METHOD FOR OPTIMIZING THE LOCATING ACCURACY OF AN RFID TAG IN AN ULTRA-HIGH FREQUENCY RADIO RANGE IN A SYSTEM FOR LOCATING RFID TAGS COMPRISING A PLURALITY OF READING DEVICES
First Claim
1. A method for optimizing the locating accuracy of an RFID tag in an ultra-high frequency radio range in a system for locating RFID tags in a room comprising a plurality of reading devices, wherein an initial step of locating of an RFID tag is carried out by detecting the RFID tag with at least one reading device, and thereafter points with a minimal amplitude (“
- cold spots”
) are generated or moved in a targeted fashion in the room using a predetermined variation of at least one of phase position, frequency and transmission amplitude of the individual reading devices, wherein the location and volume of the RFID tags as a function of the phase position, the frequency and the transmission amplitude of the individual reading devices is known by means of at least one of simulations and measurements, and wherein, if an RFID tag is no longer detected by any reading device, such tag is located in a cold spot that is identified by means of the first, rough location of the RFID tag, thereby allowing for accurate locating of the RFID tag.
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Accused Products
Abstract
In a method for optimizing the locating accuracy of an RFID tag in an ultra-high frequency radio range in a system for locating RFID tags in a room comprising a plurality of reading devices, a first step of locating of the RFID tag is initially carried out using methods known from the prior art, whereby for this purpose the RFID tag is detected by at least one reading device. Thereafter cold spots, i.e., points with minimal amplitude, are generated or moved in a targeted fashion in the room using a predetermined variation of the phase position, the frequency and/or the transmission amplitude of the individual reading devices, whereby their location and volume as a function of the phase position, the frequency and the transmission amplitude of the individual reading devices is known by means of simulations and/or measurements. If an RFID tag is no longer detected by any reading device, the same is located in a cold spot, which is identified by means of the first, rough locating of the RFID tag using methods known from the prior art, which allows for accurate locating of the RFID tag.
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Citations
3 Claims
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1. A method for optimizing the locating accuracy of an RFID tag in an ultra-high frequency radio range in a system for locating RFID tags in a room comprising a plurality of reading devices, wherein an initial step of locating of an RFID tag is carried out by detecting the RFID tag with at least one reading device, and thereafter points with a minimal amplitude (“
- cold spots”
) are generated or moved in a targeted fashion in the room using a predetermined variation of at least one of phase position, frequency and transmission amplitude of the individual reading devices, wherein the location and volume of the RFID tags as a function of the phase position, the frequency and the transmission amplitude of the individual reading devices is known by means of at least one of simulations and measurements, and wherein, if an RFID tag is no longer detected by any reading device, such tag is located in a cold spot that is identified by means of the first, rough location of the RFID tag, thereby allowing for accurate locating of the RFID tag. - View Dependent Claims (2, 3)
- cold spots”
Specification