data; generating a third surface data by removing the dynamic obstacle from at least one of the first and second surface data; and matching the third surface data and any one of the first and second surface data with each other to build the map. | 11-05-2009 |
20090292394 | Apparatus for locating moving robot and method for the same - An apparatus and a method of locating a moving robot are disclosed. The apparatus includes a storage unit storing information on straight lines of wall on a map, a state quantity detection unit detecting quantity of state of the robot running along the wall, and a control unit estimating an interior position of the robot by obtaining straight line information based on the detected state quantity and matching the obtained straight line information with the stored straight line information. | 11-26-2009 |
20090295324 | Device and method for controlling manipulator - Disclosed herein are a device and method of controlling a manipulator. The device includes a device to control a manipulator, including a sensing unit to sense a joint position and joint torque of the manipulator a disturbance estimator to estimate disturbance torque using a state space equation with respect to the manipulator having the sensed joint position and joint torque as input; and a controller to control the manipulator based on the estimated disturbance torque. | 12-03-2009 |
20090321150 | Walking robot and method of controlling the same - Disclosed are a walking robot and a method of controlling the same, in which one method is selected from a ZMP control method and a FSM control method. Based on characteristics of a motion to be performed, the current control mode of the walking robot is converted into a different control mode, and the motion is performed based on the converted control mode, to enhance the efficiency and performance of the walking robot. The method includes receiving an instruction to perform a motion; selecting any one mode, which is determined to be more proper to perform the instructed motion, out of a position-based first control mode and a torque-based second control mode; and performing the instructed motion according to the selected control mode. | 12-31-2009 |
20100040279 | METHOD AND APPARATUS TO BUILD 3-DIMENSIONAL GRID MAP AND METHOD AND APPARATUS TO CONTROL AUTOMATIC TRAVELING APPARATUS USING THE SAME - A method and apparatus to build a 3-dimensional grid map and a method and apparatus to control an automatic traveling apparatus using the same. In building a 3-dimensional map to discern a current location and a peripheral environment of an unmanned vehicle or a mobile robot, 2-dimensional localization and 3-dimensional image restoration are appropriately used to accurately build the 3-dimensional grid map more rapidly. | 02-18-2010 |