Sensor-based communication apparatus and method, and communication medium

The invention claimed is: 1. A sensor-based communication apparatus comprising: a plurality of sensor nodes associated with respective unique pulse signatures and adapted to communicate with respective sensors with each sensor configured to generate a sensory signal in response to a respective stimulus, wherein each sensor node is triggered, upon receipt of the corresponding sensory signal, to transmit the associated unique pulse signature independently and asynchronously through a transmission medium shared by the sensor nodes, the unique pulse signatures transmitted by the sensor nodes being a representation of a stimulus event associated with the stimuli detected by the corresponding sensors, wherein the sensor-based communication apparatus further comprises: a receiver configured to receive through the transmission medium an incoming signal relating to the transmitted unique pulse signatures, to correlate the associated unique pulse signature of each sensor node with an intermediate signal relating to the incoming signal, and to provide indication signals indicating respective times of triggering of the sensor nodes based on a result of correlation for representation of the stimulus event; and wherein the receiver includes a plurality of filters each activated, upon detection of an edge in the incoming signal by the receiver, to correlate the intermediate signal with a corresponding one of the unique pulse signatures. 2. A sensor-based system, comprising: a plurality of sensors arranged on a conductive medium, wherein each of the plurality of sensors is configured to output a sensory signal in response to a received stimulus; a plurality of sensor nodes, wherein each of the plurality of sensor nodes is associated with a corresponding one of the plurality of sensors, and wherein each of the plurality of sensor nodes includes a pulse generator configured to generate a unique pulse signature in response to a sensory signal received from the corresponding one of the plurality of sensors; and a receiver configured to receive, via the conductive medium, a plurality of unique pulse signatures generated by the plurality of sensor nodes and to determine, based on analysis of the received plurality of unique pulse signatures, identities of the plurality of sensor nodes from which the plurality of unique pulse signatures originated and at least one characteristic of the stimulus received by the sensor associated with each of the identified plurality of sensor nodes. 3. The sensor-based system of claim 2 , wherein each of the plurality of sensors comprises a piezoresistive element. 4. The sensor-based system of claim 2 , wherein the plurality of sensors includes at least a first sensor configured to detect applied pressure levels and at least a second sensor configured to detect changes in applied pressure. 5. The sensor-based system of claim 2 , wherein the plurality of sensors includes at least one sensor configured to detect a temperature level. 6. The sensor-based system of claim 2 , wherein the received stimulus includes at least one of an applied pressure, a change in an applied pressure, or a temperature level. 7. The sensor-based system of claim 2 , wherein the pulse generator included in each of the plurality of sensor nodes is a digital pulse generator configured to generate the unique pulse signature. 8. The sensor-based system of claim 2 , wherein the pulse generator included in each of the plurality of sensor nodes includes a microcontroller pre-programmed to generate the unique pulse signature. 9. The sensor-based system of claim 2 , wherein the pulse generator is configured to generate the unique pulse signature in response to receipt of a sensor signal indicating a change in applied pressure level. 10. The sensor-based system of claim 9 , wherein a polarity of the unique pulse signature indicates whether the change in applied pressure level is an increase or a decrease in the applied pressure level. 11. The sensor-based system of claim 2 , wherein the pulse generator is configured to generate the unique pulse signature at a frequency dependent upon an applied pressure level. 12. The sensor-based system of claim 2 , wherein the pulse generator is configured to generate the unique pulse signature at a frequency dependent upon a temperature level at a corresponding one of the plurality of sensors. 13. The sensor-based system of claim 2 , wherein at least some of the plurality of unique pulse signatures received by the receiver overlap in time. 14. The sensor-based system of claim 2 , wherein each of the plurality of unique pulse signatures received by the receiver is unique to a particular one of the plurality of sensor nodes. 15. The sensor-based system of claim 2 , wherein each of the plurality of unique pulse signatures comprises a collection of individual pulses spaced apart from one another in time. 16. The sensor-based system of claim 15 , wherein the collection of individual pulses included in each of the plurality of unique pulse signatures differs from the collections of individual pulses included in all others of the plurality of unique pulse signatures in at least one respect. 17. The sensor-based system of claim 16 , wherein the at least one respect includes a total time duration of the collection of individual pulses. 18. The sensor-based system of claim 16 , wherein the at least one respect includes a timing of the collection of individual pulses within a corresponding unique pulse signature. 19. The sensor-based system of claim 16 , wherein the at least one respect includes a duration of one or more of the individual pulses. 20. The sensor-based system of claim 16 , wherein the at least one respect includes a polarity of one or more of the individual pulses. 21. The sensor-based system of claim 16 , wherein the at least one respect includes a total number of individual pulses included in a corresponding unique pulse signature. 22. The sensor-based system of claim 2 , wherein each of the unique pulse signatures has a total duration of less than 1 millisecond. 23. The sensor-based system of claim 2 , wherein the plurality of unique pulse signatures generated by the plurality of sensor nodes are superimposed on a common electrical conductor included in the conductive medium. 24. The sensor-based system of claim 2 , wherein the conductive medium includes redundant electrically conductive paths such that each of the plurality of sensor nodes is electrically connected to the receiver by two or more different electrically conductive paths. 25. The sensor-based system of claim 2 , wherein the identities of the plurality of sensor nodes from which the plurality of unique pulse signatures originated are determined by deconvolution of the plurality of unique pulse signatures received by the receiver. 26. The sensor-based system of claim 25 , wherein a positive identification of a particular sensor node is determined based on whether, during the deconvolution, a correlation strength between a known unique pulse signature and at least a portion of the received plurality of unique pulse signatures, superimposed together, exceeds a predetermined threshold. 27. The sensor-based system of claim 2 , wherein the determined at least one characteristic of the stimulus received by the sensor associated with each of the identified plurality of sensor nodes includes one or more of a change in