KR970060991A - 3D wireless pointing device - Google Patents

Abstract

The present invention relates to a three-dimensional wireless pointing device for controlling the calculation of coordinates in a three-dimensional space and controlling the position of a cursor. In particular, a plurality of ultrasonic generators and a single infrared ray emitting unit A plurality of ultrasonic receiving sensors and a single infrared receiving sensor capable of receiving the ultrasonic wave receiving unit and the infrared ray emitting unit may be disposed on the receiving side so as to intersect the transmitting ultrasonic wave generating unit and the infrared ray emitting unit at right angles, And the first coordinate value is obtained by measuring a time difference between each of the plurality of ultrasonic wave detection times detected by the plurality of ultrasonic wave receiving sensors, The intensity of each of the ultrasonic waves is measured to obtain a second coordinate value. A third coordinate value is calculated by calculating the average arrival time of the ultrasonic wave on the basis of the time point, and the relative position between the transmitting side and the receiving side is determined in three dimensions. Then, the current position is determined as the cursor or menu of the controlled object .

Description

3D wireless pointing device

Since this is a trivial issue, I did not include the contents of the text.

FIG. 1 is a perspective view showing a first embodiment of an arrangement structure of a three-dimensional wireless pointing device according to the present invention; FIG.

2 (a) and 2 (b) are a front view and a side view showing an arrangement of the ultrasonic wave generating unit and the infrared ray emitting unit according to the present invention.

Claims (10)

A position indicating means for arranging a plurality of ultrasonic wave generators and a single infrared ray emitting portion in a predetermined axial direction with a constant angle to transmit an ultrasonic wave and a single infrared ray signal having a plurality of different characteristics to the space; A plurality of ultrasonic receiving sensors and a single infrared receiving sensor are mounted at different positions on the same straight line of the main body of the electronic apparatus so as to cross the generating unit and the single infrared ray emitting unit at right angles to receive the ultrasonic wave and the infrared ray signal transmitted from the position indicating means Detecting means for removing the carrier signal included in the received ultrasound and infrared signals and detecting each of the envelope signals; and a controller for converting the infrared signal detected by the detecting means into a digital signal and a timing signal, comparing the ultrasonic signal with a reference signal And converts the infrared signal into a timing signal. A spatial position analyzing means for detecting a relative phase difference of an ultrasonic signal with respect to each of the plurality of ultrasonic wave receiving sensors based on a detection time point of an infrared signal converted into a timing signal by the spatial position analyzing means; And a plurality of characteristics received from one of the plurality of ultrasonic receiving sensors based on the detection time point of the infrared signal converted into the timing signal by the spatial position analyzing means, Calculating a second coordinate value by measuring the intensity of each of the first and second coordinate values, calculating an average arrival time of the ultrasonic wave based on the detection time of the infrared signal converted into the timing signal by the spatial position analyzing means, Coordinate calculating means for determining the relative position between the detecting means in three dimensions; And a position control means for controlling the controlled object to a three-dimensional position determined by the coordinate computing means, based on the relative position of the pointing means and the detecting means. The apparatus as claimed in claim 1, wherein the position indicating means comprises: a key input unit having keys such as a cursor movement, a selection command, and an operation command; and a control unit for receiving a key signal of the key input unit and receiving a periodic pulse of a code identification waveform and a synchronization identification waveform A transmission output unit for superimposing the periodic pulse signal generated by the periodic pulse generating unit on the ultrasound and infrared carrier signals to convert the plurality of ultrasound signals having different characteristics into a single infrared signal, A carrier generator for generating an ultrasound carrier and an infrared carrier signal and outputting the ultrasound carrier and the infrared carrier signal to the transmission output unit in order to prevent disturbance or interference of a signal during signal transmission; A plurality of ultrasonic generators and a single infrared light emitting unit 3d wireless pointing device. The ultrasonic diagnostic apparatus according to claim 1, wherein the detecting means comprises: a plurality of ultrasonic receiving sensors provided at different positions on the same straight line for receiving the ultrasonic signals transmitted from the position indicating means; A plurality of ultrasound reception sensors, and a plurality of ultrasound reception sensors, respectively, for amplifying a plurality of weak ultrasonic signals and infrared signals received by the plurality of ultrasound reception sensors and infrared reception sensors, respectively, And an envelope detector for removing a carrier signal from the output of the amplifying and filtering unit and detecting a level corresponding to the intensity of the signal received by the ultrasonic receiving sensor and the infrared receiving sensor, Device. The ultrasonic diagnostic apparatus according to claim 1, wherein the spatial position analyzing means comprises: a first comparator for comparing an envelope waveform of the ultrasonic signal received through the ultrasonic reception receiving line (42A) with an internal reference signal to convert the envelope waveform into a timing signal; A second comparator for comparing the envelope waveform of the ultrasonic signal received through the ultrasonic reception sensor 42B with the internal reference signal and for converting the envelope waveform of the ultrasonic signal received through the ultrasonic reception sensor 42C to a timing signal, An analog / digital converter for converting the envelope waveform of the infrared signal received by the infrared sensor into a digital signal; and a second comparator for converting the envelope waveform of the infrared signal received by the infrared receiving sensor into a digital signal, The envelope waveform of the infrared signal received through the sensor is compared with an internal reference signal and converted into a timing signal 4 comparator and a phase difference detector for detecting a time difference between the detection time of each ultrasonic signal output from the first to third comparators on the basis of a time point at which the infrared rays outputted from the fourth comparator are detected, And a clock generator for generating a clock. The ultrasonic diagnostic apparatus according to claim 1, wherein the plurality of ultrasonic generators and the single infrared ray emitting portion of the position indicating means are arranged in the Y axis direction with a certain angle (?), And a plurality of ultrasonic receiving sensors Wherein the sensor is mounted on the main body of the electronic device at a predetermined distance in the X-axis direction so as to intersect with the plurality of ultrasonic generators of the position indicating means and the single infrared ray emitting portion at right angles. The ultrasonic diagnostic apparatus according to claim 1, wherein the plurality of ultrasonic generators and the single infrared ray emitting portion of the position indicating means are arranged in the X-axis direction with a certain angle (?), Wherein the sensor is mounted on the main body of the electronic device at a predetermined distance in the Y-axis direction at right angles to the plurality of ultrasonic generators and the single infrared ray emitting portion of the position indicating means. 2. The three-dimensional wireless pointing device according to claim 1, wherein the infrared receiving sensor and the ultrasonic receiving sensor of the detecting means are detachably attached to the main body of the electronic apparatus. 2. The three-dimensional wireless pointing device according to claim 1, wherein the plurality of ultrasonic generators of the position indicating means are disposed at different positions and simultaneously transmit ultrasonic waves of different carrier frequencies. The three-dimensional wireless pointing device according to claim 1, wherein the plurality of ultrasonic generators of the position indicating means are disposed at different positions and transmit ultrasonic waves of the same carrier frequency at different timings. 2. The three-dimensional wireless pointing device according to claim 1, wherein the first coordinate value is an X coordinate value, the second coordinate value is a Y coordinate value, and the third coordinate value is a Z coordinate value. ※ Note: It is disclosed by the contents of the first application.