Patent application number | Description | Published |
20090322763 | Motion Capture Apparatus and Method - Provided are an apparatus and a method of effectively creating real-time movements of a three dimensional virtual character by use of a small number of sensors. More specifically, the motion capture method, which maps movements of a human body into a skeleton model to generate movements of a three-dimensional (3D) virtual character, includes measuring a distance between a portion of a human body to which a measurement sensor is positioned and a reference position and rotation angles of the portion, and estimating relative rotation angles and position coordinates of each portion of the human body by use of the measured distance and rotation angles. | 12-31-2009 |
20100110006 | Remote pointing appratus and method - A remote pointing apparatus is provided. A light receiving unit may receive emitted light. A filtering unit may filter a received signal to a first frequency component, a second frequency component, a third frequency component, and a fourth frequency component. A calculation unit may compare amplitudes of the first frequency component and the second frequency component to calculate a first coordinate axis value of a cursor on a display unit, and compare amplitudes of the third frequency component and the fourth frequency component to calculate a second coordinate axis value of the cursor on the display unit. | 05-06-2010 |
20100309752 | Method and device of measuring location, and moving object - Disclosed is a moving object and a location measuring device and method thereof that may transmit an ultrasound signal to the moving object through a plurality of ultrasound transmitting units, and may estimate a location of the moving object at a current time based on distance information of distances between the moving object and the plurality of ultrasound transmitting units measured based on the transmitted ultrasound, inertia information, and location information of the moving object at a time prior to the current time. | 12-09-2010 |
20110026364 | Apparatus and method for estimating position using ultrasonic signals - A three-dimensional (3D) position estimation apparatus and method using ultrasonic signals may estimate a 3D position based on distances between two ultrasonic signal transmitters and an ultrasonic signal receiver, and direction angles where the ultrasonic signal receiver receives the ultrasonic signals. When the ultrasonic signal receiver moves on a fixed distance, the 3D position estimation apparatus and method may estimate the 3D position of the ultrasonic signal receiver based on the fixed distance and the direction angles where the ultrasonic signal receiver receives the ultrasonic signals. | 02-03-2011 |
20110069167 | Three-dimensional pointing sensing apparatus and method - A three-dimensional (3D) pointing sensing apparatus may be provided. The 3D pointing sensing apparatus may include an image generation unit that may photograph a first light source and a second light source in a light emitting unit, and generate an image including an image of the first light source and an image of a second light source. Also, the 3D pointing sensing apparatus may include an orientation calculation unit that may calculate an orientation of the light emitting unit, using a size difference between the image of the first light source and the image of the second light source in the image. | 03-24-2011 |
20110261270 | System and method for estimating position and direction - A system and method for estimating a position and a direction using an infrared light are provided. The system may measure an intensity of an irradiation light irradiated by each light irradiator through each light receiver, and may estimate a position and a direction of a remote apparatus, based on the measured intensity, a light receiving directivity, and a light emitting directivity. | 10-27-2011 |
20120133584 | Apparatus and method for calibrating 3D position in 3D position and orientation tracking system - An apparatus and method for calibrating a 3D position in a 3D position and orientation tracking system are provided. The apparatus according to an embodiment may track the 3D position and the 3D orientation of a remote device in response to a detection of a pointing event, may acquire positions pointed to by the laser beams, in response to the detection of the pointing event, may generate a 3D reference position, based on information about the pointed to positions and the tracked 3D orientation, may calculate an error using the reference position and the tracked 3D position, and may calibrate the 3D position to be tracked, using the error. | 05-31-2012 |
20120170054 | APPARATUS AND METHOD FOR SENSING HIGH PRECISION SIGNAL USING INFRARED LIGHT - A high precision signal sensing system and method using an infrared light is provided. The high precision signal sensing system may receive, from a light emitting device, a plurality of lights including a first light and a second light, may measure intensities of the first light and the second light, and may measure a light emitting intensity of the light emitting device based on an intensity difference between the measured light receiving intensities. | 07-05-2012 |
20120330594 | METHOD AND APPARATUS FOR ESTIMATING 3D POSITION AND ORIENTATION THROUGH SENSOR FUSION - An apparatus and method for estimating a three-dimensional (3D) position and orientation based on a sensor fusion process is provided. The method of estimating the 3D position and orientation may include estimating a strength-based position and a strength-based orientation of a remote apparatus when a plurality of strength information is received, based on an attenuation characteristic of a strength that varies based on a distance and orientation, estimating an inertia-based position and an inertia-based orientation of the remote apparatus by receiving a plurality of inertial information, and estimating a fused position based on a weighted-sum of the strength-based position and the inertia-based position, and to estimate a fused orientation based on a weighted-sum of the strength-based orientation and the inertia-based orientation. The strength-based position and the strength-based orientation may be estimated based on a plurality of adjusted strength information from which noise is removed using a plurality of previous strength information. | 12-27-2012 |
20130028469 | METHOD AND APPARATUS FOR ESTIMATING THREE-DIMENSIONAL POSITION AND ORIENTATION THROUGH SENSOR FUSION - An apparatus and method of estimating a three-dimensional (3D) position and orientation based on a sensor fusion process. The method of estimating the 3D position and orientation may include determining a position of a marker in a two-dimensional (2D) image, determining a depth of a position in a depth image corresponding to the position of the marker in the 2D image to be a depth of the marker, estimating a 3D position of the marker calculated based on the depth of the marker as a marker-based position of a remote apparatus, estimating an inertia-based position and an inertia-based orientation by receiving inertial information associated with the remote apparatus, estimating a fused position based on a weighted sum of the marker-based position and the inertia-based position, and outputting the fused position and the inertia-based orientation. | 01-31-2013 |
20130226514 | SYSTEM, APPARATUS, AND METHOD FOR ESTIMATING THREE-DIMENSIONAL (3D) POSITION AND DIRECTION PRECISELY - A system, apparatus, and method for precisely estimating a three-dimensional (3D) position and a direction. The 3D position and direction estimation apparatus may estimate a distance between at least one receiver and at least one transmitter and a direction of a remote device, based on intensity information of a signal measured at the at least one receiver, may sequentially select the minimum number of intensity information for estimating the 3D position and the direction of the remote device, in a descending order of robustness against noise, based on the estimated distance and direction of the remote device, and may precisely estimate the 3D position and the direction of the remote device based on the selected intensity information. | 08-29-2013 |
20130253869 | CALIBRATION APPARATUS AND METHOD FOR 3D POSITION/DIRECTION ESTIMATION SYSTEM - Provided is a calibration apparatus and method of a three-dimensional (3D) position and direction estimation system. The calibration apparatus may receive inertia information and intensity information during a predetermined period of time, may calculate distances between a transmitter and the respective receivers, and may calibrate a signal attenuation characteristic of each receiver using the distances between the transmitter and the respective receivers. | 09-26-2013 |