System and method for monitoring passengers and controlling an elevator system

The invention claimed is: 1. An elevator monitoring system ( 500 ) for monitoring passengers using an elevator system, the elevator monitoring system comprising: at least one cabin-based radar monitor ( 524 ) configured and operable to monitor passengers within at least one elevator cabin; at least one waiting zone radar monitor ( 514 ) configured and operable to monitor passengers in a waiting zone; a processor ( 528 ) configured and operable to receive data from the at least one cabin-based radar monitor and the at least one waiting zone radar monitor, to analyze data received from the at least one cabin-based radar monitor and the at least one waiting zone radar monitor and to execute an elevator control function to control a stop schedule of the elevator system; and a health monitor configured and operable to measure at least one health parameter of each passenger within the at least one elevator cabin and the waiting zone, wherein the health monitor comprises at least one array of radio frequency transmitter antennas ( 708 ) and at least one array of radio frequency receiver antennas ( 710 ), wherein the at least one array of radio frequency transmitter antennas are connected to an oscillator and are configured and operable to transmit electromagnetic waves within the at least one elevator cabin and the waiting zone, and wherein the radio frequency receiver antennas are configured to receive the electromagnetic waves reflected back from objects within the at least one elevator cabin and the waiting zone. 2. The elevator monitoring system ( 500 ) of claim 1 , wherein the elevator control function is operable to prevent movement of the at least one elevator cabin if the received data indicates that cabin passenger density is above a threshold value. 3. The elevator monitoring system ( 500 ) of claim 1 , wherein the elevator control function is operable to prevent elevator doors closing if the received data indicates that cabin passenger density is above a threshold value. 4. The elevator monitoring system ( 500 ) of claim 1 , wherein the elevator control function is operable to prevent elevator doors closing if the received data indicates that a passenger is approaching the at least one elevator cabin. 5. The elevator monitoring system ( 500 ) of claim 1 , further comprising a security scanner configured to generate security passes for passengers, and wherein the elevator control function is operable to prevent elevator doors from closing if the received data indicates that a number of passengers within the at least one elevator cabin is more than the security passes provided. 6. A method for controlling a stop schedule of an elevator system, the method comprising: providing ( 800 ) an elevator monitoring system for monitoring passengers using the elevator system, wherein the elevator monitoring system is configured for: providing ( 802 ) at least one cabin-based radar monitor configured and operable to monitor passengers within at least one elevator cabin; providing ( 804 ) at least one waiting zone radar monitor configured and operable to monitor passengers in a waiting zone; and providing ( 806 ) a processor configured and operable to receive ( 810 ) data from the at least one cabin-based radar monitor and the at least one waiting zone radar monitor, to analyze the data received from the at least one cabin-based radar monitor and the at least one waiting zone radar monitor and to execute ( 816 ) an elevator control function to control ( 818 ) the elevator system; the method further comprising: providing a health monitor configured and operable to measure at least one health parameter of each passenger within the at least one elevator cabin and the waiting zone, wherein the at least one health parameter includes one or more of the following: heart rate, heart variability, respiratory rate, gait sleep scores, posture, temperature, weight and blood pressure of the passenger; wherein providing the health monitor further comprising providing at least one array of radio frequency transmitter antennas and at least one array of radio frequency receiver antennas, wherein the at least one array of radio frequency transmitter antennas are connected to an oscillator and are configured and operable to transmit electromagnetic waves within the at least one elevator cabin and the waiting zone, and wherein the radio frequency receiver antennas are configured to receive the electromagnetic waves reflected back from objects within the at least one elevator cabin and the waiting zone. 7. The method of claim 6 , further comprising preventing movement of the at least one elevator cabin if the received data indicates that at least one elevator cabin passenger density is above a threshold value. 8. The method of claim 6 , further comprising preventing elevator doors closing if the received data indicates that a passenger is approaching the at least one elevator cabin. 9. The method of claim 6 further comprising providing a security scanner configured to generate security passes for passengers, and wherein executing the elevator control function comprises preventing elevator doors from closing if the received data indicates that the number of passengers within the at least one elevator cabin is more than the security passes provided.