Long Range Radio Frequency Identification System
First Claim
1. A method for radio frequency identification, comprising:
- providing an on-off keyed amplitude-modulated illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or a second, opposite bit state;
receiving the illumination signal at the RFID tag;
rectifying the illumination signal at the RFID tag to generate a wake signal;
applying the wake signal to a processor associated with the RFID tag;
waking the processor in response to the wake signal and subsequently powering the processor from a battery coupled to the processor;
sampling the received illumination signal;
dynamically adjusting in the processor a noise amplitude floor value associated with the sampled illumination signal;
determining in the processor a threshold amplitude value above the noise amplitude floor value above which the sampled illumination signal is deemed to represent the first bit state and below which the sampled illumination signal is deemed to represent the second bit state;
correlating the sampled illumination signal to determine its bit sequence;
correlating the bit sequence of the sampled illumination signal against a predetermined key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the predetermined key;
transmitting an identification signal from the RFID tag in response to determining that the received illumination signal is sufficiently correlated with the predetermined key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies;
receiving the identification signal;
demodulating the received identification signal to obtain the access code value; and
checking the access code value against a database of authorized RFID tag access code values; and
taking a first action in response to determining that the RFID tag access code value is authorized.
1 Assignment
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Accused Products
Abstract
A method, apparatus and system for radio frequency identification provides an on-off keyed amplitude-modulated illumination signal containing a sequence of bits configured to illuminate a radio frequency identification (RFID) tag, The illumination signal is received at the RFID tag, rectified to generate a wake signal for waking a processor which is subsequently powered by a battery. The received illumination signal is sampled and subjected to a thresholding process. Mobile telephone band interference is countered by correlating the sampled illumination signal to determine its bit sequence and then correlating the bit sequence against a predetermined key. An identification signal from the RFID tag is sent in response to a match.
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Citations
25 Claims
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1. A method for radio frequency identification, comprising:
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providing an on-off keyed amplitude-modulated illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or a second, opposite bit state; receiving the illumination signal at the RFID tag; rectifying the illumination signal at the RFID tag to generate a wake signal; applying the wake signal to a processor associated with the RFID tag; waking the processor in response to the wake signal and subsequently powering the processor from a battery coupled to the processor; sampling the received illumination signal; dynamically adjusting in the processor a noise amplitude floor value associated with the sampled illumination signal; determining in the processor a threshold amplitude value above the noise amplitude floor value above which the sampled illumination signal is deemed to represent the first bit state and below which the sampled illumination signal is deemed to represent the second bit state; correlating the sampled illumination signal to determine its bit sequence; correlating the bit sequence of the sampled illumination signal against a predetermined key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the predetermined key; transmitting an identification signal from the RFID tag in response to determining that the received illumination signal is sufficiently correlated with the predetermined key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies; receiving the identification signal; demodulating the received identification signal to obtain the access code value; and checking the access code value against a database of authorized RFID tag access code values; and taking a first action in response to determining that the RFID tag access code value is authorized. - View Dependent Claims (2, 3, 4, 5)
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6. A system for radio frequency identification, comprising:
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means for providing an on-off keyed amplitude-modulated illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or an opposite bit state; means for receiving the illumination signal at the RFID tag; means for rectifying the illumination signal at the RFID tag to generate a wake signal; means for applying the wake signal to a processor associated with the RFID tag; means for waking the processor in response to the wake signal and subsequently powering the processor from a battery coupled to the processor; means associated with the processor for sampling the received illumination signal to generate a sampled illumination signal; means associated with the processor for dynamically adjusting a noise amplitude floor value associated with the sampled illumination signal; means associated with the processor for determining a threshold amplitude value above the noise amplitude floor value above which the sampled illumination signal is deemed to represent the first bit state and below which the sampled illumination signal is deemed to represent the second bit state; means for correlating the sampled illumination signal to determine its bit sequence; means for correlating the bit sequence of the sampled illumination signal against a predetermined key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the predetermined key; means for transmitting an identification signal from the RFID tag in response to determining that the received illumination signal is sufficiently correlated with the predetermined key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies; means for receiving the identification signal; means for demodulating the received identification signal to obtain the access code value; means for comparing the access code value against a database of authorized RFID tag access code values; and means for taking a first action in response to determining that the RFID tag access code value is authorized. - View Dependent Claims (7, 8, 9, 10)
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11. A system for radio frequency identification, comprising:
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a transmitter configured to provide an on-off keyed amplitude-modulated illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or an opposite bit state; a receiver configured to receive the illumination signal at the RFID tag; a rectification circuit configured to rectify the illumination signal at the RFID tag to provide a wake signal; a first circuit configured to apply the wake signal to a processor associated with the RFID tag; the processor configured to awake from a sleep mode of operation in response to receiving the wake signal and configured to subsequently draw operating power from a battery coupled to the processor; the processor further configured to sample the received illumination signal; the processor further configured to dynamically adjust a noise amplitude floor value associated with the sampled illumination signal; the processor further configured to determine a threshold amplitude value above the noise amplitude floor value above which the sampled illumination signal is deemed to represent the first bit state and below which the sampled illumination signal is deemed to represent the second bit state; a second circuit configured to sample the received illumination signal; the processor further configured to correlate the sampled illumination signal to determine its bit sequence; the processor further configured to correlate the bit sequence of the sampled illumination signal against a predetermined key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the predetermined key; a transmitter associated with the RFID tag and configured to transmit an identification signal from the RFID tag in response to determining that the received illumination signal is sufficiently correlated with the predetermined key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies; a receiver configured to receive the identification signal; a demodulator configured to extract the access code value from the identification signal; a comparator configured to compare the received access code value against a database of authorized access code values; and a third circuit configured to take a first action in response to determining that the access code value is authorized. - View Dependent Claims (12, 13, 14, 15)
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16. An RFID tag, comprising:
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a receiver configured to receive an illumination signal at the RFID tag, the illumination signal being an on-off keyed amplitude-modulated signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or an opposite second bit state; a processor; a rectification circuit configured to rectify the illumination signal to provide a wake signal to the processor; a battery coupled to provide power to the processor when the processor is not in a sleep mode of operation; the processor configured to awake from the sleep mode of operation in response to receiving the wake signal and configured to subsequently draw operating power from the battery; the processor further configured to sample the received illumination signal; the processor further configured to dynamically adjust a noise amplitude floor value associated with the sampled illumination signal; the processor further configured to determine a threshold amplitude value above the noise amplitude floor value above which the sampled illumination signal is deemed to represent the first bit state and below which the sampled illumination signal is deemed to represent the second bit state; the processor further configured to correlate the sampled illumination signal to determine its bit sequence; the processor further configured to correlate the bit sequence of the sampled illumination signal against a predetermined key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the predetermined key; and a transmitter configured to transmit an identification signal in response to the processor'"'"'s determination that the received illumination signal is sufficiently correlated with the predetermined key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies.
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17. A method for radio frequency identification, comprising:
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providing a frequency hopping spread spectrum illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or a second, opposite bit state; receiving the illumination signal at the RFID tag; rectifying the illumination signal at the RFID tag to generate a wake signal; applying the wake signal to a processor associated with the RFID tag; waking the processor in response to the wake signal and subsequently powering the processor from a battery coupled to the processor; receiving the illumination signal with a broad band receiver; determining if the received illumination signal is sufficiently correlated with a key; transmitting an identification signal from the RFID tag in response to determining that the received illumination signal is sufficiently correlated with the key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies; receiving the identification signal; demodulating the received identification signal to obtain the access code value; checking the access code value against a database of authorized RFID tag access code values; and taking a first action in response to determining that the RFID tag access code value is authorized. - View Dependent Claims (20, 21, 22, 23)
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18. An RFID tag, comprising:
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a broadband receiver configured to receive a spread spectrum frequency hopping illumination signal, the illumination signal being an on-off keyed amplitude-modulated signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or an opposite second bit state; a processor; a rectification circuit in the receiver configured to rectify the illumination signal to provide a wake signal to the processor; a battery coupled to provide power to the processor when the processor is not in a sleep mode of operation; the processor configured to awake from the sleep mode of operation in response to receiving the wake signal and configured to subsequently draw operating power from the battery; the processor further configured to receive data from the receiver; the processor further configured to correlate a bit sequence received from the receiver against a key comprising a plurality of bits to determine if the sampled illumination signal is sufficiently correlated with the key; and a transmitter configured to transmit an identification signal in response to the processor'"'"'s determination that the received illumination signal is sufficiently correlated with the key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies. - View Dependent Claims (24, 25)
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19. A system for radio frequency identification, comprising:
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a broadband transmitter configured to provide a spread spectrum frequency hopping on-off keyed amplitude-modulated illumination signal configured to illuminate a radio frequency identification (RFID) tag within a zone of interest, the illumination signal disposed within a first range of frequencies and on-off keyed to represent a sequence of bits each having a first bit state or an opposite bit state; a receiver configured to receive the illumination signal at the RFID tag; a rectification circuit configured to rectify the illumination signal at the RFID tag to provide a wake signal; a first circuit configured to apply the wake signal to a processor associated with the RFID tag; the processor configured to awake from a sleep mode of operation in response to receiving the wake signal and configured to subsequently draw operating power from a battery coupled to the processor; a second circuit configured to supply a data signal from the receiver to the processor, the data signal derived from the illumination signal; the processor further configured to compare a bit sequence received from the receiver against a key comprising a plurality of bits to determine if the received bit sequence is sufficiently correlated with the key; a transmitter associated with the RFID tag and configured to transmit an identification signal from the RFID tag in response to determining that the received bit sequence is sufficiently correlated with the key, the identification signal modulated to reflect an access code value associated with the RFID tag, and the identification signal disposed within a second range of frequencies outside the first range of frequencies; a receiver configured to receive the identification signal; a demodulator configured to extract the access code value from the identification signal; a comparator configured to compare the received access code value against a database of authorized access code values; and a third circuit configured to take a first action in response to determining that the access code value is authorized.
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Specification