System for and method of estimating bearings of radio frequency identification (RFID) tags that return RFID receive signals whose power is below a predetermined threshold

The invention claimed is: 1. A radio frequency (RF) identification (RFID) tag reading system for estimating a bearing of an RFID tag associated with an item in a controlled area having sectors, comprising: an RFID reader having a plurality of antenna elements, and a plurality of RF transceivers; and a controller operatively connected to the transceivers, and configured to control the transceivers by executing a tag processing module operative for steering a primary transmit beam in the controlled area by transmitting a primary transmit signal via the antenna elements to the tag, and by steering a primary receive beam in the controlled area at a primary steering angle by receiving a primary receive signal via the antenna elements from the tag, the controller being further configured to control the transceivers by executing a bearing processing module configured to steer a plurality of secondary receive beams in the controlled area at respective secondary steering angles that are offset from the primary steering angle by receiving a plurality of secondary receive signals via the antenna elements from the tag, the controller being further configured to steer the primary receive beam to a plurality of locations of a sector in the controlled area in a coarse scan to find the tag, steer the secondary receive beams to the found tag, compare a receive signal strength indicator (RSSI) of at least one of the secondary receive signals against a threshold, and, when the RSSI is below the threshold, determine the location at which the RSSI of the primary receive signal is a maximum, and steer the primary receive beam in a limited scan to an array of locations distributed around the location at which the RSSI is a maximum, and record the RSSI of the primary receive signal at each location of the limited scan, and the controller being further configured to process the recorded RSSIs at each location of the limited scan to determine an effective weighted center of distribution of the recorded RSSIs, and estimate the bearing for the tag based on the weighted center of distribution, wherein the number of locations in the limited scan is less than the number of locations in the coarse scan. 2. The system of claim 1 , wherein the controller is configured to steer the primary receive beam to a subset of the locations that are spaced apart from one another in the sector in the coarse scan. 3. The system of claim 1 , wherein the controller is configured to steer the primary receive beam to all of the locations in each sector in a fine scan when the tag was not found during the coarse scan, and determine in which one of the sectors the RSSI of the primary receive signal is a maximum, and wherein the controller performs the limited scan in said one sector. 4. The system of claim 1 , wherein the array of locations in the limited scan is a mutually orthogonal arrangement of an odd number of rows and an odd number of columns, and wherein the location at which the RSSI is a maximum is at a center location of the array. 5. A radio frequency (RF) identification (RFID) tag reading system for estimating a bearing of an RFID tag associated with an item in a controlled area having sectors, comprising: an RFID reader mounted in the controlled area, and having a plurality of antenna elements, and a plurality of RF transceivers; a server operatively connected to the RFID reader; and a controller located in at least one of the RFID reader and the server and operatively connected to the transceivers, and configured to control the transceivers by executing a tag processing module configured to steer a primary transmit beam in the controlled area by transmitting a primary transmit signal via the antenna elements to the tag, and steer a primary receive beam in the controlled area at a primary steering angle by receiving a primary receive signal via the antenna elements from the tag, the controller being further configured to control the transceivers by executing a bearing processing module configured to steer a plurality of secondary receive beams in the controlled area at respective secondary steering angles that are offset from the primary steering angle by receiving a plurality of secondary receive signals via the antenna elements from the tag, the controller being further configured to steer the primary receive beam to a plurality of locations of a sector in the controlled area in a coarse scan to find the tag, steer the secondary receive beams to the found tag, compare a receive signal strength indicator (RSSI) of at least one of the secondary receive signals against a threshold, and, when the RSSI is below the threshold, determine the location at which the RSSI of the primary receive signal is a maximum, and steer the primary receive beam in a limited scan to an array of locations distributed around the location at which the RSSI is a maximum, and record the RSSI of the primary receive signal at each location of the limited scan, and the controller being further configured to process the recorded RSSIs at each location of the limited scan to determine an effective weighted center of distribution of the recorded RSSIs, and estimate the bearing for the tag based on the weighted center of distribution, wherein the number of locations in the limited scan is less than the number of locations in the coarse scan. 6. The system of claim 5 , wherein the controller is configured to steer the primary receive beam to a subset of the locations that are spaced apart from one another in the sector in the coarse scan. 7. The system of claim 5 , wherein the controller is configured to steer the primary receive beam to all of the locations in each sector in a fine scan when the tag was not found during the coarse scan, and determine in which one of the sectors the RSSI of the primary receive signal is a maximum, and wherein the controller performs the limited scan in said one sector. 8. The system of claim 5 , wherein the array of locations in the limited scan is a mutually orthogonal arrangement of an odd number of rows and an odd number of columns, and wherein the location at which the RSSI is a maximum is at a center location of the array. 9. A radio frequency (RF) identification (RFID) tag reading method of estimating a bearing of an RFID tag associated with an item in a controlled area having sectors, comprising: operating an RFID reader having a plurality of antenna elements, and a plurality of RF transceivers, in the controlled area; controlling the transceivers by executing a tag processing module operative for steering a primary transmit beam in the controlled area by transmitting a primary transmit signal via the antenna elements to the tag, and for steering a primary receive beam in the controlled area at a primary steering angle by receiving a primary receive signal via the antenna elements from the tag; controlling the transceivers by executing a bearing processing module operative for steering a plurality of secondary receive beams in the controlled area at respective secondary steering angles that are offset from the primary steering angle by receiving a plurality of secondary receive signals via the antenna elements from the tag; steering the primary receive beam to a plurality of locations of a sector in the controlled area in a coarse scan to find the tag; steering the secondary receive beams to the found tag; comparing a receive signal strength indicator (RSSI) of at least one of the secondary receive signals against a threshold, and, when the RSSI is below the threshold, determining the location at which the RSSI of the primary receive signal is a maximum; steering the primary receive beam in a limited scan to an array of locations distributed around the location at whi