Electronic surveillance system employing the doppler effect
First Claim
1. A surveillance system for detecting motion of a frequency modulating transponder relative to a surveillance zone, comprising:
- a transmitter generating a first signal at a first frequency;
a transmitting antenna coupled to receive the first signal and radiate the first signal throughout the surveillance zone;
first and second receiving antennas disposed in spaced relationship at opposite boundaries of the surveillance zone;
a first receiver coupled to receive from the first receiving antenna a second signal at a frequency different from the first frequency, the first receiver including a doppler detection circuit coupled to generate an indication of any change in frequency of the second signal;
a second receiver coupled to receive from the second receiving antenna a third signal at a frequency different from the first frequency, the second receiver including a doppler detection circuit coupled to generate an indication of any change in frequency of the third signal; and
an information processor coupled to receive the indications of changes in frequency of the second and third signals and to generate in response thereto an alarm indication when the indications of changes in frequency of the second and third signals indicate motion within the surveillance zone in a selected direction.
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Accused Products
Abstract
A coherent frequency, velocity responsive electronic surveillance system detects the motion of a transponder relative to two receiving antennas on opposite ends of a surveillance zone positioned at the exit of a retail store. Motion in opposite directions relative to the two antennas indicates that the transponder is within the surveillance zone. As a means of reducing false alarms, motion of a transponder proximate to, but outside the zone is distinguished from motion inside the zone because motion outside the zone is in the same direction relative to both antennas. False alarms are reduced even further by requiring detection of motion through a selected distance before indicating an alarm.
75 Citations
12 Claims
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1. A surveillance system for detecting motion of a frequency modulating transponder relative to a surveillance zone, comprising:
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a transmitter generating a first signal at a first frequency; a transmitting antenna coupled to receive the first signal and radiate the first signal throughout the surveillance zone; first and second receiving antennas disposed in spaced relationship at opposite boundaries of the surveillance zone; a first receiver coupled to receive from the first receiving antenna a second signal at a frequency different from the first frequency, the first receiver including a doppler detection circuit coupled to generate an indication of any change in frequency of the second signal; a second receiver coupled to receive from the second receiving antenna a third signal at a frequency different from the first frequency, the second receiver including a doppler detection circuit coupled to generate an indication of any change in frequency of the third signal; and an information processor coupled to receive the indications of changes in frequency of the second and third signals and to generate in response thereto an alarm indication when the indications of changes in frequency of the second and third signals indicate motion within the surveillance zone in a selected direction. - View Dependent Claims (2, 3, 4, 5)
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6. A doppler effect surveillance system for detecting motion of a frequency modulating transponder relative to a surveillance zone comprising:
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a transmitter generating a first signal at a first frequency; a transmitting antenna coupled to receive the first signal and radiate the first signal throughout the passageway; first and second receiving antennas disposed in spaced relationship at opposite ends of the surveillance zone; a first receiver coupled to receive from the first receiving antenna a second signal at a frequency different from the first frequency, the first receiver including a phase shifting doppler detection circuit coupled to generate a first pair of out-of-phase doppler frequency dependent signals indicative of a direction of motion of the transponder relative to the first antenna; a second receiver coupled to receive from the second receiving antenna a third signal at a frequency different from the first frequency, the second receiver including a phase shifting doppler detection circuit coupled to generate a second pair of out-of-phase doppler frequency dependent signals indicative of a direction of motion of the transponder relative to the second antenna; and an information processor coupled to receive the first and second pairs of out-of-phase doppler frequency dependent signals and to generate in response thereto an alarm indication when motion of the transponder in the surveillance zone between the first and second receiving antennas is indicated thereby. - View Dependent Claims (7)
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8. A frequency coherent doppler effect surveillance system for detecting motion of a frequency changing transponder relative to a surveillance zone comprising:
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a transmitting system coupled to radiate the surveillance zone with a transmitted signal, the transmitting system including a modulator coupled to receive a carrier signal and a modulating signal and to generate the transmitted signal as a double sideband suppressed carrier amplitude modulated signal in response thereto; a stable carrier oscillator coupled to generate the carrier signal at a first predetermined frequency; a coherent signal generating circuit including (A) a reference frequency generating circuit including (A1) a stable oscillator circuit coupled to generate a master frequency reference signal at a second frequency and including (A2) a modulating signal generator circuit coupled to generate the modulating signal at a third predetermined frequency with a fixed phase and frequency relationship to the master frequency reference signal, (A3) an intermediate frequency signal generator coupled to generate an intermediate frequency signal at a fourth predetermined frequency with a fixed phase and frequency relationship to the master frequency reference signal, and (A4) a half intermediate frequency generator coupled to generate a half intermediate frequency signal at a fifth predetermined frequency equal to half the fourth frequency and with a fixed phase and frequency relationship to the master frequency reference signal and (B) a local oscillator signal generating circuit coupled to receive the carrier signal and the half intermediate frequency signal and generate a local oscillator signal that has a fixed phase relationship to the half intermediate frequency signal and a sixth frequency equal to the difference between the second and fifth frequencies; a receiving system including inner and outer receiving antennas disposed on opposite ends of the surveillance zone to receive from a transponder within the zone inner and outer receiver antenna signals at a seventh frequency equal to the sum of the two double sideband components, the transmitted signal and a doppler frequency that is representative of motion of the transponder within the zone, an inner directional motion detection receiver coupled to receive the inner receiver antenna signal, the local oscillator signal and the intermediate frequency signal and to generate in response thereto inner motion information indicative of a velocity and direction of motion of the transponder relative to the inner receiving antenna, and an outer directional motion detection receiver coupled to receive the outer receiver antenna signal, the local oscillator signal, and the intermediate frequency signal and to generate in response thereto outer motion information indicative of a velocity and direction of motion of the transponder relative to the outer receiving antenna; and an information processor coupled to receive and process the inner and outer motion information to generate an indicator signal when the inner and outer motion information indicates motion of the transponder in opposite directions relative to the inner and outer receiving antennas. - View Dependent Claims (9)
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10. A frequency coherent doppler effect surveillance system for detecting motion of a frequency changing transponder relative to a surveillance zone comprising:
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means for radiating the zone with a transmitted signal; first means for receiving a received signal having a frequency different from and related to the transmitted signal, the first receiving means including a first doppler frequency detection circuit coupled to detect the direction and speed of motion of the transponder relative to a first boundary of the zone; second means for receiving the received signal, the second receiving means including a second doppler frequency detection circuit coupled to detect the direction and speed of motion of the transponder relative to a second boundary of the zone; and means for processing information coupled to receive direction and speed information from the first and second receiving means and process the received information to generate an alarm signal when the received information indicates motion of the transponder toward the first boundary and away from the second boundary. - View Dependent Claims (11, 12)
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Specification