Method and apparatus for providing a haptic monitoring system using multiple sensors

What is claimed is: 1. A haptic system, comprising: a sensing device configured to receive vital physical information and extraneous movement information from a first user, the vital physical information comprising a plurality of vital signs; a filtering device configured to isolate the vital physical information from the extraneous movement information and to discard the extraneous movement information; a selector configured to dynamically generate haptic data that emulates the vital physical information isolated from the extraneous movement information of the first user; and a haptic generator configured to generate a first haptic feedback based on the dynamically generated haptic data, wherein the first haptic feedback is unique for each type of the plurality of vital signs, wherein a strength of the first haptic feedback is varied according to whether a first vital information is within a first desired zone. 2. The haptic system of claim 1 , further comprising one or more sensors associated with the first user, the one or more sensors comprising: a heart rate sensor configured to sense a heart rate; a motion sensor configured to detect body movements; and a blood pressure sensor configured to read an individual's blood pressure. 3. The haptic system of claim 1 , further comprising one or more sensors associated with the first user, the one or more sensors comprising: a breath sensor operable to detect air respiration; a temperature sensor operable to read body temperature; and a humidity sensor configured to sense body moisture perspiration. 4. The haptic system of claim 1 , further comprising: one or more sensors associated with the first user, wherein each sensor communicates with other sensors via a wireless network; and a transceiver operable to transmit the vital physical information or physical location information associated with the first user via a wireless communications network. 5. The haptic system of claim 1 , further comprising a positioning device configured to identify physical location information associated with the first user. 6. The haptic system of claim 5 , further comprising a digital processing unit configured to store predefined limitations for at least some of the vital physical information or physical location information received from the first user. 7. The haptic system of claim 5 , wherein the haptic generator is further configured to generate a haptic signal based on the vital physical information or the physical location information from the first user and communicate the haptic signal to a device remote from the haptic generator. 8. The haptic system of claim 7 , wherein the haptic generator is configured to communicate the haptic signal to the first user. 9. The haptic system of claim 7 , further comprising: a relay station communicatively coupled to the haptic generator, the relay station configured to amplify and relay the haptic signal to a second user. 10. The haptic system of claim 5 , wherein the selector is further configured to: select the haptic data based on the physical location information from the first user. 11. The haptic system of claim 5 , wherein the selector is further configured to: select, from a first set of haptic data, a first haptic signal based on the vital physical information or the physical location information from the first user, and select, from a second set of haptic data, a second haptic signal based on vital physical information or physical location information from a second user, the second set of haptic data being distinct from the first set of haptic data. 12. The haptic system of claim 1 , wherein the haptic generator is further configured to: generate a second haptic feedback to a second user based on the selected haptic data, the second haptic feedback being different from the first haptic feedback. 13. The haptic system of claim 1 , further comprising one or more sensors connected by a personal area network. 14. The haptic system of claim 1 , wherein the sensing device and the haptic generator are disposed in a single device that simultaneously executes sensing and haptic functions. 15. The haptic system of claim 1 , wherein the first haptic feedback emulates a characteristic of the vital physical information. 16. The haptic system of claim 1 , wherein the extraneous movement information includes unwanted movements. 17. A method, comprising: receiving, by a sensing device, vital physical information and extraneous movement information from a first user, the vital physical information comprising a plurality of vital signs; isolating, by a filtering device, the vital physical information from the extraneous movement information and discarding the extraneous movement information; dynamically generating, by a selector, haptic data that emulates the vital physical information isolated from the extraneous movement information of the first user; generating, by a haptic generator, a first haptic feedback based on the dynamically generated haptic data, wherein the first haptic feedback is unique for each type of the plurality of vital signs; and varying a strength of the first haptic feedback according to whether the first vital information is within a first desired zone. 18. The method according to claim 17 , wherein the vital physical information includes one of heart rate, blood pressure, body temperature, or body moisture. 19. The method according to claim 17 , further comprising identifying a physical location associated with the first user. 20. The method according to claim 17 , wherein the first haptic feedback emulates a characteristic of the vital physical information. 21. A non-transitory computer readable storage medium storing one or more programs configured to be executed by a processor, the one or more programs comprising instructions for: receiving, by a sensing device, vital physical information and extraneous movement information from a first user, the vital physical information comprising a plurality of vital signs; isolating, by a filtering device, the vital physical information from the extraneous movement information and discarding the extraneous movement information; dynamically generating, by a selector, haptic data that emulates the vital physical information isolated from the extraneous movement information of the first user; generating, by a haptic generator, a first haptic feedback based on the selected haptic data, the first haptic feedback is unique for each type of the plurality of vital signs, the sensing device and the haptic generator being disposed in a single device that simultaneously executes sensing and haptic functions; and varying a strength of the first haptic feedback according to whether the first vital information is within a first desired zone. 22. The non-transitory computer readable storage medium of claim 21 , wherein the vital physical information includes one of heart rate, blood pressure, body temperature, or body moisture. 23. The non-transitory computer readable storage medium of claim 21 , further comprising instructions for identifying a physical location associated with the first user. 24. The non-transitory computer readable storage medium of claim 21 , wherein the first haptic feedback emulates a characteristic of the vital physical information.