TH10772A3 - "A system for photographing creatures that simulates wearing a 3D jewelry on the head using virtual technology" - Google Patents

Abstract

DC60 (10/04/15) This invention involves a imaging system that simulates the wearing of 3D head ornaments using virtual technology. Which consists of Input unit Processor And display unit Where the unit receives the data It serves to import image data on the touch screen (Touch Screen), which can display movies in real time (Real time) can be taken and displayed in a manner. Show pictures before recording (Pre View) has the processor. Will serve to process information received from An input unit with an operating system that supports face positioning libraries and The system supports three dimensions (OpenGLES Open Graphic Library for Embedded System) and has a motion detection and display unit. It displays the image data received by the processor, which has a sensor that detects the magnetic field. And the inclination of the device obtained from Gravity Sensor (G-Sensor) to detect the movement of image data obtained from Input unit Come to help calculate the rotation of the 3D jewelry from memory by starting with receiving the value from 2 sensors: one that measures the magnetic field. And a set that measures the inclination of the device To control the rotation and tilt level of 3D ornaments and display units can be Display a 3D jewelry that overlays the image data received from the head position input. Of organisms detected by the system. Revised 04/10/2015 The invention involves a system of photographic organisms that simulate the wearing of 3D jewelry on the head using virtual technology. Which consists of Input unit Processor And display unit Where the unit receives the data It serves to import image data on the touch screen (Touch Screen), which can display movies in real time (Real time) can be taken and displayed in a manner. Show pictures before recording (Pre View) has the processor. Will serve to process information received from An input unit with an operating system that supports face positioning libraries and The system supports three dimensions (OpenGLES: Open Graphic Library for Embedded System) and has a motion detection and display unit. It displays the image data received from the processor, which the processor has a sensor used to detect magnetic fields. And the inclination of the device obtained from Gravity Sensor (G-Sensor) to detect the movement of image data obtained from Input unit Come to help calculate the rotation of the 3D jewelry from memory by starting with receiving the value from 2 sensors: one that measures the magnetic field. And a set that measures the inclination of the device To control the rotation and tilt level of 3D ornaments and display units can be Display a 3D jewelry that overlays the image data received from the head position input. Of organisms that the system can detect -------------------------------------------------- The invention involved a system of photographing creatures that simulate the wearing of 3D jewelry on the head with virtual technology. Which consists of Input unit Processor And display unit Where the unit receives the data It serves to import image data on the touch screen (Touch Screen), which can light animation in real time (Real time) can be taken and displayed in a manner. Show pictures before recording (Pre View) has the processor. Will serve to process information received from An input unit with an operating system that supports face positioning libraries and Three-dimensional support system (OpenGLES: Open Graphic Library for Embedded Ststem) and has a motion detection and display unit. It displays the image data received from the processor, which the processor has a sensor that detects a magnetic field. And the inclination of the device obtained from Gravity Sensor (G-Sensor) to detect the movement of image data obtained from Input unit Come to help calculate the rotation of the 3D jewelry from memory by starting with receiving the value from 2 sensors: one that measures the magnetic field. And a set that measures the inclination of the device To control the rotation and the level, tilt and turn of the 3D ornaments and display units can be Display a 3D jewelry that overlays the image data received from the head position input. Of the organisms that the system can detect:

Claims (8)

(All) rights which will not appear on the announcement page: EDIT 10/04/2015 1. A creature imaging system that simulates the wearing of 3D head ornaments using virtual technology. Get input That serves to import image data on the touch screen (Touch Screen), which can light animation in real time (Real time) can be taken and displayed in a way that shows the image before recording (Pre View). - Memory. Remember that serves to store 3D jewelry - the processor. Serves to process information received from memory and units. Get input with an operating system that supports the location detection library of Face and 3D support system (OpenGLES: Open Graphic Library for Embedded Ststem) and motion detection - a display unit that displays the image data received from the processor. Whose characteristics are The processor has a sensor that detects the magnetic field and the inclination of the device obtained from the Gravity Sensor (G-Sensor) to detect the presence of a magnetic field. Movement of the image data obtained from the input unit Come to help calculate the rotation of 3D jewelry from memory It starts by taking a value from two sensors, namely one that measures the magnetic field. And a set that measures the inclination of the device To control the rotation and tilt level of the 3D jewelry and display units, 3D jewelry can be displayed that overlays the image data received from the input into the head position of the organism at the system. Can detect. 2. Life imaging system that simulates the wearing of 3D jewelry on the head with virtual technology. According to claim 1, where the processor has an Android operating system (Android) 3. A photographic system that simulates a 3D wearing of jewelry on the head with virtual technology. According to the claim 1 or 2 that can save images from the display unit after image processing. 4. A living imaging system that simulates the wearing of 3D jewelry on the head using virtual technology. According to any one of the 1 to 3 claims Where the audio data can also be recorded. 5. A living imaging system that simulates wearing a 3D jewelry on the head with virtual technology. According to any one of the 1 to 4 claims Where the processor receives motion values from the Gravity Sensor (G-Sensor) (309) 6. A system that simulates the wearing of 3D jewelry on the head with virtual technology. According to claim 5, where the processor operates as follows: - Receive image data from the input unit (302) - Determine the sensor value from magnetic field detection and device inclination (502 and 503) from Measurement of the desired position relative to the initial position of the organism. By performing calculations Rotation matrix (504) and adjust the sensor value to match the new axis position of the organism (505), measuring the difference in the axial position between the starting point and the desired point and the horizontal inclination value. Tilt-shift to the desired point from the beginning. To control rotation 3D jewelry (510), where the value is measured as the difference of the axial position between the starting point and The desired point is to control the rotation around the Y axis. Of living things (511), while the value of the inclination in The change in tilt will control the rotation around the X axis. Life (512) - converts image data from input into bitmap format to find the position of living faces. The search results will be the position of the face with size (330) - overlay the 3D jewelry image data with the image data received from the input unit into the head position of the organism that the processor can detect. Yes - Estimate the position of the head from the size of the face. And the desired 3D ornaments will be selected for display in the display unit. By showing the location coordinates Of the 3-D accessory is the coordinate of the X-axis Y-axis and Z-axis While displaying visual information of Organisms are the coordinates of the X-axis and the Y-axis - converts the coordinates of the visual data of the organisms expressed as the X-axis and Y-axis coordinates to the positions and dimensions of the organisms in the X-axis coordinates. Y-axis and Z-axis (307) 7. Imaging system that simulates the wearing of 3D jewelry on the head using virtual technology. According to claim 6, where coordinate transformation of such organisms by obtaining positional information And the size of the face of the object that the system can detect Then send it as the coordinates of the X-axis and Y-axis to the processor to create a 4x1 matrix where the first value of the matrix is the X-value that is normalized to be between -1 and 1. The second value of The matrix is the Y value that the normalization is given. The values are between -1 and 1, and the third and fourth are -1 and 1 respectively, while the system supports three dimensions. (OpenGLES: Open Graphic Library for Embedded System) will send the metrics needed to display the X-axis coordinate format Y-axis and axis sets are projection matrix and Modelview Matrix (402 and 403), then the project metric is multiplied with the Modelview Matrix, the matrix t (T) (405) is the size. 4x4, then the inverse of the matrix T (T) is obtained, the matrix T-pilm (T \ ') (406) is then multiplied by the matrix N (N) as a metric. X Result (Out) (412) which will be the coordinate of the WX axis. The wy and wz axes (wx, wy, wz), which are 3D coordinates for rendering 3D models, with the wx (wx) axis equal to Zero result matrix divided by three resulting matrix. (Out [0] / Out [3]) The wy axis is valued as one result matrix divided by three result matrix. (Out [1] / Out [3]) and the axis wz (wz) are equal to two resulting matrix divided by the three result matrix (Out [2] / Out [3]) respectively (413). WX coordinate value WWY axis The resulting WZ (wx, wy, wz) axis is used to determine the position of the 3D model, the size of the resulting face. And helps determine the life span (414) to obtain the size and position that Suitable for the head on the image data displayed in the display unit. 8. A system that simulates the wearing of 3D jewelry on the head using virtual technology. According to any 1 to 7 claim Where the image processor can modify style and color Of 3D accessories according to user preferences via touch screen (308) ------------------------------ -------------------------------------------------- --------------------- 1. Life imaging system that simulates the wearing of 3D jewelry on the head using virtual technology consists of: - Input unit. That serves to import image data on the touch screen (Touch Screen), which can light motion pictures in real time (Real time) can be taken and displayed in a way that displays the image before recording (Pre View). - Memory. Remember that serves to store jewelry 3D - the processor. Serves to process information received from memory and units. Get input with an operating system that supports the location detection library of Face and 3D support (OpenGLES: Open Graphic Library for Embedded Ststem) and has a motion detection system - a display unit that displays the image data received from the processor. Whose characteristics are The processor has a sensor that detects the magnetic field and the inclination of the device obtained from the Gravity Sensor (G-Sensor) to detect the presence of a magnetic field. Movement of the image data obtained from the input unit Come to help calculate the rotation of 3D jewelry from memory It starts by taking a value from two sensors, namely one that measures the magnetic field. And a set that measures the inclination of the device To control the rotation and tilt level of the 3D jewelry and display units, 3D jewelry can be displayed that overlays the image data received from the input into the head position of the organism at the system. Can be detected 2. A photographic system that simulates wearing a 3D jewelry on the head using virtual technology. According to claim 1, where the processor has an Android operating system (Android). 3. Life imaging system that simulates wearing a 3D jewelry on the head using virtual technology. According to claim 1 or 2 that can save images from the display unit after image processing. 4. A life photography system that simulates the 3D head wearing of jewelry with virtual technology. According to any one of the 1 to 3 claims Where audio data can still be recorded 5. A life photography system that simulates a 3D jewelry wearing on the head with virtual technology. According to any one of the 1 to 4 claims Where the processor receives motion values from the Gravity Sensor (G-Sensor) (309) 6. A photographic system that simulates wearing a 3D jewelry on the head using virtual technology. According to claim 5, where the processor operates as follows: - Receive image data from the input unit (302) - Determine the sensor value from magnetic field detection and device inclination (502 and 503) from Measurement of the desired position relative to the starting position of the organism. By performing calculations Rotation matrix (504) and adjust the sensor value to match the new axis position of the organism (505), measuring the difference in the axial position between the starting point and the desired point and the horizontal inclination value. Tilt-shift to the desired point from the beginning. To control rotation 3D jewelry (510), where the value is measured as the difference of the axis position between the starting point and The desired point is to control the rotation around the Y axis. Of living things (511) while the value of the inclination in The change in tilt will control the rotation around the X axis. Life (512) - converts image data from input into bitmap format to find the position of living faces. The search results will be the position of the face with size (330). - The 3D jewelry image data is overlayed with the image data received from the data acquisition unit. Into the head position of the organism that the processor can detect - estimate the head position based on the size of the face And the desired 3D ornaments will be selected for display in the display unit. By showing the position coordinates Of the 3-D accessory is the coordinate of the X-axis Y-axis and Z-axis While displaying visual information of Organisms are the coordinates of the X-axis and the Y-axis - converts the coordinates of the visual data of living organisms expressed as the coordinates of the X-axis and the Y-axis. It is the position and size of the organisms in the coordinate of the X axis. Y-axis and Z-axis (307) 7. Life imaging system that simulates wearing a 3D jewelry on the head using virtual technology. According to claim 6, where coordinate transformation of such organisms by obtaining positional information And the size of the face of the object that the system can detect Then send it as the X-axis and Y-axis coordinates for the processor to generate a 4x1 matrix where the first value of the matrix is an X-value that is normalized to be between -1 and 1 the second value. Of the matrix is the Y value that the normalized to have The values are between -1 and 1, and the third and fourth are -1 and 1 respectively, while the system supports three dimensions. (OpenGLES: Open Graphic Library for Embedded System) will send the metrics needed to display the X-axis coordinate format Y-axis and axis sets are projection matrix and Modelview Matrix (402 and 403), then the project metric is multiplied with the Modelview Matrix, the matrix t (T) (405) is the size. 4x4, then the inverse of the matrix T (T) is obtained, the matrix T-pilm (T \ ') (406) is then multiplied by the matrix N (N) as a metric. X Result (Out) (412) which will be the coordinate of the WX axis. The wy and wz axes (wx, wy, wz), which are 3D coordinates for rendering 3D models, with the wx (wx) axis equal to Zero result matrix divided by three result matrix. (Out [0] / Out [3]) The wy axis is valued as one result matrix divided by three result matrix. (Out [1] / Out [3]) and the axis wz (wz) are equal to the two resulting matrix divided by the three result matrix (Out [2] / Out [3]) respectively (413). WX coordinate value WWY axis The resulting WZ (wx, wy, wz) axis is used to determine the position of the 3D model, the size of the resulting face. And helps determine the life span (414) to obtain the size and position that Suitable for the head on the image data displayed in the display unit. 8. A photographic system that simulates wearing a 3D jewelry on the head using virtual technology. According to any 1 to 7 claim Where the image processor can modify style and color Of 3D accessories according to user preferences via touch screens (308)