Anticollision protocol for reading multiple RFID tags
First Claim
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1. A method of reading data from a plurality of radio frequency intelligent devices located within an interrogation zone comprising the steps of:
- an interrogation device transmitting a generally continuous interrogation signal, the interrogation signal comprising an electromagnetic field at a first predetermined radio frequency, wherein a strength of the electromagnetic field defines the interrogation zone;
a plurality of radio frequency intelligent devices located within the interrogation zone being acted upon by the electromagnetic field, the electromagnetic field inducing a voltage in each intelligent device which provides power to the intelligent devices;
each of the plurality of intelligent devices within the interrogation zone reading a respective prestored data field and repeatedly transmitting a message stored therein at a second predetermined radio frequency at predetermined periodic intervals with a fixed length non-transmission interval between each transmission interval, wherein a length of the non-transmission interval is much greater than a length of the message transmission interval, the length of the non-transmission interval for each intelligent device being different due solely to manufacturing tolerances in electrical components of the intelligent devices; and
the interrogation device reading the message transmissions of each of the plurality of intelligent devices, wherein a probability of two or more of the plurality of intelligent devices transmitting their respective messages simultaneously is significantly reduced due to variations among the intelligent devices in the fixed non-transmission time and by making the length of the non-transmission interval much greater than the length of the message transmission interval, and wherein the manufacturing tolerances are sufficiently large so as to significantly vary the fixed non-transmission time among the plurality of intelligent devices and thereby significantly reduce the probability that two or more of a plurality of intelligent devices will transmit their respective messages simultaneously.
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Abstract
A method of reading multiple RFID tags located in a field of an interrogating antenna is based on periodic transmissions from the tags with large, non-transmission intervals between transmissions. The non-transmission intervals are fixed for a given tag, but are random between tags due to manufacturing tolerances in electrical components from which the tag is constructed, such that no coordination of transmissions from the interrogating antenna is required.
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Citations
31 Claims
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1. A method of reading data from a plurality of radio frequency intelligent devices located within an interrogation zone comprising the steps of:
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an interrogation device transmitting a generally continuous interrogation signal, the interrogation signal comprising an electromagnetic field at a first predetermined radio frequency, wherein a strength of the electromagnetic field defines the interrogation zone; a plurality of radio frequency intelligent devices located within the interrogation zone being acted upon by the electromagnetic field, the electromagnetic field inducing a voltage in each intelligent device which provides power to the intelligent devices; each of the plurality of intelligent devices within the interrogation zone reading a respective prestored data field and repeatedly transmitting a message stored therein at a second predetermined radio frequency at predetermined periodic intervals with a fixed length non-transmission interval between each transmission interval, wherein a length of the non-transmission interval is much greater than a length of the message transmission interval, the length of the non-transmission interval for each intelligent device being different due solely to manufacturing tolerances in electrical components of the intelligent devices; and the interrogation device reading the message transmissions of each of the plurality of intelligent devices, wherein a probability of two or more of the plurality of intelligent devices transmitting their respective messages simultaneously is significantly reduced due to variations among the intelligent devices in the fixed non-transmission time and by making the length of the non-transmission interval much greater than the length of the message transmission interval, and wherein the manufacturing tolerances are sufficiently large so as to significantly vary the fixed non-transmission time among the plurality of intelligent devices and thereby significantly reduce the probability that two or more of a plurality of intelligent devices will transmit their respective messages simultaneously. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A radio frequency intelligent device comprising:
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an integrated circuit for storing data; an antenna connected to the integrated circuit, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage therein which provides power to the integrated circuit such that the data stored therein is read from the integrated circuit and repeatedly transmitted at a second predetermined radio frequency; and a timer circuit for creating a predetermined transmission period for repeatedly transmitting the integrated circuit data at the second predetermined radio frequency and a fixed wait period between each predetermined transmission period, wherein the wait period is much greater than the transmission period, wherein for a plurality of devices, a length of the fixed wait period varies from device to device due solely to manufacturing tolerances in electrical components of the devices, the manufacturing tolerances being sufficiently large so that the fixed wait period varies from device to device by a sufficiently significant length so as to significantly reduce the probability of collisions between devices. - View Dependent Claims (12, 13, 14, 15)
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16. A radio frequency identification device comprising:
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an integrated circuit for storing data; an antenna connected to the integrated circuit, the antenna comprising an inductor and a capacitor, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage in the inductor which provides power to the integrated circuit such that the data stored therein is read and provides a continuous data output signal; a transmitter for repeatedly transmitting the data output signal at a second predetermined radio frequency; and a timer for establishing a fixed non-transmission period between each data transmission period, wherein a length of the non-transmission period is much greater than a length of the transmission period, the timer comprising a plurality of electrical components, a manufacturing tolerance of the electrical components causing variations in the length of the fixed non-transmission period among devices, wherein the length of the fixed non-transmission period is different for each device among the plurality of devices due solely to the manufacturing tolerance of the electrical components of each device, and wherein the manufacturing tolerances are sufficiently large so as to significantly vary the fixed non-transmission period among the devices and thereby significantly reduce the probability that two or more of a plurality of devices will transmit their respective messages simultaneously. - View Dependent Claims (17)
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18. A plurality of radio frequency intelligent devices, each device comprising:
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an integrated circuit for storing data; an antenna connected to the integrated circuit, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage therein which provides power to the integrated circuit such that the data stored therein is read from the integrated circuit and repeatedly transmitted at a second predetermined radio frequency; and a timer circuit for creating a predetermined transmission period for repeatedly transmitting the integrated circuit data at the second predetermined radio frequency and a fixed wait period between each predetermined transmission period, wherein the wait period is much greater than the transmission period, wherein for a plurality of devices, a length of the fixed wait period varies from device to device due solely to manufacturing tolerances in electrical components of the devices, the manufacturing tolerances being sufficiently large so that the fixed wait period varies from device to device by a sufficiently significant length so as to significantly reduce the probability of collisions between devices. - View Dependent Claims (19, 20)
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- 21. A method of making a plurality of radio frequency intelligent devices, each device comprising (i) an integrated circuit for storing data, (ii) an antenna connected to the integrated circuit, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage therein which provides power to the integrated circuit such that the data stored therein is read from the integrated circuit and repeatedly transmitted at a second predetermined radio frequency, and (iii) a timer circuit for creating a predetermined transmission period for repeatedly transmitting the integrated circuit data at the second predetermined radio frequency and a fixed wait period between each predetermined transmission period, wherein the wait period is much greater than the transmission period, wherein for a plurality of devices, a length of the fixed wait period varies from device to device due solely to manufacturing tolerances in electrical components of the devices, the manufacturing tolerances being sufficiently large so that the fixed wait period varies from device to device by a sufficiently significant length so as to significantly reduce the probability of collisions between devices.
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24. A plurality of radio frequency identification devices, each device comprising:
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an integrated circuit for storing data; an antenna connected to the integrated circuit, the antenna comprising an inductor and a capacitor, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage in the inductor which provides power to the integrated circuit such that the data stored therein is read and provides a continuous data output signal; a transmitter for repeatedly transmitting the data output signal at a second predetermined radio frequency; and a timer for establishing a fixed non-transmission period between each data transmission period, wherein a length of the non-transmission period is much greater than a length of the transmission period, the timer comprising a plurality of electrical components, a manufacturing tolerance of the electrical components causing variations in the length of the fixed non-transmission period, wherein the length of the fixed non-transmission period is different for each device among the plurality of devices due solely to the manufacturing tolerance of the electrical components of each device, and wherein the manufacturing tolerances are sufficiently large so as to significantly vary the fixed non-transmission period among the devices and thereby significantly reduce the probability that two or more of a plurality of devices will transmit their respective messages simultaneously. - View Dependent Claims (25, 26, 27)
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- 28. A method of making a plurality of radio frequency identification devices, each device comprising (i) an integrated circuit for storing data, (ii) an antenna connected to the integrated circuit, the antenna comprising an inductor and a capacitor, wherein exposure of the antenna to an electromagnetic field at a first predetermined radio frequency induces a voltage in the inductor which provides power to the integrated circuit such that the data stored therein is read and provides a continuous data output signal, (iii) a transmitter for repeatedly transmitting the data output signal at a second predetermined radio frequency, (iv) a timer for establishing a fixed non-transmission period between each data transmission period, wherein a length of the non-transmission period is much greater than a length of the transmission period, the timer comprising a plurality of electrical components, a manufacturing tolerance of the electrical components causing variations in the length of the fixed non-transmission period, wherein the length of the fixed non-transmission period is different for each device among the plurality of devices due solely to the manufacturing tolerance of the electrical components of each device, and wherein the manufacturing tolerances are sufficiently large so as to significantly vary the fixed non-transmission period among the devices and thereby significantly reduce the probability that two or more of a plurality of devices will transmit their respective messages simultaneously.
Specification