초록 ▼

A finger sensing device may include a finger sensing area to receive a user's finger moved in a sliding motion, a sensor controller cooperating with the finger sensing area for collecting image data therefrom, an image processor, and a communications path for sending image data from the sensor contr

A finger sensing device may include a finger sensing area to receive a user's finger moved in a sliding motion, a sensor controller cooperating with the finger sensing area for collecting image data therefrom, an image processor, and a communications path for sending image data from the sensor controller to the image processor. The sensing device may use at least one of the sensor controller and the image processor for (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent over the data communications path, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent over the data communications path. The finger sensing device may be operable at a dynamic scan rate.

대표청구항 ▼

That which is claimed is: 1. A finger sensing device comprising: a finger sensing area to receive a user's finger moved in a sliding motion; a sensor controller cooperating with said finger sensing area for collecting image data therefrom; an image processor; and a communications path for sending i

That which is claimed is: 1. A finger sensing device comprising: a finger sensing area to receive a user's finger moved in a sliding motion; a sensor controller cooperating with said finger sensing area for collecting image data therefrom; an image processor; and a communications path for sending image data from said sensor controller to said image processor; at least one of said sensor controller and said image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent over said data communications path, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent over said data communications path. 2. The finger sensing device according to claim 1 wherein said sensor controller is operable at different sampling intervals. 3. The finger sensing device according to claim 2 wherein the sampling interval is increased based upon a first number of successive new image data subsets being above the matching threshold; and wherein the sampling interval is decreased based upon a second number of successive new image data subsets being below the matching threshold. 4. The finger sensing device according to claim 1 wherein said sensor controller is operable at constant sampling intervals. 5. The finger sensing device according to claim 1 wherein said sensor controller performs steps (i), (ii), and (iii). 6. The finger sensing device according to claim 1 wherein said image processor performs steps (i), (ii), and (iii). 7. The finger sensing device according to claim 1 wherein said finger sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from said array of sensing pixels. 8. The finger sensing device according to claim 7 wherein the selected sensing pixels comprise spaced apart sensing pixels. 9. The finger sensing device according to claim 7 wherein the selected sensing pixels are arranged in at least one line from said array of sensing pixels. 10. The finger sensing device according to claim 1 wherein at least one of said sensor controller and said image processor also selects a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 11. The finger sensing device according to claim 1 wherein said finger sensing area comprises an array of electric field sensing pixels. 12. A finger sensing device comprising: a finger sensing area to receive a user's finger moved in a sliding motion; a sensor controller cooperating with said finger sensing area for collecting image data therefrom at different sampling intervals; an image processor; and at least one of said sensor controller and said image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent to said image processor, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent to said image processor; the sampling interval being increased based upon a first number of successive new image data subsets being above the matching threshold, and the dynamic scan rate being increased based upon a second number of successive new image data subsets being below the matching threshold. 13. The finger sensing device according to claim 12 wherein said sensor controller performs steps (i), (ii), and (iii). 14. The finger sensing device according to claim 12 wherein said image processor performs steps (i), (ii), and (iii). 15. The finger sensing device according to claim 12 wherein said finger sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from said array of sensing pixels. 16. The finger sensing device according to claim 15 wherein the selected sensing pixels comprise spaced apart sensing pixels. 17. The finger sensing device according to claim 15 wherein the selected sensing pixels are arranged in at least one line from said array of sensing pixels. 18. The finger sensing device according to claim 12 wherein at least one of said sensor controller and said image processor also selects a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 19. The finger sensing device according to claim 12 wherein said finger sensing area comprises an array of electric field sensing pixels. 20. An electronic device comprising: a housing; a finger sensor carried by said housing and comprising a finger sensing area to receive a user's finger moved in a sliding motion, and a sensor controller cooperating with said finger sensing area for collecting image data therefrom; an image processor carried by said housing; and a communications path for sending image data from said sensor controller to said image processor; at least one of said sensor controller and said image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent over said data communications path, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent over said data communications path. 21. The electronic device according to claim 20 wherein said image processor comprises a host processor performing additional functions. 22. The electronic device according to claim 20 wherein said sensor controller is operable at different sampling intervals. 23. The electronic device according to claim 22 wherein the sampling interval is increased based upon a first number of successive new image data subsets being above the matching threshold; and wherein the sampling interval is decreased based upon a second number of successive new image data subsets being below the matching threshold. 24. The electronic device according to claim 20 wherein said sensor controller is operable at constant sampling intervals. 25. The electronic device according to claim 20 wherein said sensor controller performs steps (i), (ii), and (iii). 26. The electronic device according to claim 20 wherein said image processor performs steps (i), (ii), and (iii). 27. The electronic device according to claim 20 wherein said finger sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from said array of sensing pixels. 28. The electronic device according to claim 20 wherein at least one of said sensor controller and said image processor also selects a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 29. The electronic device according to claim 20 wherein said finger sensing area comprises an array of electric field sensing pixels. 30. A method for operating a finger sensing device comprising a finger sensing area to receive a user's finger moved in a sliding motion, a sensor controller cooperating with the finger sensing area for collecting image data therefrom, an image processor, and a communications path for sending image data from the sensor controller to the image processor, the method comprising using at least one of the sensor controller and the image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent over the data communications path, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent over the data communications path. 31. The method according to claim 30 further comprising operating the sensor controller at different sampling intervals. 32. The method according to claim 31 wherein the sampling interval is increased based upon a first number of successive new image data subsets being above the matching threshold; and wherein the sampling interval is decreased based upon a second number of successive new image data subsets being below the matching threshold. 33. The method according to claim 30 further comprising operating the sensor controller at constant sampling intervals. 34. The method according to claim 30 wherein the sensor controller performs steps (i), (ii), and (iii). 35. The method according to claim 30 wherein the image processor performs steps (i), (ii), and (iii). 36. The method according to claim 30 wherein the finger sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from the array of sensing pixels. 37. The method according to claim 30 further comprising using at least one of the sensor controller and the image processor to also select a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 38. The method according to claim 30 wherein the finger sensing area comprises an array of electric field sensing pixels. 39. A method for operating a finger sensing device comprising a finger sensing area to receive a user's finger moved in a sliding motion, a sensor controller cooperating with the finger sensing area for collecting image data therefrom at different sampling intervals, an image processor, the method comprising: using at least one of the sensor controller and the image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent to the image processor, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent to the image processor; increasing the sampling interval based upon a first number of successive new image data subsets being above the matching threshold; and decreasing the sampling interval based upon a second number of successive new image data subsets being below the matching threshold. 40. The method according to claim 39 wherein the sensor controller performs steps (i), (ii), and (iii). 41. The method according to claim 39 wherein the image processor performs steps (i), (ii), and (iii). 42. The method according to claim 39 wherein the finger sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from the array of sensing pixels. 43. The method according to claim 39 further comprising using at least one of the sensor controller and the image processor to also select a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 44. The method according to claim 39 wherein the finger sensing area comprises an array of electric field sensing pixels. 45. An image sensing device comprising: an image sensing area; a sensor controller cooperating with said image sensing area for collecting image data therefrom; an image processor; and a communications path for sending image data from said sensor controller to said image processor; at least one of said sensor controller and said image processor for performing the following steps (i) selecting a reference image data subset based upon reference image data, (ii) selecting a new image data subset, and (iii) comparing the new image data subset to the reference image data subset to develop a matching score, and, if the matching score is above a matching threshold, then not having new image data corresponding to the new image data subset sent over said data communications path, and, if the matching score is below the matching threshold, then having the new image data corresponding to the new image data subset sent over said data communications path. 46. The image sensing device according to claim 45 wherein said sensor controller is operable at different sampling intervals. 47. The image sensing device according to claim 46 wherein the sampling interval is increased based upon a first number of successive new image data subsets being above the matching threshold; and wherein the sampling interval is decreased based upon a second number of successive new image data subsets being below the matching threshold. 48. The image sensing device according to claim 45 wherein said sensor controller is operable at constant sampling intervals. 49. The image sensing device according to claim 45 wherein said sensor controller performs steps (i), (ii), and (iii). 50. The image sensing device according to claim 45 wherein said image processor performs steps (i), (ii), and (iii). 51. The image sensing device according to claim 45 wherein said image sensing area comprises an array of sensing pixels; and wherein the matching score is based upon a degree of matching between the reference image data subset and the new image data subset for selected sensing pixels from said array of sensing pixels. 52. The image sensing device according to claim 45 wherein at least one of said sensor controller and said image processor also selects a new image data subset as the reference image data subset for a next comparing based upon a selected change from a prior reference image data subset. 53. The image sensing device according to claim 45 wherein said image sensing area comprises an array of electric field sensing pixels.