Claims
- 1. A signal transmission system comprising:
a signal conduction matrix formed into a shape that allows transmission of a signal through the signal conduction matrix from one point to another through the use of at least one surface signal router; at least one signal source that is operatively connected to a surface of the signal conduction matrix and that generates a signal that propagates through the signal conduction matrix; and at least one signal receiver that is operatively connected to a surface of the signal conduction matrix and that receives the signal from the signal source.
- 2. The signal transmission system of claim 1, wherein the signal conduction matrix comprises at least one material selected from a group consisting of polybutylene terephthalate, polyethylene terephthalate, polypropylene, polyethylene, polyisobutylene, polyacrylonitrile, poly(vinyl chloride), poly(methyl methacrylate), silica, and polycarbonate.
- 3. The signal transmission system of claim 1, wherein the at least one surface signal router is a reflective coating on a surface of the matrix.
- 4. The signal transmission system of claim 3, wherein the reflective coating is selected from a group consisting of a metal and a metal alloy.
- 5. The signal transmission system of claim 1, wherein the at least one surface signal router is selected from a group consisting of an indentation, pressure fit structure, and an inclined cut on the surface of the matrix.
- 6. The signal transmission system of claim 1, wherein the signal generated by a signal source is selected from a group consisting of a light signal and an RF signal.
- 7. The signal transmission system of claim 1, wherein the signal conduction matrix forms part of an electronic component system.
- 8. The signal transmission system of claim 7, wherein the electronic component system is an integrated powertrain control system.
- 9. The signal transmission system of claim 7, wherein the electronic component system is an automotive panel display.
- 10. The signal transmission system of claim 9, wherein the signal conduction matrix forms a substantial part of the automotive panel display.
- 11. The signal transmission system of claim 7, wherein the electronic system is selected from a group consisting of a wireless video streaming system, intelligent transportation system controls, single-source backlighting and graphics lighting, electronics integration with night vision, laser burst download systems, heads-up displays, biometric identification, multi-zone and personalized climate control systems, lane detection devices, rain and moisture signal receivers, occupant classification and restraint controls, suspension and steering controls, drowsiness detection, collision warning and avoidance, higher speed safety systems, air bag enabling systems, door close and lock signal receivers, fuel level signal receivers, aircraft electronic systems, and vehicle to vehicle communication and tracking system.
- 12. A signal transmission system comprising:
a signal conduction matrix formed into a shape that allows transmission of a signal through the signal conduction matrix using at least one surface signal router; at least one signal source that is operatively connected to a surface of the signal conduction matrix and that generates a signal that propagates through the signal conduction matrix; and at least one signal receiver that is operatively connected to a surface of the signal conduction matrix and that receives a signal from the signal source; wherein a signal is coded to allow selective detection of the signal by a target signal receiver.
- 13. The signal transmission system of claim 12, wherein the signal conduction matrix comprises at least one material selected from a group consisting of polybutylene terephthalate, polyethylene terephthalate, polypropylene, polyethylene, polyisobutylene, polyacrylonitrile, poly(vinyl chloride), poly(methyl methacrylate), silica, and polycarbonate.
- 14. The signal transmission system of claim 12, wherein the at least one surface signal router is a reflective coating on a surface of the matrix.
- 15. The signal transmission system of claim 14, wherein the reflective coating is selected from a group consisting of a metal and a metal alloy.
- 16. The signal transmission system of claim 12, wherein the at least one surface signal router is selected from a group consisting of an indentation, pressure fit structure, and an inclined cut on the surface of the signal conduction matrix.
- 17. The signal transmission system of claim 12, wherein the signal generated by a signal source is selected from a group consisting of a light signal and an RF signal.
- 18. The signal transmission system of claim 12, wherein the signal conduction matrix forms part of an electronic component system.
- 19. The signal transmission system of claim 18, wherein the electronic component system is an automotive panel display.
- 20. The signal transmission system of claim 19, wherein the signal conduction matrix forms a substantial part of the automotive panel display.
- 21. The signal transmission system of claim 18, wherein the electronic system is selected from a group consisting of a wireless video streaming system, intelligent transportation system controls, single-source backlighting and graphics lighting, electronics integration with night vision, laser burst download systems, heads-up displays, biometric identification, multi-zone and personalized climate control systems, lane detection devices, rain and moisture signal receivers, occupant classification and restraint controls, suspension and steering controls, drowsiness detection, collision warning and avoidance, higher speed safety systems, air bag enabling systems, door close and lock signal receivers, fuel level signal receivers, aircraft electronic systems, and vehicle to vehicle communication and tracking system.
- 22. A signal transmission system comprising:
a signal conduction matrix formed into a shape that allows wireless transmission of a signal through the signal conduction matrix using at least one surface signal router; at least one signal source that is operatively connected to a surface of the signal conduction matrix and that generates a signal that propagates through the signal conduction matrix; and at least one signal receiver that is operatively connected to a surface of the signal conduction matrix and that receives a signal from the signal source; wherein the signal is selected from a group consisting of a coded, modulated, frequency-converted, and an amplified signal.
- 23. A signal transmission system comprising:
a signal conduction matrix formed into a shape that allows transmission of a signal through the signal conduction matrix using a reflective coating and a surface signal router selected from a group consisting of an indentation, pressure fit structure, and an inclined cut on the surface of the signal conduction matrix; at least one signal source that is operatively connected to a surface of the signal conduction matrix and that generates a signal that propagates through the signal conduction matrix, at least one signal receiver that is operatively connected to a surface of the signal conduction matrix and that receives a signal from the signal source; and a frequency-selective filter that allows selective detection by a target signal receiver.
- 24. A method of transmitting a signal comprising:
generating a signal using at least one signal source that is operatively connected to a surface of a signal conduction matrix; controlling the direction of propagation of the signal in the signal conduction matrix using at least one surface signal router; and receiving the signal using at least one signal receiver that is operatively connected to a surface of the signal conduction matrix; wherein the signal conduction matrix is formed into a shape that allows transmission of the signal through the signal conduction matrix using the at least one surface signal router.
- 25. A method of transmitting a signal comprising:
generating a signal using at least one signal source that is operatively connected to a surface of a signal conduction matrix; coding the signal to allow selective detection of the signal by a signal receiver; controlling the direction of propagation of the signal in the signal conduction matrix using at least one surface signal router; and receiving the signal using the signal receiver that is operatively connected to a surface of the signal conduction matrix; wherein the signal conduction matrix is formed into a shape that allows transmission of the signal through the signal conduction matrix using the at least one surface signal router.
- 26. A method of transmitting a signal comprising:
generating a signal using at least one signal source that is operatively connected to a surface of a signal conduction matrix; controlling the direction of propagation of the signal in the signal conduction matrix using at least one surface signal router; receiving the signal using a signal receiver that is operatively connected to a surface of the signal conduction matrix; and using a frequency-selective filter to allow selective detection by the signal receiver; wherein the signal conduction matrix is formed into a shape that allows transmission of the signal through the signal conduction matrix using the at least one surface signal router.
Parent Case Info
[0001] This application claims the benefit of a U.S. Provisional Application No. 60/330,306 filed on Oct. 19, 2001, the entirety of which is incorporated herein.
Provisional Applications (1)
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Number |
Date |
Country |
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60330306 |
Oct 2001 |
US |