US20140229196A1 - Wireless Tracking System And Method For Analyzing An Interaction Between Objects - Google Patents

Abstract

The present invention provides a solution to determining an interaction between objects through wireless tracking. The present invention utilizes communication devices attached to objects that transmit signals for reception by sensors stationed throughout a facility which forward the signals to an information engine for analysis.

Description

CROSS REFERENCES TO RELATED APPLICATIONS
• The Present application is a continuation application of U.S. patent application Ser. No. 13/646,640, filed on Oct. 5, 2012, which is a continuation application of U.S. patent application Ser. No. 12/484,236, filed on Jun. 14, 2009, now U.S. Pat. No. 8,285,564, issued on Oct. 9, 2012, which claims priority to U.S. Provisional Patent Application No. 61/166,755, filed on Apr. 5, 2009, now abandoned.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
• Not Applicable
BACKGROUND OF THE INVENTION
• 1. Field of the Invention
• The present invention is related to wireless tracking systems and methods. More specifically, the present invention relates to a system and method for analyzing an interaction between objects such as people.
• 2. Description of the Related Art
• Real-time knowledge of resources, whether the resources are assets or people, is becoming a necessary tool of many businesses. Real-time knowledge of the location, status and movement of crucial resources can allow a business to operate more efficiently and with fewer errors. However, many businesses employ hundreds if not thousands of resources in a single facility, and these resources need to be accounted for by a central system that is user friendly.
• For example, in a typical hospital there are numerous shifts of employees that utilize the same equipment. When a new shift arrives, the ability to quickly locate medical equipment not only results in a more efficient use of resources, but also can result in averting a medical emergency. Thus, the tracking of medical equipment in a hospital is becoming a standard practice.
• The tracking of objects in other facilities is rapidly becoming a means of achieving greater efficiency. A typical radio frequency identification system includes at least multiple tagged objects, each of which transmits a signal, multiple receivers for receiving the transmissions from the tagged objects, and a processing means for analyzing the transmissions to determine the locations of the tagged objects within a predetermined environment.
• Several prior art references discloses various tracking systems.
• McKee et al., U.S. Pat. No. 6,915,135 discloses a system for determining presence, identity and duration of presence in a given area (a table in a restaurant) of an object (tag attached to a waiter).
• Lester, U.S. Pat. No. 3,805,265 discloses a location system that uses line-of-sight radiant wave energy for signal transmission.
• Schwengler U.S. Pat. No. 7,050,819, is directed at the problem of adequate power for a mobile telephone for a two-way communication function or a regeneration function as a node of a mesh network.
• Christ, U.S. Pat. No. 5,977,913, discloses a radiofrequency system that is utilized within a prison and allows for an individual to be located after an alarm is triggered by the individual.
• Zodnik, U.S.Patent Publication Number 2004/0147232, discloses wall-mounted (RJ-11 or RJ-45) wireless transceivers configured to only track the location of a self-identified wireless communication device in order to communicate the location of the self-identified wireless communication device to an emergency service such as 911.
• Welch et al., U.S. Pat. No. 7,382,247 for a Personal Status Physiologic Monitor System And Architecture And Related Monitoring Methods, discloses a systems for monitoring a patient that uses a personal status monitoring device, such as a ECG electrode assembly, which transmits a signal to an intermediary device, such as a PDA, which transmits to a server using a WLAN.
• Tessier et al., U.S. Pat. No. 7,403,111 for a Location System Using A First Signal To Gate A Second Signal, discloses an object identifier that transmits both an IR signal and a RF signal for location determination.
• Dempsey et al., U.S. Pat. No. 7,053,831 for a Location System, discloses a system which allows for a location to be determined without requiring precise calculations through use of an object identifier that transmits one identifier corresponding to an object identifier and a second identifier which is a group identifier.
• Dempsey, U.S. Pat. No. 7,099,895 for a System And Method For Performing Object Association Using A Location Tracking System, discloses a system for recording object associations based on signals for object identifiers.
• Eagle et al., U.S.Patent Publication Number 2005/0250552, for a Combined Short Range Radio Network And Cellular Telephone Network For Interpersonal Communications, discloses a system that uses BLUETOOTH technology integrated in a cellular telephone to provide interpersonal communications between individuals.
• As stated above, the problem is inadequate resource visibility in a business. Businesses such as hospitals, need to locate resources (assets and people), know the status of the resources, and understand the usage history of the resources to enable business improvement.
• Specific problems for hospitals include tracking infections in a hospital to determine a source and other areas or individuals that may be infected. Other problems include spotting emerging patterns of infection and outbreaks to mitigate those affected. Further, for MEDICARE and other insurance providers, hospitals and other medical facilities need to demonstrate that patients received their required care in order to receive payment for such care. The prior art has failed to provide an adequate solution to these problems.
BRIEF SUMMARY OF THE INVENTION
• The present invention provides a solution to determining an interaction between objects through wireless tracking. The present invention utilizes communication devices attached to objects that transmit signals for reception by sensors stationed throughout a facility which forward the signals to an information engine for analysis.
• One aspect of the present invention is a system for determining a business relationship between individuals within a facility. The system includes multiple first tags, multiple second tags, a mesh network and an information engine. The mesh network is preferably a 802.15.4 ZIGBEE wireless sensor network. Each of the first tags represents a first object. Each of the second tags represents a second object. The mesh network includes multiple plug-in sensors located within the facility. The information engine is in communication with the mesh network. The information engine determines a business relationship between a first object and a second object having an interaction based on at least two of multiple factors which include a position location of the interaction, a duration of the interaction, a previous location of the first object, a previous location of the second object and the number of other objects located near the interaction.
• In a preferred embodiment, the first object is a first person and the second object is a second person and the plurality of factors further includes a position designation of the first person and a position designation of the second person and a number of previous interactions between the first person and the second person within a predetermined time period. Alternatively, the first object is fixed or mobile and the second object is mobile. Alternatively, the first object is a group of objects and the second object is a group of objects. Alternatively, the first object is fixed and the second object is a group of objects. Alternatively, the first object is mobile and the second object is a group of objects. Alternatively, the first object is a group of mobile objects and the second object is a group of mobile objects. Each of the first tags can be mounted on a corresponding identification card, or can be an identification card.
• Another aspect of the present invention is a method for determining a business relationship between individuals within a facility. The method includes transmitting a signal from a first tag associated with a first person. The method also includes transmitting a signal from a second tag associated with a second person. The method also includes receiving the signal from the first tag and the signal from the second tag at a mesh network established within the facility. The method also includes determining that an interaction is occurring between the first person and the second person. The method also includes determining a business relationship between the first person and the second person based on multiple factors. The multiple factors can include a position location of the interaction, a duration of the interaction, a previous location of the first person prior to the interaction, a previous location of the second person prior to the interaction, a position designation of the first person and a position designation of the second person, a number of previous interactions between the first person and the second person within a predetermined time period, and the number of other persons at the interaction.
• Yet another aspect of the present invention is a system for determining a business relationship between individuals within a facility. The system includes multiple peer-to-peer communication devices, multiple tags, a mesh network and an information engine. Each of the peer-to-peer communication devices is associated with an individual person. Each of the tags represents a first object. The mesh network includes multiple plug-in sensors located within the facility. The information engine is in communication with the mesh network. The information engine analyzes an interaction between a first object and a second object based on multiple factors. The multiple factors include a position location of the interaction, a duration of the interaction, a previous location of the first person prior to the interaction, and information for a mobile object within a predetermined distance of the location of the interaction.
• In one example, the information engine analyzes the interaction to determine a billing charge for services of the first person. In another example, the facility is a hospital and the information engine analyzes the interaction to determine medical services provided to a patient.
• Yet another aspect of the present invention is a system for analyzing an action of an individual. The system includes tracking devices, tags, a mesh network and an information engine. Each of the tracking devices is associated with an individual person. Each of the tags is associated with a mobile object. The mesh network includes multiple sensors positioned within a facility. The mesh network receives transmissions from each tags and each of the tracking devices. The information engine is in communication with the mesh network. The information engine analyzes an action of a first person based on a plurality of factors including a position location of the action, a duration of the action, a previous location of the first person prior to the action, and information for a mobile object within a predetermined distance of the location of the action.
• Having briefly described the present invention, the above and further objects, features and advantages thereof will be recognized by those skilled in the pertinent art from the following detailed description of the invention when taken in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
• FIG. 1 is schematic view of a system for analyzing an interaction between objects.
• FIG. 2 is a multi-floor view of a facility employing a system for analyzing an interaction between objects.
• FIG. 3 is a floor plan view of a single floor in a facility employing the system for analyzing an interaction between objects.
• FIG. 4 is a block diagram of a flow of information utilizing a system for analyzing an interaction between objects.
• FIG. 5 is a flow chart of a method for analyzing an interaction between objects.
• FIG. 6 is a flow chart of a method for analyzing an interaction between objects.
• FIG. 7 is a block diagram of a tag.
• FIG. 8 is a plan view of an identification badge containing a communication device.
DETAILED DESCRIPTION OF THE INVENTION
• As shown inFIGS. 1-3, a system for tracking objects within a facility is generally designated50. Thesystem50 is capable of analyzing an interaction between objects,individuals58 and/ordevices100. Thesystem50 preferably includes a plurality ofsensors55, a plurality ofbridges56, a plurality ofcommunication devices59, a plurality oftags60, and at least oneinformation engine65. Thesensors55 form a mesh network for receiving signals from thecommunication devices59 and tags60. One example of the components of thesystem50 is disclosed in U.S. Pat. No. 7,197,326, for a Wireless Position Location And Tracking System, which is hereby incorporated by reference in its entirety. A more specific example of thesensors55 is disclosed in U.S. Pat. No. 7,324,824, for a Plug-In Network Appliance, which is hereby incorporated by reference in its entirety.
• Thesystem50 is preferably employed at afacility70 such as a business office, factory, home, hospital and/or government agency building. Thesystem50 is preferably utilized to track and locate various objects positioned throughout thefacility70 in order to analyze interactions between objects. Thecommunication devices59 andtags60 preferably continuously transmit signals on a predetermined time cycle, and these signals are received bysensors55 positioned throughout thefacility70. Alternatively, thetags60 andcommunication devices59 transmit signals in a random, ad-hoc or dynamic manner, and these signals are received by thesensors55 positioned throughout thefacility70. Thesensors55 transmit the data from thecommunication devices59 andtags60 to abridge56 for transmission to theinformation engine65. If asensor55 is unable to transmit to abridge56, thesensor55 may transmit to anothersensor55 in a mesh network for eventual transmission to abridge56. In a preferred embodiment, a transmission may be sent from a transmission distance of sixsensors55 from abridge56. Alternatively, a transmission is sent from a transmission distance ranging from ten to twentysensors55 from abridge56. Theinformation engine65 preferably continuously receives transmissions from the mesh network formed by thesensors55 via thebridges56 concerning the movement ofpersons58 bearing acommunication device59 and/ordevices100 bearing atag60 within thefacility70. Theinformation engine65 processes the transmissions from thesensors55 and calculates a real-time position for each of the objects,persons58 bearing acommunication device59 ordevices100 bearing atag60, within thefacility70. The real-time location information for each of the objects is preferably displayed on an image of a floor plan of thefacility70, or if thefacility70 has multiple floors, then on the floor plan images of the floors of thefacility70. The floor plan image may be used with a graphical user interface of a computer, personal digital assistant, or the like so that an individual of thefacility70 is able to quickly locateobjects100 within thefacility70.
• As shown inFIG. 1, thesystem50 utilizessensors55 to monitor and identify the real-time position of non-stationary objects bearing or integrated withcommunication devices59. Thesensors55a-fpreferably wirelessly communicate with each other (shown as double arrow lines) and with aninformation engine65 through awired connection66 via at least onebridge56, such as disclosed in the above-mentioned U.S. Pat. No. 7,324,824 for a Plug-In Network Appliance. Thecommunication devices59 andtags60 transmitwireless signals57 which are received by thesensors55a-e, which then transmit signals tobridges56 for eventual transmission to theinformation engine65. Theinformation engine65 is preferably located on-site at thefacility70. However, thesystem50 may also include an off-site information engine65, not shown.
• In a preferred embodiment, eachcommunication device59 andtag60 preferably transmits a radio frequency signal of approximately 2.48 GigaHertz (“GHz”). The communication format is preferably IEEE Standard 802.15.4. Alternatively, eachcommunication device59 andtag60 transmits an infrared signal or an ultrasound signal. The transmission range is preferably between 1 and 3 meters. Thetags60 may be constructed with an asset theft protection system such as disclosed in Baranowski et al., U.S. Pat. No. 7,443,297 for a Wireless Tracking System And Method With Optical Tag Removal Detection, which is hereby incorporated by reference in its entirety. Thetags60 andcommunication devices59 may be designed to avoid multipath errors such as disclosed in Nierenberg et al., U.S. Pat. No. 7,504,928 for a Wireless Tracking System And Method Utilizing Tags With Variable Power Level Transmissions, and Caliri et al., U.S. Patent Publication Number 2008/0012767 for a Wireless Tracking System And Method With Multipath Error Mitigation, both of which are hereby incorporated by reference in their entireties.
• As shown inFIGS. 2-3, thefacility70 is depicted as a hospital. Thefacility70 has multiple floors75a-c. Eachfloor75a,75band75chas multiple rooms90a-i, with each room90 accessible through a door85. Positioned throughout thefacility70 aresensors55a-ofor obtaining readings fromcommunication devices59 andtags60 attached to people or devices. Abridge56 is also shown for receiving transmissions from thesensors55 for forwarding to theinformation engine65. For example, as shown inFIG. 2, thesystem50 determines thatindividuals58a,58band58care located in a surgery room and are using device100c, which is a surgical kit. Theinformation engine65 analyzes the interaction by monitoring the duration of the interaction, thedevices100 utilized, the location of the interaction (surgery), the previous location of the individuals58 (possibly a surgical prep room) and additional factors. In another example, as shown inFIG. 3, thesystem50 determines thatindividuals58a,58band58care located in a patient's room and are using device with an attachedtag60c, which is a patient monitoring device. In this example, individual58ais a patient, individual58bis a physician, and individual58cis a nurse. Theinformation engine65 analyzes the interaction by monitoring the duration of the interaction, thedevices100 utilized, the location of the interaction (patient's room), the previous location of theindividuals58 and additional factors. Theinformation engine65 uses this data to generate billing information for the patient.
• FIG. 4 illustrates a preferred architecture of thesystem50. For description purposes, the information providers are set forth on one side of the network and the operations is set forth on the other side of the network. However, those skilled in the pertinent art will recognize that the illustrated architecture of thesystem50 is not meant to limit any physical relationship between information providers and operations. In fact, an individual58 could be tracked while accessing information from adevice100 such as acomputer66 in operations. The information providers includeindividuals58 that wearcommunication devices59,equipment100abearing tags60,sterilizable equipment100bbearingsterilizable tags60, and the like. A description ofsterilizable tags60 is found in Caliri et al., U.S. patent application Ser. No. 12/325,030 for Wireless Tracking System And Method With Extreme Temperature Resistant Tag, which is hereby incorporated by reference in its entirety. Abridge56 acts as an intermediary between the information providers and operations. Thebridge56 communicates information to theinformation engine65 which analyzes the information to determine an interaction between objects for access through an enterprise local area network for display oncomputers66 or other graphical user interface devices.
• Amethod1000 for analyzing an interaction between objects within a facility is illustrated inFIG. 5. Atblock1001, a first wireless signal is transmitted from a communication device associated with an object, in this case a first person. Atblock1002, a second wireless signal is transmitted from the communication device associated with the object, in this case a second person. Atblock1003, the first and second wireless signals are received at at least one of a plurality of sensors positioned within a facility. Atblock1004, the signals are forwarded to an information engine. Atblock1005, the information engine determines that an interaction is occurring between the persons. Atblock1006, the information engine determines a business relationship between the persons based on multiple factors. As used herein, a business relationship involves more than just a commercial transaction between individuals, and could be an interaction between colleagues, an interactions between patients in a hospital, an interactions between employers during non-business hours, and the like. The multiple factors include a position location of the interaction, a duration of the interaction, a previous location of the first person prior to the interaction, and information for a mobile object within a predetermined distance of the location of the interaction. Atblock1007, the interaction and business relationship information is communicated to a graphical user interface.
• Anothermethod2000 for analyzing an interaction between objects within a facility is illustrated inFIG. 6. Atblock2001, a first person is tracked within a hospital using a mesh network that receives signals intermittingly transmitted from acommunication device59 associated with the first person. Atblock2002, a second person is tracked within a hospital using a mesh network that receives signals intermittingly transmitted from acommunication device59 associated with the second person. Atblock2003, a device is tracked within a hospital using a mesh network that receives signals intermittingly transmitted from atag60 associated with the device. Atblock2004, the signals are forwarded to an information engine. Atblock2005, the information engine determines that an interaction is occurring between the persons and device. Atblock2006, the information engine through the mesh network monitors the interaction. Atblock2007, the interaction information is communicated to a graphical user interface.
• Atag60 utilized with adevice100 is illustrated inFIG. 7. Thetag60 preferably includes amicrocontroller101, atransceiver103, a power supply104 and asensor106. Alternatively, thetag60 includes amotion sensor105. The transmissions are transmitted throughtransceiver103. A power supply104 provides power to thetag60. All of the components are preferably contained within a housing107. Acommunication device59 preferably has the same components and structure of thetag60 illustrated inFIG. 7.
• As shown inFIG. 8, anidentification badge141 is preferably utilized as a support for acommunication device59 for aperson58. Alternatively, theidentification badge141 is thecommunication device59.
• From the foregoing it is believed that those skilled in the pertinent art will recognize the meritorious advancement of this invention and will readily understand that while the present invention has been described in association with a preferred embodiment thereof, and other embodiments illustrated in the accompanying drawings, numerous changes modification and substitutions of equivalents may be made therein without departing from the spirit and scope of this invention which is intended to be unlimited by the foregoing except as may appear in the following appended claim. Therefore, the embodiments of the invention in which an exclusive property or privilege is claimed are defined in the following appended claims.

Claims (17)

I claim as my invention:

1. A system for analyzing an interaction between objects bearing wireless communication devices within a facility, the system comprising:

a plurality of sensors located within the facility;

an information engine in communication with the plurality of sensors;

a plurality of first objects, each of the plurality of first objects comprising a first wireless communication device; and

a plurality of second objects, each of the plurality of second objects comprising a second wireless communication device;

wherein the plurality of plug-in sensors are utilized for infrastructure-based real-time location tracking of the plurality of first objects and the plurality of second objects in the facility;

wherein each sensor of the plurality of sensors communicates with other sensors of the plurality of sensors utilizing a wireless communication format;

wherein the plurality of sensors receives a wireless signal from the first wireless communication device of each of the plurality of first objects;

wherein the plurality of sensors receives a wireless signal from the second wireless communication device of each of the plurality of second objects;

wherein the information engine is configured to analyze an interaction between a first object and a second object having an interaction based on a plurality of factors comprising at least a position location of the interaction, an identification of the first object, an identification of the second object, and a duration of the interaction.

2. The system according toclaim 1 wherein the first object is fixed or mobile and the second object is mobile.

3. The system according toclaim 1 wherein the first object is a group of objects and the second object is a group of objects.

4. The system according toclaim 1 the first object is fixed and the second object is a group of objects.

5. The system according toclaim 1 wherein the first object is mobile and the second object is a group of objects.

6. The system according toclaim 1 wherein the first object is a group of mobile objects and the second object is a group of mobile objects.

7. The system according toclaim 1 wherein the first object is a first person and the second object is a second person and the plurality of factors further comprises a position designation of the first person and a position designation of the second person.

8. The system according toclaim 1 wherein the first object is a first person and the second object is a second person and the plurality of factors further comprises a number of previous interactions between the first person and the second person within a predetermined time period.

9. The system according toclaim 1 wherein each of the first plurality of wireless communication devices is mounted on a corresponding identification card or is an identification card.

10. The system according toclaim 1 wherein the plurality of factors further comprises a previous location of the first object, a previous location of the second object and the number of other objects located near the interaction.

11. A method for analyzing an interaction between objects bearing wireless communication devices within a facility, the method comprising:

transmitting a first wireless signal from a first wireless communication device associated with a first person;

transmitting a second wireless signal from a second wireless communication device associated with a second person;

receiving the first wireless signal and the second wireless signal at a plurality of sensors located within the facility and utilized for infrastructure-based real-time location tracking of objects and individuals in the facility, each sensor of the plurality of sensors communicating with other sensors of the plurality of sensors utilizing a wireless communication format;

determining that an interaction is occurring between the first person and the second person based on the first wireless signal and the second wireless signal;

determining a business relationship between the first person and the second person based on at least one of a plurality of factors comprising a position location of the interaction, a duration of the interaction, a previous location of the first person prior to the interaction, a previous location of the second person prior to the interaction and the number of other persons at the interaction.

12. The method according toclaim 11 wherein the plurality of factors further comprises a position designation of the first person, a number of previous interactions between the first person and the second person within a predetermined time period, and a position designation of the second person.

13. The method according toclaim 11 wherein the plurality of factors further comprises a previous location of the first object, a previous location of the second object and the number of other objects located near the interaction.

14. The method according toclaim 11 further comprising receiving the first wireless signal from the first wireless communication device at the second wireless communication device.

15. A system for analyzing an interaction between objects bearing wireless communication devices within a facility, the system comprising:

a plurality of peer-to-peer communication devices, each of the plurality of peer-to-peer wireless communication devices associated with an individual person, each of the plurality of peer-to-peer wireless communication devices transmitting a wireless signal;

a plurality of sensors located within the facility;

an information engine in communication with the plurality of sensors;

wherein each sensor of the plurality of sensors communicates with other sensors of the plurality of sensors utilizing a wireless communication format;

wherein the plurality of sensors receives the wireless signal from the plurality of peer-to-peer wireless communication devices;

wherein the information engine is configured to analyze an interaction between plurality of peer-to-peer wireless communication devices based on a plurality of factors comprising at least a position location of the interaction, an identification of the first object, an identification of the second object, and a duration of the interaction.

16. The system according toclaim 15 wherein the information engine analyzes the interaction to determine a billing charge for services of the first person.

17. The system according toclaim 15 wherein the facility is a hospital and the information engine analyzes the interaction to determine medical services provided to a patient.

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