Monitoring of fall protection harness using a body area network

The invention claimed is: 1. A system comprising: a computer processor operable to: receive body area network (BAN) data; calculate an end of life of a fall protection harness as a function of the BAN data; transmit a signal to a BAN associated with a person; receive from the BAN the BAN data; and calculate the end of life of the fall protection harness as a function of the BAN data; wherein the BAN comprises an accelerometer; and wherein the computer processor is operable to: receive data from the accelerometer; determine that a person associated with the fall protection harness has fallen as a function of the data from the accelerometer; and generate a signal as a function of the determination that the person associated with the fall protection harness has fallen. 2. The system of claim 1 , wherein the BAN comprises an ambient temperature sensor and a body temperature sensor; and wherein the computer processor is operable to: receive ambient temperature data from the ambient temperature sensor; receive body temperature data from the body temperature sensor; compare the ambient temperature data and body temperature data; calculate an amount of time that the fall protection harness has been in use by the person as a function of the comparison of the ambient temperature data and the body temperature data; add the amount of time that the fall protection harness has been in use by the person to an accumulated amount of time that the fall protection harness has been in use by any person; calculate the end of life of the fall protection harness as a function of the accumulated amount of time that the fall protection harness has been in use by any person; and generate a signal as a function of the calculated end of life of the fall protection harness. 3. The system of claim 1 , wherein the BAN comprises an ambient humidity sensor and a body moisture sensor; and wherein the computer processor is operable to: receive ambient humidity data from the ambient humidity sensor; receive body moisture data from the body moisture sensor; compare the ambient humidity data and the body moisture data; calculate an amount of time that the fall protection harness has been in use by the person as a function of the comparison of the ambient humidity data and the body moisture data; add the amount of time that the fall protection harness has been in use by the person to an accumulated amount of time that the fall protection harness has been in use by any person; calculate the end of life of the fall protection harness as a function of the accumulated amount of time that the fall protection harness has been in use by any person; and generate a signal as a function of the calculated end of life of the fall protection harness. 4. The system of claim 1 , wherein the BAN comprises a barometer; and wherein the computer processor is operable to: receive barometric data from the barometer; calculate an amount of time that the fall protection harness has been in use by the person as a function of the barometric data; add the amount of time that the fall protection harness has been in use by the person to an accumulated amount of time that the fall protection harness has been in use by any person; calculate the end of life of the fall protection harness as a function of the accumulated amount of time that the fall protection harness has been in use by any person; and generate a signal as a function of the calculated end of life of the fall protection harness. 5. The system of claim 1 , wherein the BAN comprises a global positioning sensor (GPS); and wherein the computer processor is operable to: receive data from the GPS; determine an environmental condition that the fall protection harness is exposed to as a function of the data from the GPS; calculate the end of life of the fall protection harness as a function of the environmental condition that the fall protection harness is exposed to; and generate a signal as a function of the calculated end of life of the fall protection harness. 6. The system of claim 1 , comprising a latch sensor coupled to a mechanical latch of the fall protection harness; wherein the computer processor is operable to: receive data from the latch sensor; determine that the fall protection harness is in use as a function of the BAN data; determine that the mechanical latch is engaged or disengaged as a function of the data from the latch sensor; and generate a signal when the BAN data indicates that the fall protection harness is in use, the signal indicating that the mechanical latch is engaged or disengaged based on the data from the latch sensor. 7. The system of claim 1 , wherein the BAN comprises a body contact sensor; and wherein the computer processor is operable to: receive data from the body contact sensor; calculate an amount of time that the fall protection harness has been in use by the person as a function of the data from the body contact sensor; add the amount of time that the fall protection harness has been in use by the person to an accumulated amount of time that the fall protection harness has been in use by any person; calculate the end of life of the fall protection harness as a function of the accumulated amount of time that the fall protection harness has been in use by any person; and generate a signal as a function of the calculated end of life of the fall protection harness. 8. The system of claim 1 , wherein the BAN comprises a shock sensor; and wherein the computer processor is operable to: receive data from the shock sensor; determine that a person associated with the fall protection harness has fallen as a function of the data from the shock sensor; and generate a signal as a function of the determination that the person associated with the fall protection harness has fallen. 9. The system of claim 1 , wherein the BAN comprises a wireless smart tag; and wherein the computer processor is operable to: receive data from the wireless smart tag, the data from the wireless smart tag comprising indoor location information and an indoor environmental condition to which the fall protection harness is exposed; calculate the end of life of the fall protection harness as a function of the environmental condition to which the fall protection harness is exposed; and generate a signal as a function of the calculated end of life of the fall protection harness. 10. The system of claim 1 , wherein the computer processor comprises a server computer processor. 11. The system of claim 1 , wherein the BAN comprises a transceiver and one or more sensors. 12. The system of claim 11 , wherein the transceiver couples the BAN to the computer processor. 13. The system of claim 1 , wherein the BAN data comprise biometric data, and the biometric data are used to calculate the end of life of the fall protection harness. 14. The system of claim 1 , wherein the computer processor is positioned on a person and the computer processor is operable to aggregate the BAN data and transmit the BAN data to a server. 15. A system comprising: a computer processor operable to: receive body area network (BAN) data; calculate an end of life of a fall protection harness as a function of the BAN data; transmit a signal to a BAN associated with a person; receive from the BAN the BAN data; and calculate the end of life of the fall protection harness as a function of the BAN data; wherein the BAN comprises a shock sensor; and wherein the computer processor is operable to: receive data from the shock sensor; determine that a person assoc