Distance measuring apparatus and distance measuring method
First Claim
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1. A distance measuring apparatus comprising:
- a first pseudo random signal generator for generating a first pseudo random signal of clock frequency of f1;
a second pseudo random signal generator for generating a second pseudo random signal which has the same pattern as that of the first pseudo random signal and clock frequency of f2 slightly lower than f1;
a first multiplier for multiplying the first pseudo random signal by the second pseudo random signal;
a first carrier wave generator for generating a carrier wave of a first frequency;
a first modulator for modulating the carrier wave of the first frequency by the first pseudo random signal;
a first transmitter for transmitting the modulated carrier wave of the first frequency to a target as a modulated signal for transmission of the first frequency;
a first receiver for receiving the modulated signal for transmission of the first frequency reflected by the target as a received signal of the first frequency;
a second multiplier for multiplying the received signal of the first frequency by the second pseudo random signal to obtain a modulated received signal of the first frequency;
a first hybrid coupler for receiving a part of the carrier wave of the first frequency and delivering a first I signal and a first Q signal which are two components phases of which are orthogonal to each other;
a third multiplier for multiplying an output signal of the second multiplier by the first I signal;
a fourth multiplier for multiplying the output signal of the second multiplier by the first Q signal;
a first low-pass filter for low-pass filtering of an output of the first multiplier;
a second low-pass filter for low-pass filtering of an output of the third multiplier;
a third low-pass filter for low-pass filtering of an output of the fourth multiplier;
first and second units for obtaining a square of the output signal of the second low-pass filter and a square of the output signal of the third low-pass filter, respectively;
an adder for adding outputs of the first and second units;
a first pulse generator for generating a first pulse when a maximum amplitude value of an output signal of the first low-pass filter is detected;
a second pulse generator for generating a second pulse when a maximum amplitude value of an output signal of the adder is detected;
a time measuring section for measuring a time period between generation of the first pulse and generation of the second pulse;
a first phase detector for detecting a phase of the modulated received signal of the first frequency based on outputs of the second and third low-pass filters;
a second carrier wave generator for generating a second carrier wave of a second frequency which is lower than the first frequency;
a second modulator for modulating the second carrier wave by the first pseudo random signal;
a second transmitter for transmitting the modulated second carrier wave to the target as a modulated signal for transmission of the second frequency;
a second receiver for receiving the modulated signal for transmission of the second frequency reflected by the target as a received signal of the second frequency;
a fifth multiplier for multiplying the received signal of the second frequency by the second pseudo random signal to obtain a modulated received signal of the second frequency;
a second hybrid coupler for receiving a part of the carrier wave of the second frequency and delivering a second I signal and a second Q signal which are two components phases of which are orthogonal to each other;
a sixth multiplier for multiplying an output signal of the fifth multiplier by the second I signal;
a seventh multiplier for multiplying the output signal of the fifth multiplier by the second Q signal;
a fourth low-pass filter for low-pass filtering of an output of the sixth multiplier;
a fifth low-pass filter for low-pass filtering of an output of the seventh multiplier;
a second phase detector for detecting a phase of the modulated received signal of the second frequency based on outputs of the fourth and fifth low-pass filters; and
a distance computing unit for computing a distance to the target based on outputs of the time measuring section, the first phase detector and the second phase detector.
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Abstract
Disclosed is a distance measuring apparatus which includes: a first pulse generating means (135) which generates reference signals; a second pulse generating means (137) which generates subject detection signals; a time measuring section (139) which measures a period of time from a time when a first pulse is generated to a time when a second pulse is generated; a first phase detecting section (141) which detects the first phase of a signal received using a signal at a first frequency; a second phase detecting section (163) which detects the second phase of a signal received using a signal at a second frequency; and a distance calculating section (165) which calculates the distance to the subject on the basis of output from the time measuring section, the first phase detecting section and the second phase detecting section.
20 Citations
7 Claims
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1. A distance measuring apparatus comprising:
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a first pseudo random signal generator for generating a first pseudo random signal of clock frequency of f1; a second pseudo random signal generator for generating a second pseudo random signal which has the same pattern as that of the first pseudo random signal and clock frequency of f2 slightly lower than f1; a first multiplier for multiplying the first pseudo random signal by the second pseudo random signal; a first carrier wave generator for generating a carrier wave of a first frequency; a first modulator for modulating the carrier wave of the first frequency by the first pseudo random signal; a first transmitter for transmitting the modulated carrier wave of the first frequency to a target as a modulated signal for transmission of the first frequency; a first receiver for receiving the modulated signal for transmission of the first frequency reflected by the target as a received signal of the first frequency; a second multiplier for multiplying the received signal of the first frequency by the second pseudo random signal to obtain a modulated received signal of the first frequency; a first hybrid coupler for receiving a part of the carrier wave of the first frequency and delivering a first I signal and a first Q signal which are two components phases of which are orthogonal to each other; a third multiplier for multiplying an output signal of the second multiplier by the first I signal; a fourth multiplier for multiplying the output signal of the second multiplier by the first Q signal; a first low-pass filter for low-pass filtering of an output of the first multiplier; a second low-pass filter for low-pass filtering of an output of the third multiplier; a third low-pass filter for low-pass filtering of an output of the fourth multiplier; first and second units for obtaining a square of the output signal of the second low-pass filter and a square of the output signal of the third low-pass filter, respectively; an adder for adding outputs of the first and second units; a first pulse generator for generating a first pulse when a maximum amplitude value of an output signal of the first low-pass filter is detected; a second pulse generator for generating a second pulse when a maximum amplitude value of an output signal of the adder is detected; a time measuring section for measuring a time period between generation of the first pulse and generation of the second pulse; a first phase detector for detecting a phase of the modulated received signal of the first frequency based on outputs of the second and third low-pass filters; a second carrier wave generator for generating a second carrier wave of a second frequency which is lower than the first frequency; a second modulator for modulating the second carrier wave by the first pseudo random signal; a second transmitter for transmitting the modulated second carrier wave to the target as a modulated signal for transmission of the second frequency; a second receiver for receiving the modulated signal for transmission of the second frequency reflected by the target as a received signal of the second frequency; a fifth multiplier for multiplying the received signal of the second frequency by the second pseudo random signal to obtain a modulated received signal of the second frequency; a second hybrid coupler for receiving a part of the carrier wave of the second frequency and delivering a second I signal and a second Q signal which are two components phases of which are orthogonal to each other; a sixth multiplier for multiplying an output signal of the fifth multiplier by the second I signal; a seventh multiplier for multiplying the output signal of the fifth multiplier by the second Q signal; a fourth low-pass filter for low-pass filtering of an output of the sixth multiplier; a fifth low-pass filter for low-pass filtering of an output of the seventh multiplier; a second phase detector for detecting a phase of the modulated received signal of the second frequency based on outputs of the fourth and fifth low-pass filters; and a distance computing unit for computing a distance to the target based on outputs of the time measuring section, the first phase detector and the second phase detector. - View Dependent Claims (2, 3, 4)
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5. A distance measuring method using an apparatus which includes first and second transmitters, first and second receivers, a time measuring section, first and second phase detectors and a distance computing unit, the method comprising the steps of:
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transmitting, by the first transmitter, modulated electromagnetic wave of a first frequency to a target; transmitting, by the second transmitter, modulated electromagnetic wave of a second frequency to the target; receiving, by the first receiver, the modulated electromagnetic wave of the first frequency which has been reflected by the target; receiving, by the second receiver, the modulated electromagnetic wave of the second frequency which has been reflected by the target; obtaining, by the time measuring section, a time period of travel between the apparatus and the target of the modulated electromagnetic wave of the first frequency which has been received by the first receiver; obtaining, by the distance computing unit, a value of rough distance measurement to the target based on the time period; obtaining, by the first phase detector, a first measurement value of phase which is a phase of the modulated electromagnetic wave of the first frequency which has been received by the first receiver; obtaining, by the second phase detector, a second measurement value of phase which is a phase of the modulated electromagnetic wave of the second frequency which has been received by the second receiver; obtaining, by the distance computing unit, a second group of plural candidate values of precise distance based on a reference distance, a second measurement value of reference phase of the modulated signal of the second frequency for the reference distance, which is previously obtained, and the second measurement value of phase and selecting, by the distance computing unit, the candidate value of precise distance which is the closest to the value of rough distance measurement in the plural candidate values of the second group as a value of the second group; and obtaining, by the distance computing unit, a first group of plural candidate values of precise distance based on the reference distance, a first measurement value of reference phase of the modulated signal of the first frequency for the reference distance, which is previously obtained, and the first measurement value of phase and selecting, by the distance computing unit, the candidate value of precise distance which is the closest to the value of the second group in the plural candidate values of the first group as a measurement value of distance. - View Dependent Claims (6, 7)
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Specification
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Current AssigneeNireco Corporation
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Original AssigneeNireco Corporation
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InventorsMatsumoto, Koichi, Kato, Yasumasa
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Primary Examiner(s)Keith, Jack W
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Assistant Examiner(s)BYTHROW, PETER M
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Application NumberUS13/722,065Publication NumberTime in Patent Office439 DaysField of Search342 70- 72, 342/118, 342127-132, 342/134, 342/135, 342/175, 342/194US Class Current342/127CPC Class CodesG01S 13/284 using coded pulsesG01S 13/38 wherein more than one modul...
