RU2008101723A - METHOD OF INPUT USING THE REMOTE INDICATOR, COMPLEX REMOTE INDICATOR ITS IMPLEMENTING AND METHOD OF IDENTIFICATION USING THEM - Google Patents

Abstract

1. The method for entering information using a remote pointer consists in determining the coordinates of a point on the screen to which the remote pointer is directed due to the fact that photodiodes and LEDs are sequentially placed around the perimeter of the screen, the space in front of the screen is illuminated with LEDs, and , at least four corner reflectors, from which the reflected light is received by photodiodes, and to calculate the coordinates of the said point, LEDs and sections of photodiodes are determined that give the largest differences in the magnitude of photocurrents. ! 2. The method according to claim 1, characterized in that the distance between adjacent photodiodes is taken as a unit of coordinates in which the point coordinates are calculated. ! 3. The method according to claim 1, characterized in that the photodiodes, light-emitting diodes and the reflective coating of the corner reflectors are designed to operate in the infrared range. ! 4. Method according to claim 1, characterized in that the LEDs alternately emit a modulated signal. ! 5. The method according to claim 1, characterized in that the coordinates of the point are determined by the intersection of perpendicular lines passing through 3 or 4 LEDs and sections of photodiodes that give the largest difference in the value of photocurrents. ! 6. The method according to claim 1, characterized in that if there are 4 segments of the perimeter on the entire perimeter, on which photodiodes generate photocurrents with relatively equal differences in the magnitude of photocurrents, the point is displayed as a cursor, and if on 3- x segments of the perimeter, photodiodes generate photocurrents with relatively equal differences in the magnitude of photocurrents, and on the 4th segment of the perimeter, photodiodes generate a minimum value of �

Claims (28)

1. The way to enter information using the remote pointer is to determine the coordinates of the point on the screen where the remote pointer is directed due to the fact that photodiodes and LEDs are sequentially placed along the screen perimeter, light-emitting diodes illuminate the space in front of the screen, and place on the remote pointer at least four corner reflectors from which the reflected light is received by photodiodes, moreover, to calculate the coordinates of the said point, LEDs and sections of the photodiodes are determined, I give s greatest differences in the magnitude of the photocurrent. 2. The method according to claim 1, characterized in that the distance between adjacent photodiodes is taken as the coordinate unit in which the coordinates of the point are calculated. 3. The method according to claim 1, characterized in that the photodiodes, LEDs and reflective coating of corner reflectors are designed to operate in the infrared range. 4. The method according to claim 1, characterized in that the LEDs alternately emit a modulated signal. 5. The method according to claim 1, characterized in that the coordinates of the point are determined by the intersection of the perpendicular lines passing through 3 or 4 LEDs and sections of the photodiodes giving the greatest difference in the magnitude of the photocurrents. 6. The method according to claim 1, characterized in that if there are 4 segments of the perimeter on the entire perimeter, on which the photodiodes generate photocurrents with relatively equal drops in the magnitude of the photocurrents, the point is displayed in the form of a cursor, and if 3- In the segments of the perimeter, the photodiodes generate photocurrents with relatively equal differences in the magnitude of the photocurrents, and on the 4th segment of the perimeter the photodiodes generate the minimum value in the magnitude of the photocurrents, the point is displayed in the form of a pen, when moving which the path of the pen is displayed on the screen. 7. The method according to claim 1, characterized in that scanners are additionally installed near the screen, fixing the proximity of the remote pointer to the plane of the screen, and use this information to control the cursor. 8. The method according to claim 1 or 7, characterized in that the information about the proximity of the remote pointer to the screen is used by analogy with clicking the left mouse button to drag objects on the screen, and information about the simultaneous approach and rotation of the remote pointer is used by analogy with the double left mouse click. 9. The complex is a remote pointer, consisting of a pointer, at the end of which there are at least four corner reflectors, which are directed in different directions around the longitudinal imaginary axis of the pointer with a certain distance between the faces, and a screen, along the perimeter of which LEDs and photodiodes are sequentially placed which are connected to an analog-to-digital converter, which, in turn, is connected to a computer system. 10. The complex remote pointer according to claim 9, characterized in that the corner reflectors are made of reflective plates in the form of trihedral angles, and a total of 8 pieces on one pointer. 11. The complex remote pointer according to claim 9, characterized in that the corner reflectors are made of reflective plates in the form of dihedral angles consisting of mutually perpendicular plates, and the corner reflectors are interconnected by the lateral edges of the plates. 12. The complex remote pointer according to claim 9, characterized in that the pointer further comprises a shutter configured to overlap the reflective surface of one or two corner reflectors, and a rod located between the corner reflectors, actuating the shutter by pressing the rod. 13. The complex remote pointer according to claim 9, characterized in that additionally scanners are installed near the screen, consisting of a photodiode array, a focusing lens, a point source of optical radiation and directed to the space in front of the screen plane. 14. The complex remote pointer according to claim 9, characterized in that the pointer is made in the form of a thimble. 15. The complex remote pointer according to claim 9, characterized in that the pointer further comprises a transponder, and a reader is additionally installed near the screen. 16. The complex remote pointer according to claim 9, characterized in that for the differentiated reception of the reflected signals, LEDs are used that emit in different ranges, and additionally use filters on corner reflectors and on photodiodes. 17. The complex is a remote pointer, consisting of a scanner containing a point source of optical radiation and a photodiode array with a focusing lens located next to it, which is connected to a computer system, and a pointer on which there are buttons, each of which is made of a key, four corner reflectors , which are located at a certain distance from each other with ribs directed to the axis, and rotatable shutters, driven by a key, overlapping mirror keys when pressing the key golovy reflectors. 18. The complex remote pointer according to claim 17, characterized in that the corner reflectors are made of three mutually perpendicular plates with a reflective surface, and a gap is formed between one of the plates and two other plates for passing through the shutter. 19. The complex remote pointer according to 17, characterized in that the shutters are made in the form of a single plate in the shape of a butterfly with a hole in the center. 20. The complex remote pointer according to 17, characterized in that the scanner is mounted on the frame of the TV or on the edge of the projector screen. 21. The complex remote pointer according to claim 17, characterized in that the pointer is made in the form of a hollow tube that can be worn on the finger, while the buttons are placed on the side of the tube, the scroll wheel around the tube, and for the buttons and for the scroll wheel use common corner reflectors and general scanner. 22. The complex remote pointer according to claim 17, characterized in that for the differential reception of the reflected signals, LEDs are used that emit in different ranges and additionally use filters on corner reflectors and photodiodes. 23. The complex is a remote pointer, consisting of a scanner containing a point source of optical radiation and a photodiode array with a focusing lens located next to it, which is connected to a computer system, and a pointer on which there is a scroll wheel and four corner reflectors, which are located at some distance from each other with ribs directed to the axis, and the corner reflectors are made to rotate around this axis, driven by a scroll wheel. 24. The complex remote pointer according to item 23, wherein the pointer is made in the form of a hollow tube with the ability to be worn on the finger, while the buttons are placed on the side of the tube, the scroll wheel around the tube, and for the buttons and for the scroll wheel use a common corner reflectors and general scanner. 25. The method of biometric identification using the remote pointer is that as the user identification information, pre-received information about the dynamics and trajectory of the point on the screen is used, to which the remote pointer characterizing the user-entered pattern displayed on the screen as a motion path is sent points, and in the process of user identification receive data on the dynamics of movement and the trajectory of a point on the screen to which the remote pointer is directed b, compare them with his identification data and, if they are similar, taking into account possible errors in predetermined parameters and limits, identify the user. 26. The biometric identification method according to claim 25, characterized in that the identification data includes additional signals from the side of the remote pointer, designed to put the cursor in pen mode and vice versa. 27. The biometric identification method according to claim 25, wherein a lot of information about the dynamics of the point on the screen where the remote pointer corresponding to different symbols is sent to is stored as user identification information, and during the identification process the user is prompted to enter a random combination of symbols using the remote pointer. 28. The biometric identification method according to claim 25 or 27, characterized in that the user identification data is stored on the server for user identification when requesting access to server resources from the client terminal.