초록 ▼

A intelligent label comprising a radio frequency transponder coupled to a global positioning system, a magnetic field sensing system, and/or a fingerprint sensor system, all of which are attached to a substrate. Once the intelligent label utilizing a global positioning system is attached to an objec

A intelligent label comprising a radio frequency transponder coupled to a global positioning system, a magnetic field sensing system, and/or a fingerprint sensor system, all of which are attached to a substrate. Once the intelligent label utilizing a global positioning system is attached to an object, it will enable the object to be tracked as it moves from one point to another point. As the object moves, the global positioning system receives signals from GPS satellites and processes those signals into location data. The data is then either transmitted directly to an interrogation station by the radio frequency transponder, or stored in a memory. The memory serves to allow all or part of the previous location data to be stored for transmittal to an interrogator at a later date.

대표청구항 ▼

What is claimed is: 1. An intelligent label comprising: a radio frequency transponder coupled to a fingerprint sensor system; and a substrates, said radio frequency transponder and said fingerprint sensor system being attached to said substrate, wherein said substrate is a label, said label compris

What is claimed is: 1. An intelligent label comprising: a radio frequency transponder coupled to a fingerprint sensor system; and a substrates, said radio frequency transponder and said fingerprint sensor system being attached to said substrate, wherein said substrate is a label, said label comprising a front side and a back side, said back side being provided with adhesive. 2. An intelligent label comprising: a radio frequency transponder coupled to a fingerprint sensor system; and a substrate, said substrate comprising a liner and a face stock, wherein said radio frequency transponder and a portion of said fingerprint sensor system are positioned between said liner and said face stock, said liner being secured to said face stock. 3. The label of claim 2, wherein all of said fingerprint sensor is positioned between said liner and said face stock. 4. An intelligent label comprising: a radio frequency transponder coupled to a fingerprint sensor system; and a substrate, said substrate comprising a liner and a face stock, wherein said radio frequency transponder and a portion of said fingerprint sensing system is positioned between said liner and said face stock, said liner or said face stock being secured to at least one of said radio frequency transponder and said fingerprint sensor system. 5. The label of claim 4, wherein all of said fingerprint sensor is positioned between said liner and said face stock. 6. The label of claim 4, wherein said liner and said face stock are secured to at least one of said radio frequency transponder and said fingerprint sensor system. 7. A method of making an intelligent label, comprising the steps of: obtaining a substrate comprising a pressure sensitive face stock and a release liner; delaminating said substrate by peeling off said release liner to expose an adhesive on said pressure sensitive face stock; obtaining a continuous web comprising radio frequency transponders coupled to fingerprint sensor systems; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one fingerprint sensor system; transferring a web cutting to the adhesive exposed on said pressure sensitive face stock of said substrate; and relaminating said release liner onto said pressure sensitive face stock to cover said web cutting in the area around at least a portion of the fingerprint sensor system. 8. A method of making an intelligent label, comprising the steps of: obtaining a substrate comprising a pressure sensitive face stock and a release liner; delaminating said substrate by peeling off said release liner to expose said pressure sensitive face stock; pattern coating said pressure sensitive face stock with a hot melt adhesive; obtaining a continuous web comprising radio frequency transponders coupled to fingerprint sensor systems; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one fingerprint sensor system; transferring a web cutting to said pressure sensitive face stock of said substrate; and relaminating said release liner onto said pressure sensitive face stock to cover said web cutting in the area around at least a portion of the fingerprint sensor system. 9. A method of making an intelligent label, comprising the steps of: obtaining a non-pressure sensitive substrate; obtaining a laminate; pattern coating said non-pressure sensitive substrate with an adhesive; obtaining a continuous web comprising radio frequency transponders coupled to fingerprint sensor systems; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one fingerprint sensor system; transferring a web cutting to one of said laminate and said non-pressure sensitive substrate; and pressing said non-pressure sensitive substrate onto said laminate to cover said web cutting in the area around at least a portion of the fingerprint sensor system. 10. The method of verifying access to an object, comprising: obtaining an intelligent label comprising a radio frequency transponder coupled to a fingerprint sensor system, said radio frequency transponder and said fingerprint sensor system being attached to a substrate; attaching or inserting said intelligent label to the object; and reading the fingerprint of a person accessing the object. 11. The method as defined in claim 10, wherein reading the fingerprint comprises obtaining information relating to a distinct pattern of the fingerprint. 12. The method as defined in claim 10, wherein reading the fingerprint comprises contacting the fingerprint sensor system with a human finger. 13. The method as defined in claim 10, further comprising comparing information relating to the read fingerprint to information stored in a memory of the label and indicating with an indicator on the label whether said information relating to said read fingerprint is the same as the information stored in said memory. 14. The method as defined in claim 10, further comprising recording information about the read fingerprint in a memory in the label. 15. The method as defined in claim 10, further comprising removing said label or a portion of said label from said object after reading the fingerprint and sending said removed label or said removed portion of said label to a records location. 16. The method as defined in claim 15, wherein the radio frequency transponder relays information relating to said recorded information about the read fingerprint to an electronic storage device. 17. The method as defined in claim 10, wherein the radio frequency transponder relays information relating to said recorded information about the read fingerprint to an electronic storage device. 18. The method as defined in claim 10, further comprising comparing information relating to the read fingerprint to stored information relating to a fingerprint and indicating whether said information relating to said read fingerprint is the same as the stored information relating to a fingerprint. 19. The method as defined in claim 10, wherein the tracking step comprises: receiving signals from an appropriate number of GPS satellites; processing said signals into location data; and transmitting said location data. 20. The method as defined in claim 19, further comprising transmitting said data relating to said read fingerprint and said location data, wherein an interrogation station receives said transmitted location data and said transmitted fingerprint data. 21. The method of verifying access to an object, comprising the steps of: obtaining an intelligent label comprising a radio frequency transponder coupled to a fingerprint sensor system, said radio frequency transponder and said fingerprint sensor system being attached to a thin sheeted substrate; attaching or inserting said intelligent label to the object to which access is to be verified; and verifying access to said object. 22. An intelligent label comprising: a radio frequency transponder coupled to a magnetic field sensing system; and a substrate, said substrate comprising a liner and a face stock, wherein said radio frequency transponder and said magnetic field sensing system are positioned between said liner and said face stock, said liner being secured to said face stock. 23. An intelligent label comprising: a radio frequency transponder coupled to a magnetic field sensing system; and a substrate, said substrate comprising a liner and a face stock, wherein said radio frequency transponder and said magnetic field sensing system is positioned between said liner and said face stock, said liner or said face stock being secured to at least one of said radio frequency transponder and said magnetic field sensing system. 24. The label of claim 23, wherein said liner and said face stock is secured to at least one of said radio frequency transponder and said magnetic field sensing system. 25. A method of making an intelligent label, comprising the steps of: obtaining a substrate comprising a pressure sensitive face stock and a release liner; delaminating said substrate by peeling off said release liner to expose an adhesive on said pressure sensitive face stock; obtaining a continuous web comprising radio frequency transponders coupled to magnetic field sensing systems; cutting said web to produce web cuttings, wherein each web cutting comprises at least one radio frequency transponder coupled to at least one magnetic field sensing system; transferring a web cutting to the adhesive exposed on said pressure sensitive face stock of said substrate; and relaminating said release liner onto said pressure sensitive face stock to cover said web cutting. 26. A method of making an intelligent label, comprising the steps of: obtaining a substrate comprising a pressure sensitive face stock and a release liner; delaminating said substrate by peeling off said release liner to expose said pressure sensitive face stock; pattern coating said pressure sensitive face stock with a hot melt adhesive; obtaining a continuous web comprising radio frequency transponders coupled to magnetic field sensing systems; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one magnetic field sensing systems; transferring a web cutting to said pressure sensitive face stock of said substrate; and relaminating said release liner onto said pressure sensitive face stock to cover said web cutting. 27. A method of making an intelligent label, comprising the steps of: obtaining a non-pressure sensitive substrate; obtaining a laminate; pattern coating said non-pressure sensitive substrate with an adhesive; obtaining a continuous web comprising radio frequency transponders coupled to magnetic field sensing systems; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one magnetic field sensing systems; transferring a web cutting to one of said laminate and said non-pressure sensitive substrate; and pressing said non-pressure sensitive substrate onto said laminate to cover said web cutting. 28. A method of tracking or identifying an object, comprising the steps of: obtaining an intelligent label including: a radio frequency transponder coupled to a magnetic field sensing system adapted to determine at least one of (a) direction, (b) heading (c) position and (d) movement based on a sensed magnetic field; and a thin sheeted substrate, said radio frequency transponder and said magentic field sensing system being attached to said substrate; attaching or inserting said intelligent label to the object to be tracked or identified; and tracking or identifying said object to be tracked or identified, wherein the tracking step comprises: sensing a magnetic field; processing said sensed magnetic field into location data; and transmitting said location data. 29. A method of tracking or identifying an object, comprising the steps of: obtaining an intelligent label including: a radio frequency transponder coupled to a magnetic field sensing system adapted to determine at least one of (a) direction, (b) heading (c) position and (d) movement based on a sensed magnetic field; and a thin sheeted substrate, said radio frequency transponder and said magnetic field sensing system being attached to said substrate; attaching or inserting said intelligent label to the object to be tracked or identified; and tracking or identifying said object to be tracked or identified, wherein the tracking step comprises: sensing a magnetic field; processing said sensed magnetic field into movement data; and transmitting said movement data. 30. The method as defined in claim 28, wherein an interrogation station receives said transmitted location data. 31. A method of tracking or identifying an object, comprising the steps of: obtaining an intelligent label including: a radio frequency transponder coupled to a magnetic field sensing system adapted to determine at least one of (a) direction, (b) heading (c) position and (d) movement based on a sensed magnetic field; and a thin sheeted substrate, said radio frequency transponder and said magnetic field sensing system being attached to said substrate; attaching or inserting said intelligent label to the object to be tracked or identified; and tracking or identifying said object to be tracked or identified, wherein the identifying step comprises transmitting an identification signal. 32. A label comprising: a radio frequency transponder coupled to a magnetic field sensing system adapted to determine at least one of (a) direction, (b) heading (c) position and (d) movement based on a sensed magnetic field; and a thin sheeted substrate, said radio frequency transponder and said magnetic field sensing system being attached to said substrate, the label further comprising a global positioning system receiver. 33. An intelligent label comprising: a radio frequency transponder coupled to a global positioning system receiver; and a thin sheeted substrate, said radio frequency transponder and said global positioning system receiver being attached to said substrate. 34. A method of making an intelligent label, comprising the steps of: obtaining a radio frequency transponder coupled to a global positioning system receiver; and attaching said radio frequency transponder and said global positioning system receiver to a thin sheeted substrate. 35. A method of making an intelligent label, comprising the steps of: obtaining a non-pressure sensitive substrate; obtaining a laminate; pattern coating said non-pressure sensitive substrate with an adhesive; obtaining a continuous web comprising radio frequency transponders coupled to global system receivers; cutting said web to produce web cuttings, each web cutting comprising at least one radio frequency transponder coupled to at least one global positioning system receiver; transferring a web cutting to one of said laminate and said non-pressure sensitive substrate; and pressing said non-pressure sensitive substrate onto said laminate to cover said web cutting.