Coordinate detection device and coordinate detection method

1 . A coordinates detection method including the following steps: respectively determining a STA/LTA ratio to each of output signals from at least three oscillation detectors located apart from each other by a predetermined distance on a substrate, the STA/LTA ratio representing a ratio of a short term average to a long term average, wherein each of the short term average and the long term average has its own predetermined cumulative time as being set; respectively determining from an oscillatory wave generated by touching said substrate, a time when each of said STA/LTA ratios of said at least three oscillation detectors has exceeded a predetermined threshold; and determining touched position coordinates from said respective times, a propagation velocity of said oscillatory wave, and information on the of said at least three oscillation detectors. 2 . The coordinates detection method according to claim 1 , further including a step of: determining said propagation velocity of said oscillatory wave beforehand with said at least three oscillation detectors. 3 . The coordinates detection method according to claim 2 , wherein an optimal cumulative time for said short term average and said long term average is configured to be automatically set through calibration. 4 . The coordinates detection method according to claim 3 , wherein a plurality of different cumulative times are prepared beforehand for said short term average and said long term average, so that the touch coordinates, which correspond to various cumulative times, may be computed, depending on the output result by said touching. 5 . The coordinates detection method of claim 1 , wherein the at least three oscillation detectors comprise four oscillation detectors and respectively determining, from each of said times, a required time taken for said oscillatory wave to reach from the touched position to each of said four oscillation detectors; and determining touched position coordinates from said respective required times, a propagation velocity of said oscillatory wave, and information on the locations of three out of said four oscillation detectors. 6 . A coordinates detection method including the following steps: respectively determining a STA/LTA ratio to each of output signals from four oscillation detectors located apart from each other by a predetermined distance on a substrate, the STA/LTA ratio representing a ratio of a short term average to a long term average, wherein each of the short term average and the long term average has its own predetermined cumulative time as being set; respectively determining from an oscillatory wave generated by touching said substrate, a time when each of said STA/LTA ratios of said four oscillation detectors has exceeded a predetermined threshold; respectively determining, from each of said times, a required time taken for said oscillatory wave to reach from the touched position to each of said four oscillation detectors; and determining touched position coordinates from said respective required times and information on the locations of said four oscillation detectors. 7 . The coordinates detection method of claim 6 , wherein determining touched position coordinates further includes: discriminating, based on said times, one among said four oscillation detectors at which said oscillatory wave has arrived earliest; discriminating a quadrant of said rectangle that contains as the apex the location of said one oscillation detector at which said oscillatory wave has arrived earliest; and selecting three out of said oscillation detectors according to the sequence of said times when the oscillatory wave has arrived, and determining touched position coordinates from the locations where said three oscillation detectors are located and the times when said three oscillation detectors detect the oscillatory wave. 8 . A coordinates detection method including the following steps: respectively determining a STA/LTA ratio to an output signal from each of oscillation detectors in a first incident direction detecting module and a second incident direction detecting module located apart from each other by a predetermined distance on a substrate, the STA/LTA ratio representing a ratio of a short term average to a long term average, wherein each of the short term average and the long term average has its own predetermined cumulative time as being set, each of said first and second incident direction detecting modules being comprised of three oscillation detectors; respectively determining from an oscillatory wave generated by touching said substrate, a time when each of said STA/LTA ratios for said three respective oscillation detectors in said first and second respective incident direction detecting modules has exceeded a predetermined threshold; respectively computing, from each of said times, first and second angles for the incidence of said oscillatory wave upon said first and second incident direction detecting modules; and computing touched position coordinates from said first and second angles and the coordinates of said first and second incident direction detecting modules. 9 . The coordinates detection method according to claim 8 , including the following steps: step of computing arrival times at said three oscillation detectors located at the apexes of a first isosceles right triangle constructing said first incident direction detecting module; a step of respectively computing a difference between said arrival time at the oscillation detector located at the apex forming the right angle and said arrival time at one of the other oscillation detectors located at the other two apexes of said first isosceles right triangle, and a difference between said arrival time at the oscillation detector located at the apex forming the right angle and said arrival time at another of the other oscillation detectors located at the other two apexes of said first isosceles right triangle, and computing from a ratio of the two differences of said arrival times, said first angle for the incidence of said oscillatory wave upon said first incident direction detecting module; a step of computing said arrival times at said three oscillation detectors located at the apexes of a second isosceles right triangle constructing said second incident direction detecting module; and a step of respectively computing a difference between said arrival time at the oscillation detector located at the apex forming the right angle and said arrival time at one of the other oscillation detectors located at the other two apexes of said second isosceles right triangle, and a difference between said arrival time at the oscillation detector located at the apex forming the right angle and said arrival time at another of the other oscillation detectors located at the other two apexes of said second isosceles right triangle, and computing from a ratio of said two differences of said arrival times, said second angle for the incidence of said oscillatory wave upon said second incident direction detecting module; and a step of computing touched position coordinates from said first and second angles and the coordinates of said first and second incident direction detecting modules. 10 . The coordinates detection method according to claim 1 , wherein said substrate comprises a curved surface having a predetermined curvature. 11 . The coordinates detection method according to claim 1 , wherein said step of respectively determining said time when said threshold has been exceeded, including the following step: determining that “the touching has occurred,” if said threshold has been exceeded for a certain period of time, wherein a time going back by s