Portable encoded information reading terminal configured to adjust transmit power level
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06K-007/00
H04Q-009/00
G06K-007/10
G06K-007/14
출원번호
US-0295302
(2016-10-17)
등록번호
US-10127414
(2018-11-13)
발명자
/ 주소
Zumsteg, Philip
출원인 / 주소
HAND HELD PRODUCTS, INC.
대리인 / 주소
Oliff PLC
인용정보
피인용 횟수 :
0인용 특허 :
40
초록▼
A system and method of adjusting the transmission strength emitted by an integrated RFID reader. The system may stores the location of the RFID when moved proximate to an object as a point of origin. When the RFID reader moves relative to the point of origin, the system may determine the distance of
A system and method of adjusting the transmission strength emitted by an integrated RFID reader. The system may stores the location of the RFID when moved proximate to an object as a point of origin. When the RFID reader moves relative to the point of origin, the system may determine the distance of the RFID reader from the point of origin and may adjust the power level of the RFID reader relative to this distance.
대표청구항▼
1. A method of adjusting a transmission strength emitted by a reader, the method comprising: scanning, an item by the reader, at a first location as a point of origin at a first power level;storing the first location in memory of the reader; anddetermining a distance of a second location of the read
1. A method of adjusting a transmission strength emitted by a reader, the method comprising: scanning, an item by the reader, at a first location as a point of origin at a first power level;storing the first location in memory of the reader; anddetermining a distance of a second location of the reader relative to the first location based on the data received from a motion sensor;changing the power level of the reader to a second power level based on the distance, which is determined based on the data received from the motion sensor; andscanning at the second power level. 2. The method of claim 1, wherein the second power level is lower than the first power level. 3. The method of claim 1, wherein the reader comprises one of: an RFID reader or a bar code scanner. 4. The method of claim 1, further comprising: communicating an alert when the second power level is a maximum power level of the reader, orcommunicating an alert when the second power level is a minimum power level of the reader. 5. The method of claim 1, further comprising: scanning an encoded item, by the reader, for encoded data;transmitting the encoded data obtained by the reader item to a database or memory; andobtaining, using the encoded data, either (1) information about an item associated with the encoded item or (2) initial calibration data for the reader. 6. The method of claim 1, wherein the encoded item comprises a barcode. 7. The method of claim 1, further comprising tracking motion of the reader; andnotifying a user via an audible or visible signal after the tracking begins and after a predetermined noise level threshold has been reached. 8. The method of claim 1, wherein power levels of the reader at various locations of the reader's position are tracked and stored in memory. 9. The method of claim 1, further comprising switching between an antenna with wide and an antenna narrow radiation pattern, wherein the reader comprises at least two antennas. 10. A method of adjusting the transmission strength emitted by an integrated RFID reader, the method comprising: scanning, by the RFID reader, a signal of decodable indicia that is located on or proximate to an area of a physical object;responsive to scanning the signal of decodable indicia and responsive to the RFID reader being proximate to the area of the physical object based on data received from a motion sensor, identifying a first location of the RFID reader;responsive to moving the RFID reader relative to the first location, determining a distance, based on the data received from the motion sensor, of the RFID reader from the first location; andadjusting a power level of the RFID reader relative to the distance, which is determined based on the data received from the motion sensor, of the RFID reader relative to the first location. 11. The method of claim 10, wherein the motion sensor is provided by a 9 degree of freedom Inertial Measurement Unit, wherein the 9 degree of freedom Inertial Measurement Unit comprises a 3-axis accelerometer, a 3-axis magnetometer, and a 3-axis gyroscope. 12. The method of claim 10, further comprising: responsive to scanning the signal of decodable indicia, locating the decodable indicia within the signal;responsive to locating the decodable indicia within the signal, decoding the decodable indicia into a decoded message,wherein the decoded message comprises: an identifier for the physical object; anddisplaying the identifier for the physical object. 13. The method of claim 10, wherein the responsive to scanning the signal of decodable indicia and responsive to the RFID reader being proximate to the area of the physical object, identifying, as a point of origin, a first location associated with the area comprises: responsive to scanning the signal of decodable indicia: responsive to detecting a communication interface command, making mechanical contact with the area of the physical object; andresponsive to making mechanical contact with the area of the physical object, storing in memory the first location as a point of origin. 14. The method of claim 10, further comprising: moving the RFID reader relative to the physical object;receiving values from the motion sensor representing a location of the RFID reader relative to the first location; anddetermining a distance of the RFID reader from the first location. 15. An apparatus comprising: a scanning device that scans a signal of decodable indicia on an area associated with a physical object;a reader transmitting at a power level; anda motion sensor,wherein responsive to scanning the signal of decodable indicia and responsive to the reader being proximate to the area of the physical object and responsive to the RFID reader being proximate to the area of the physical object based on data received from a motion sensor, a first location of the reader is identified,wherein, in response to moving the reader relative to the first location, a distance, based on the data received from the motion sensor, of the reader from the first location is determined, andwherein, in response to determining the distance based on the data received from the motion sensor, the power level of the reader is adjusted relative to the distance. 16. The apparatus of claim 15, wherein the motion sensor is provided by a 9 degree of freedom Inertial Measurement Unit, wherein the 9 degree of freedom Inertial Measurement Unit comprises a 3-axis accelerometer, a 3-axis magnetometer, and a 3-axis gyroscope. 17. The apparatus of claim 15, wherein the reader comprises an RFID reader, wherein the scanning device comprises a bar code reader, and wherein the decodable indicia comprises a bar code. 18. The apparatus of claim 15, wherein the scanning device locates the decodable indicia within the signal of decodable indicia, decodes the decodable indicia into a decoded message, and outputs the decoded message, wherein the decoded message contains information associated with the physical object. 19. The apparatus of claim 15, wherein the reader comprises an RFID reader, and wherein the scanning device is part of the RFID reader. 20. The apparatus of claim 15, wherein in response to moving the reader relative to the first location and based on data received from the motion sensor, a distance of the reader from the point of origin is determined.
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