IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
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| 국제특허분류(IPC7판) |
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| 출원번호 |
US-0385941
(2003-03-11)
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발명자
/ 주소 |
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| 출원인 / 주소 |
- Symbol Technologies, Inc.
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| 대리인 / 주소 |
Carter, DeLuca, Farrell &
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| 인용정보 |
피인용 횟수 :
48 인용 특허 :
13 |
초록
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An RFID reader and imaging system is provided having a device for imaging an object associated with a tag whose RFID code is read by an RFID reader. The imaging device generates image data associated with the imaged object. Verification software executable on at least one processor of the system is
An RFID reader and imaging system is provided having a device for imaging an object associated with a tag whose RFID code is read by an RFID reader. The imaging device generates image data associated with the imaged object. Verification software executable on at least one processor of the system is provided for verifying whether the RFID code presented to be read and processed by the RFID reader and imaging system corresponds to the imaged object. The process of verification is performed by comparing the acquired image data or other data associated with the imaged object with the stored image data or other stored data corresponding with the RFID code read. Based on whether the acquired image data or other data substantially matches the stored image data or other stored data, the system verifies whether the appropriate RFID code was read.
대표청구항
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The invention claimed is: 1. An RFID reader and imaging system for verifying an RFID read for determining if an RFID tag that was read is an RFID tag that was intended to be read, said system comprising: RFID reader circuitry for reading an RFID tag including receiving RFID tag data from the RFID t
The invention claimed is: 1. An RFID reader and imaging system for verifying an RFID read for determining if an RFID tag that was read is an RFID tag that was intended to be read, said system comprising: RFID reader circuitry for reading an RFID tag including receiving RFID tag data from the RFID tag; an imaging engine having an array of image sensors for sensing an image of an object and generating image data corresponding to said object; a database storing a plurality of RFID codes and image data associated with respective RFID codes of the plurality of RFID codes, wherein the associated image data represents at least one image of at least one object having an RFID tag; and a processing unit for receiving the RFID tag data from the RFID reader circuitry and the generated image data from the imaging engine, said processing unit comprising: an RFID decoding module including programmable instructions executable on the processing unit for decoding the received RFID tag data and generating an RFID code; a database query module including programmable instructions executable on the processing unit for accessing stored image data associated with an RFID code which matches the generated RFID code; and a comparator module including programmable instructions executable on the processing unit for comparing the generated image data, including an image of the generated image data, with the accessed image data, including an image of the accessed image data, for determining whether the generated image data corresponds to the generated RFID code for verifying the RFID read for determining if the RFID tag corresponds to the object, and if so, concluding that the RFID tag is the RFID tag intended to be read, and if not, concluding that the RFID tag corresponds to a different object and is not the RFID tag intended to be read. 2. The system according to claim 1, wherein the imaging engine and the RFID reader circuitry are housed within an integrated RFID reading and imaging device. 3. The system according to claim 1, wherein signals generated by the imaging engine and the RFID reader circuitry are processed successively by signal processing circuitry. 4. The system according to claim 1, wherein the image data associated with respective RFID codes of the plurality of RFID codes includes a plurality of images. 5. The system according to claim 4, wherein the comparator module includes means for comparing the generated image data with at least one of the plurality of images corresponding to the generated RFID code. 6. The system according to claim 4, wherein respective image data entries of a plurality of image data entries of image data associated with respective RFID codes include images corresponding to different views of the at least one object. 7. The system according to claim 1, wherein the image data associated with respective RFID codes includes data indicative of at least one characteristic of the at least one object. 8. The system according to claim 1, wherein the image data associated with the respective RFID codes includes data extracted from an image of the at least one object. 9. The system according to claim 1, wherein the processing unit further comprises a face determination module for determining data of the generated image data corresponding to at least one face of the object imaged by the imaging engine. 10. The system according to claim 1, wherein the processing unit further comprises a data extraction module including programmable instructions executable on the processing unit for extracting data from the generated image data. 11. The system according to claim 10, wherein the extracted data is indicative of at least one characteristic of the object imaged by the imaging engine. 12. The system according to claim 1, wherein; the RFID reader receives RFID tag data from more than one RFID tag; the RFID decoding module generates an RFID code which corresponds to respective RFID tag reads; the database query module accesses respective stored image data associated with respective RFID codes which match respective generated RFID codes; and the comparator module compares the generated image data with respective accessed image data for determining the best correlation thereof for determining the best correspondence between the generated image data and one of the generated RFID codes, and that the generated RFID code having the best correspondence corresponds to the RFID tag intended to be read, and if a correlation does not exist, determining that a misread occurred. 13. A method for verifying an RFID read for determining if an RFID tag that was read is an RFID tag that was intended to be read, the method comprising the steps of: receiving an RFID code which was decoded from a set of RFID tag data obtained by reading an RFID tag during an RFID read operation; receiving image data corresponding to an object and obtained by an imaging operation performed substantially simultaneously with the RFID read operation; querying a database for accessing stored data corresponding to a stored RFID code which matches the received RFID code; and comparing the received image data, including an image of the received image data, with the accessed stored data, including an image of the accessed stored data, for determining whether the received image data corresponding to said object corresponds to the received RFID code corresponding to said RFID tag for determining if the RFID tag corresponds to the object, and if so, concluding that the RFID tag is the RFID tag intended to be read, and if not, concluding that the RFID tag corresponds to a different object and is not the RFID tag intended to be read. 14. The method according to claim 13, wherein: the receiving the RFID code step includes receiving a plurality of RFID codes which were decoded from a plurality of respective sets of RFID tag data corresponding to a plurality of respective RFID tags read during the RFID read operation; the querying step includes accessing a set of stored data corresponding to respective stored RFID codes which match respective received RFID codes of the plurality of received RFID codes; and the comparing step includes comparing the received image data with the respective sets of accessed data for determining the optimum correlation thereof for determining which received RFID codes of the plurality of received RFID codes corresponds to the received image data and that the determined RFID code is decoded from RFID tag data that corresponds to the RFID tag intended to be read, and if a correlation does not exist, determining that a misread occurred. 15. A computer-readable medium storing a series of programmable instructions configured for execution by at least one processor for performing an RFID verification for determining if an RFID tag that was read is an RFID tag that was intended to be read, the method comprising the steps of: receiving an RFID code which was decoded from a set of RFID tag data obtained by reading an RFID tag during an RFID read operation; receiving image data corresponding to an object and obtained by an imaging operation performed substantially simultaneously with the RFID read operation; querying a database for accessing stored data corresponding to a stored RFID code which matches the received RFID code; and comparing the received image data, including an image of the received image data, with the accessed stored data, including an image of the accessed stored data, for determining whether the received image data corresponding to said object corresponds to the received RFID code corresponding to said RFID tag for determining if the RFID tag corresponds to the object, and if so, concluding that the RFID tag is the RFID tag intended to be read, and if not, concluding that the RFID tag corresponds to a different object and is not the RFID tag intended to be read. 16. A verification system for verifying an RFID read for determining if an RFID tag that was read is an RFID tag that was intended to be read, comprising: means for receiving an RFID code which was decoded from a set of RFID tag data obtained by reading an RFID tag during an RFID read operation; means for receiving object data corresponding to an object, wherein the object data was sensed substantially simultaneously with the RFID read operation; means for querying a database for accessing stored data corresponding to a stored RFID code which matches the received RFID code; and means for comparing the received object data with the accessed data for determining whether the received object data corresponding to said object corresponds to the received RFID code corresponding to said RFID tag for determining if the RFID tag corresponds to the object, and if so, concluding that the RFID tag is the RFID tag intended to be read, and if not, concluding that the RFID tag corresponds to a different object and is not the RFID tag intended to be read. 17. The verification system according to claim 16, wherein the stored data corresponding to the generated RFID code is image data and the received object data is image data obtained by an imaging engine. 18. The verification system according to claim 17, wherein the received object data is derived from the image data. 19. The verification system according to claim 16, wherein: the means for receiving the RFID code includes means for receiving a plurality of RFID codes which were decoded from a plurality of respective sets of RFID tag data corresponding to a plurality of respective RFID tags read during the RFID read operation; the means for querying includes means for accessing a set of stored data corresponding to respective stored RFID codes which match respective received RFID codes of the plurality of received RFID codes; and the means for comparing includes means for comparing the received object data with the respective sets of accessed data for determining the optimum correlation thereof for determining which received RFID codes of the plurality of received RFID codes corresponds to the received object data, and that the determined RFID code is decoded from the RFID tag data that corresponds to the RFID tag intended to be read, and if a correlation does not exist, determining that a misread occurred. 20. The verification system according to claim 17, wherein the means for comparing determines if the comparison is within a predetermined image recognition certainty threshold.
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