Array antenna system and algorithm applicable to RFID readers

US 8,952,815 B2
Filed: 11/20/2013
Issued: 02/10/2015
Est. Priority Date: 01/30/2008
Status: Active Grant

First Claim

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1. A non-transitory, computer readable medium containing a set of instructions that when executed cause a computer to perform a method of reading one or more RFID tags, wherein the method comprises:

positioning one or more RFID tags in a volume of interest;

positioning a plurality of antennas, wherein each antenna of the plurality of antennas is configured to produce an RF field in the volume of interest when an antenna input signal is inputted to the each antenna of the plurality of antennas, wherein one or more antenna of the plurality of antennas is configured to produce an RF field at any position in the volume of interest;

receiving an input RF signal, wherein the input RF signal is suitable for reading at least one of the one or more RFID tags;

producing a corresponding plurality of antenna input signals from the received input RF signal, each of the plurality of antenna input signals suitable for reading the at least one of the one or more RFID tags;

inputting each of the plurality of antenna input signals into a corresponding antenna of the plurality of antennas while the plurality of antennas is in a first state during a first period of time, such that a corresponding first plurality of RF fields is simultaneously produced in the volume of interest from the plurality of antennas;

receiving a first receive RF signal, wherein the first receive RF signal is due to the first plurality of RF fields produced during the first period of time being incident on the at least one of the one or more RFID tags;

processing the first receive RF signal to determine whether the at least one of the one or more RFID tags is present in the volume of interest;

inputting each of the plurality of antenna input signals into the corresponding antenna of the plurality of antennas while the plurality of antennas is in a second state during a second period of time, such that a corresponding second plurality of RF fields is simultaneously produced in the volume of interest from the plurality of antennas, wherein the second plurality of RF fields produced in the region of interest is altered compared with the first plurality of RF fields produced in the volume of interest;

receiving a second receive RF signal, wherein the second receive RF signal is due to the plurality of RF fields produced during the second period of time being incident on the at least one of the one or more RFID tags;

processing the second receive RF signal to determine whether the at least one of the one or more RFID tags is present in the volume of interest, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest via one or more of the following;

altering a phase of a first at least one of the plurality of antenna input signals, wherein altering the phase of the first at least one of the plurality of antenna input signals is independent of altering a phase of any other of the plurality of antenna input signals,altering a ratio of amplitudes of a first at least two of the plurality of antenna input signals,altering a radiation pattern of a first at least one of the plurality of antennas, andaltering a polarization of a second at least one of the plurality of antennas.

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Abstract

Embodiments of the invention pertain to Radio Frequency Identification (RFID) method and system using an antenna array, an array controller, and control algorithms. Embodiments of the invention can induce strong radio-frequency (RF) excitation, for a given level of radiated RF power, at any point within an arbitrary inhomogeneous medium. For RFID applications, one typical inhomogeneous medium is an ensemble of cases on a pallet. Another typical medium is a warehouse environment having stored goods together with shelving and other material present. An embodiment of the invention is applicable to the process of reading battery-less, or “passive” RFID tags, which rely on incident RF electromagnetic fields established by RFID readers to power the electronic circuitry within the tags.

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31 Claims

1. A non-transitory, computer readable medium containing a set of instructions that when executed cause a computer to perform a method of reading one or more RFID tags, wherein the method comprises:
- positioning one or more RFID tags in a volume of interest;
  
  positioning a plurality of antennas, wherein each antenna of the plurality of antennas is configured to produce an RF field in the volume of interest when an antenna input signal is inputted to the each antenna of the plurality of antennas, wherein one or more antenna of the plurality of antennas is configured to produce an RF field at any position in the volume of interest;
  
  receiving an input RF signal, wherein the input RF signal is suitable for reading at least one of the one or more RFID tags;
  
  producing a corresponding plurality of antenna input signals from the received input RF signal, each of the plurality of antenna input signals suitable for reading the at least one of the one or more RFID tags;
  
  inputting each of the plurality of antenna input signals into a corresponding antenna of the plurality of antennas while the plurality of antennas is in a first state during a first period of time, such that a corresponding first plurality of RF fields is simultaneously produced in the volume of interest from the plurality of antennas;
  
  receiving a first receive RF signal, wherein the first receive RF signal is due to the first plurality of RF fields produced during the first period of time being incident on the at least one of the one or more RFID tags;
  
  processing the first receive RF signal to determine whether the at least one of the one or more RFID tags is present in the volume of interest;
  
  inputting each of the plurality of antenna input signals into the corresponding antenna of the plurality of antennas while the plurality of antennas is in a second state during a second period of time, such that a corresponding second plurality of RF fields is simultaneously produced in the volume of interest from the plurality of antennas, wherein the second plurality of RF fields produced in the region of interest is altered compared with the first plurality of RF fields produced in the volume of interest;
  
  receiving a second receive RF signal, wherein the second receive RF signal is due to the plurality of RF fields produced during the second period of time being incident on the at least one of the one or more RFID tags;
  
  processing the second receive RF signal to determine whether the at least one of the one or more RFID tags is present in the volume of interest, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest via one or more of the following;
  
  altering a phase of a first at least one of the plurality of antenna input signals, wherein altering the phase of the first at least one of the plurality of antenna input signals is independent of altering a phase of any other of the plurality of antenna input signals,altering a ratio of amplitudes of a first at least two of the plurality of antenna input signals,altering a radiation pattern of a first at least one of the plurality of antennas, andaltering a polarization of a second at least one of the plurality of antennas.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31)
- - 2. The medium according to claim 1, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest by altering a phase of at least one of the plurality of antenna input signals.
  - 3. The medium according to claim 1, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest by altering a ratio of amplitudes of at least two of the plurality of antenna input signals.
  - 4. The medium according to claim 1, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest by altering a radiation pattern of at least one of the plurality of antennas.
  - 5. The medium according to claim 1, wherein the second plurality of RF fields produced in the volume of interest is altered as compared to the first plurality of RF fields produced in the volume of interest by altering a polarization of at least one of the plurality of antennas.
  - 6. The medium according to claim 1, further comprising:
    - a) inputting each of the plurality of antenna input signals into the corresponding antenna of the plurality of antennas while the plurality of antennas are in at least one additional state during at least one additional period of time, such that a corresponding at least one additional plurality of RF fields are simultaneously produced in the volume of interest from the plurality of antennas;
      
      b) receiving at least one additional receive RF signal, wherein the at least one additional receive RF signal is due to the at least one additional plurality of RF fields produced during the at least one additional period of time being incident on the at least one of the one or more RFID tags, wherein each of the at least one additional plurality of RF fields produced in the volume of interest is altered as compared with the first plurality of RF fields, is altered as compared with the second plurality of RF fields, and is altered as compared with each of the other at least one additional plurality of RF fields produced in the volume of interest; and
      
      c) processing the at least one additional receive RF signal to determine whether the at least one of the one or more RFID tags is present in the volume of interest.
  - 7. The medium according to claim 6, further comprising:
    - repeating a, b, and c until a criterion is met.
  - 8. The medium according to claim 6, wherein the criterion is all of the one or more RFID tags in the volume of interest are present.
  - 9. The medium according to claim 8, wherein the criterion is all of the states of at least one additional state have been utilized.
  - 10. The medium according to claim 8, wherein the criterion is a certain time period has passed.
  - 11. The medium according to claim 8, wherein the criterion is a termination signal is received.
  - 12. The medium according to claim 1, wherein receiving the first receive RF signal and receiving the second receive RF signal is accomplished via an RF receiver.
  - 13. The medium according to claim 12, wherein the RF receiver comprises the plurality of antennas.
  - 14. The medium according to claim 12, wherein the RF receiver comprises a second plurality of antennas.
  - 15. The medium according to claim 1, wherein receiving the input RF signal comprises receiving the input RF signal from an RFID reader.
  - 16. The medium according to claim 15, further comprising:
    - inputting the first receive RF signal to the RFID reader; and
      
      inputting the second receive RF signal to the RFID reader.
  - 17. The medium according to claim 6, wherein the first state, second state, and the at least one additional state are ordered to place states having a statistically higher probability of successfully reading tags earlier in the ordering.
  - 18. The medium according to claim 6, wherein the first state, second state, and the at least one additional state are ordered to place array states for which RFID tags have been successfully read earlier in the ordering.
  - 19. The medium according to claim 17, wherein the probability of successfully reading tags applies to a specific ensemble of tags in a fixed configuration.
  - 20. The medium according to claim 18, wherein the RFID tags that have been successfully read comprise a specific ensemble of tags in a fixed configuration.
  - 21. The medium according to claim 19, wherein the probability of successfully reading tags applies to a category of ensembles.
  - 22. The medium according to claim 20, wherein the proven history of successfully reading tags applies to a category of ensembles.
  - 23. The medium according to claim 6, wherein one or more electronic control elements are used to alter the plurality of RE fields produced in the volume of interest in order to change the plurality of antennas from one of:
    - the first state, the second state, and the at least one additional state, to another of;
      
      the first state, the second state, and the at least one additional state, wherein digital commands are provided to the electronic control elements to alter the plurality of RF fields produced in the volume of interest, wherein the first state, the second state, and the at least one additional state include all possible states, wherein possible states correspond to possible combinations of digital commands that can be provided to the electronic control elements.
  - 24. The medium according to claim 23, wherein one or more electronic control elements are used to alter the plurality of RF fields produced in the volume of interest in order to change the plurality of antennas from one of:
    - the first state, the second state, and the at least one additional state, to another of;
      
      the first state, the second state, and the at least one additional state, wherein digital commands are provided to the electronic control elements to alter the plurality of RF fields produced in the volume of interest, wherein the first state, the second state, and the at least one additional state are ordered so that all possible permutations of the N most-significant bits of the digital commands are cycled through first, where N is an integer.
  - 25. The medium according to claim 16, wherein data from the RFID reader and/or a controller of the RFID reader is monitored to detect reports of newly identified tags, wherein an interval between successive new tag identifications is calculated from detections, and wherein the state of the plurality of antennas is changed when the interval between new tag identifications is longer than a specified threshold.
  - 26. The medium according to claim 16, wherein transmissions of the RFID reader are monitored and processed, and wherein signal features from the transmissions such as burst durations, signal gaps, and frequency hops are used to ascertain the status of the reader with respect to the reader'"'"'s read cycles.
  - 27. The medium according to claim 26, wherein the signal features are utilized to time state transitions so as to avoid corruption of individual read cycles.
  - 28. The medium according to claim 1, wherein at least the first receive RF signal or the second receive RF signal has a higher intensity than a third receive RF signal due to an RF field produced in the volume of interest being incident on the at least one of the one or more RFID tags, wherein the RF field is produced upon inputting the input RF signal to any one of the plurality of antennas.
  - 29. The medium according to claim 1, wherein for at least one location in the volume of interest each antenna of the plurality of antennas is configured to produce an RF field at the at least one location in the volume of interest.
  - 30. The medium according to claim 1, wherein each antenna of the plurality of antennas is configured to produce an RF field at any position in the volume of interest.
  - 31. The medium according to claim 1, further comprising:
    - positioning one or more auxiliary receive antennas in the volume of interest,sensing a far-field electromagnetic field intensity of the plurality of RF fields in real time via the one or more auxiliary receive antennas,adjusting a magnitude of transmitted power from the plurality of antennas in real time based on the far-field electromagnetic field intensity sensed by the one or more auxiliary receive antennas.

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Current Assignee
Metrc, LLC
Original Assignee
Franwell, Inc.
Inventors
Smith, Mark H.
Primary Examiner(s)
Bugg, George
Assistant Examiner(s)
Labbees, Edny

Application Number

US14/085,294
Publication Number

US 20140076972A1
Time in Patent Office

447 Days
Field of Search

3405721-5729, 235375-385, 343/844, 343/893
US Class Current

340/572.7
CPC Class Codes

G06K 7/10158   methods and means used by t...

G06K 7/10178   including auxiliary means f...

G06K 7/10316   using at least one antenna ...

G06K 7/10326   the antenna being of the ve...

G06K 7/10346   the antenna being of the fa...

G06K 7/10356   using a plurality of antenn...

H01Q 1/2216   used in interrogator/reader...

H01Q 21/245   provided with means for var...

H01Q 3/00   Arrangements for changing o...

H01Q 3/30   varying the relative phase ...

H04B 5/48   Transceivers

H04B 5/77   for interrogation

H04B 7/0615   of weighted versions of sam...

H04B 7/0842   Weighted combining

H04B 7/10   Polarisation diversity; Dir...

Array antenna system and algorithm applicable to RFID readers

First Claim

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Abstract

13 Citations

31 Claims

Specification

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Array antenna system and algorithm applicable to RFID readers

First Claim

2 Assignments

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Accused Products

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Abstract

13 Citations

31 Claims

Specification

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Solutions

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