Object location monitoring system
First Claim
1. A system for monitoring locations of movable objects, comprising:
- a plurality of beacons mounted in spatial distribution throughout a monitoring area of a building, each beacon transmitting wireless interrogation signals during assigned timeslots of a time division multiple access (TDMA) frame wherein the wireless interrogation signals include a root-raised cosine waveform;
a plurality of transponders, each transponder adapted to be attached to a moveable object, and to respond to the interrogation signals received from the beacons only during a pre-determined transponder timeslot of the TDMA frame by echoing frequency-shifted versions of the interrogation signals (“
transponder responses”
), wherein the transponder responses are received by at least one of the beacons;
a receiver configured to receive a retransmitted interrogation signal and a retransmitted received transponder response from each beacon, wherein the receiver analyzes signals received from the plurality of beacons and identifies the transponder based on the timing of the transponder response within the TDMA frame;
wherein each beacon wirelessly retransmits the retransmitted interrogation signal and the received resulting transponder response to the receiver for analysis, and the receiver determines a time different between the retransmitted interrogation signal and the transponder response retransmitted by the beacon, said time different reflecting a distance between the beacon and the transponder; and
a computer system in communication with the receiver, wherein the computer system uses time differences measured by the receiver in combination with a topological tracking method to determine the locations of the objects.
2 Assignments
0 Petitions
Accused Products
Abstract
An object location monitoring system includes beacons that are spatially distributed throughout an area to be monitored. The beacons transmit interrogation signals that are received and echoed by transponders that attach to moveable objects. Each beacon retransmits its interrogation signal, and any transponder response thereto, to a receiver that measures a time difference between the two signals. This time difference reflects the signal propagation time, and thus the distance, between the beacon and the transponder. One such receiver preferably analyzes the retransmitted signals of multiple (e.g., 50 to 100) beacons. A triangulation method is used to determine the location of each transponder based on the transponder'"'"'s distances from a set of beacons. In one embodiment, the transponders are provided as or within disposable ID bracelets worn by patients, and are used to track the locations of the patients within a hospital.
297 Citations
33 Claims
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1. A system for monitoring locations of movable objects, comprising:
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a plurality of beacons mounted in spatial distribution throughout a monitoring area of a building, each beacon transmitting wireless interrogation signals during assigned timeslots of a time division multiple access (TDMA) frame wherein the wireless interrogation signals include a root-raised cosine waveform; a plurality of transponders, each transponder adapted to be attached to a moveable object, and to respond to the interrogation signals received from the beacons only during a pre-determined transponder timeslot of the TDMA frame by echoing frequency-shifted versions of the interrogation signals (“
transponder responses”
), wherein the transponder responses are received by at least one of the beacons;a receiver configured to receive a retransmitted interrogation signal and a retransmitted received transponder response from each beacon, wherein the receiver analyzes signals received from the plurality of beacons and identifies the transponder based on the timing of the transponder response within the TDMA frame; wherein each beacon wirelessly retransmits the retransmitted interrogation signal and the received resulting transponder response to the receiver for analysis, and the receiver determines a time different between the retransmitted interrogation signal and the transponder response retransmitted by the beacon, said time different reflecting a distance between the beacon and the transponder; and a computer system in communication with the receiver, wherein the computer system uses time differences measured by the receiver in combination with a topological tracking method to determine the locations of the objects. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of determining the distance between a beacon and a transponder, comprising:
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(a) transmitting an interrogation signal by wireless communications from the beacon to the transponder during a TDMA timeslot assigned to the beacon within an interrogation frequency band of the transponder to cause the transponder to return a response signal, the transponder returning the response signal only during a pre-determined transponder timeslot that is a portion of the TDMA timeslot, the response signal being a frequency-shifted version of the interrogation signal wherein the wireless interrogation signals include a root-raised cosine waveform; (b) concurrently with (a), transmitting the interrogation signal within a retransmission frequency band separate from the interrogation frequency band from the beacon to a receiver which is positioned remotely from the beacon; (c) at the beacon, receiving and retransmitting by wireless communications to the receiver the response signal returned by the transponder, the retransmitted response signal from the beacon being transmitted within the retransmission frequency band; and (d) with the receiver, determining a time difference between the interrogation signal transmitted by the beacon in (b) and the response signal retransmitted by the beacon in (c), said time difference reflecting a signal propagation time between the beacon and the transponder. - View Dependent Claims (13, 15, 16, 17)
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14. A method of determining the distance between a beacon and a transponder, comprising:
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(a) transmitting an interrogation signal including a root-raised cosine waveform by wireless communications from the beacon to the transponder within an interrogation frequency band of the transponder to cause the transponder to return a response signal, the response signal being a frequency-shifted version of the interrogation signal; (b) concurrently with (a), transmitting the interrogation signal from the beacon to a receiver which is positioned remotely from the beacon; (c) at the beacon, receiving and retransmitting by wireless communications to the receiver the response signal returned by the transponder; and (d) with the receiver, determining a time different between the root-raised cosine waveforms included in the interrogation signal transmitted by the beacon in (b) and the response signal retransmitted by the beacon in (c), said time different reflecting a signal propagation time between the beacon and the transponder.
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18. A transponder device adapted to be worn by a patient to permit the patient'"'"'s location to be monitored, the transponder device comprising:
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a disposable wristband; and a transponder module which is adapted to be releasably attached to the disposable wristband, the transponder module including a transponder circuit that is responsive to a wireless interrogation signal received within a first frequency band by echoing the interrogation signal within a second frequency band, wherein the interrogation signal within the second frequency band is transmitted at a higher transmission power than the interrogation signal received with the first frequency band, further wherein the transponder module senses an identifier of the disposable wristband upon attachment to the wristband, the identifier used to determine the timing of the response of the transponder module to the interrogation signal. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A disposable wristband adapted for use in monitoring locations of patients, comprising:
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a base portion which houses a battery for providing power to a transponder module operable to generate a locating signal, the housing being configured to releasably receive the transponder module such that the transponder module may be removed from the base portion and reused following use by a patient; a wristband portion attached to the base portion for attachment to the wrist of a patient; and an identifier portion which embodies an identifier such that the identifier is readable by the transponder module when the transponder module is inserted within the base portion, wherein the operation of the transponder module to generate the locating signal is determined by the identifier, further wherein the transponder is configured to receive an interrogation signal including a root-raised cosine waveform from a beacon. - View Dependent Claims (30, 31, 32, 33)
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Specification