Wireless immersive simulation system

What is claimed is: 1. A system for providing a simulated immersive training environment comprising: at least one computer subsystem capable of generating at least one real-time video image sequence; a radio transmitter/receiver communicatively linked with the at least one computer subsystem, the radio transmitter/receiver comprising: at least one directional antenna, wherein the radio transmitter/receiver is capable of transmitting the at least one real-time video image sequence using the at least one directional antenna; and a second antenna distinct from the at least one directional antenna, wherein the radio transmitter/receiver is capable of transmitting and receiving an audio communication using the second antenna; and at least one Head-Mounted Display configured to be worn on a user and comprising a wireless video antenna and receiver assembly capable of receiving the at least one real-time video image sequence transmitted by the radio transmitter/receiver and of displaying the at least one real-time video image sequence on at least one screen positioned before the eyes of the user, wherein the radio transmitter/receiver is capable of simultaneously: transmitting the at least one real-time video image sequence to the wireless video antenna and receiver assembly using the at least one directional antenna, and transmitting the audio communication to the wireless video antenna and receiver assembly. 2. The system of claim 1 , wherein the at least one real-time video image sequence comprises stereo images to produce a simulated 3-dimensional real-time video image sequence. 3. The system of claim 1 , further comprising a hand-held training device comprising: a sensor capable of detecting information regarding at least one of motion, orientation, or position of the hand-held training device, and a sensor radio transmitter/receiver that transmits the detected information about the hand-held training device. 4. The system of claim 1 , wherein the at least one real-time video image sequence is transmitted using the 60 GHz band. 5. The system of claim 1 , wherein the at least one computer subsystem is capable of generating a plurality of real-time video sequences which comprise correlated video image sequences of a single training scenario. 6. The system of claim 1 , further comprising: a user-mounted sensor capable of measuring information regarding orientation of a part of the user; and a sensor radio transmitter/receiver that is connected to the user-mounted sensor, and that transmits the measured information to the radio transmitter/receiver. 7. The system of claim 6 , wherein: the user-mounted sensor also measures motion information of the part of the user; and the sensor radio transmitter/receiver transmits the measured motion information to the radio transmitter/receiver. 8. The system of claim 1 , wherein the at least one Head-Mounted Display further comprises a microphone configured to generate a signal that is transmitted by the wireless video antenna and receiver. 9. The system of claim 1 , wherein the at least one computer subsystem comprises a controller computer communicatively linked with a plurality of user-dedicated computers, wherein each user-dedicated computer generates a real-time video image sequence for a single user, and wherein the controller computer coordinates the generation of the real-time video image sequences by the plurality of user-dedicated computers. 10. The system of claim 1 , wherein: the Head-Mounted Display further comprises audio speakers; and the wireless video antenna and receiver assembly is capable of receiving the audio communication transmitted from the radio transmitter/receiver. 11. A system for receiving a wirelessly transmitted simulated immersive training environment comprising: a radio transmitter/receiver having a directional antenna and a second antenna; a Head-Mounted Display in communication with the radio transmitter/receiver and configured to be worn by a user and that includes: a display device capable of displaying real-time video image sequences; a battery powered wireless video antenna and receiver assembly capable of receiving the real-time video image sequences from the directional antenna of the radio transmitter/receiver and causing the display device to display the received real-time video image sequences, and capable of simultaneously transmitting an audio communication to the second antenna of the radio transmitter/receiver; an orientation sensor communicatively linked to the Head-Mounted Display that provides orientation information to the Head-Mounted Display; and wherein the Head-Mounted Display transmits the orientation information. 12. The system of claim 11 , wherein the orientation sensor comprises an internal battery and an inductive charging device that charges the internal battery. 13. The system of claim 11 , wherein the Head-Mounted Display is configured to be attached to an exterior surface of a helmet. 14. The system of claim 11 , wherein the real-time video image sequence is transmitted using the 60 GHz band. 15. The system of claim 11 , wherein: the Head-Mounted Display further comprises a microphone configured to generate a signal that is transmitted by the wireless video antenna and receiver assembly; and audio speakers; wherein the wireless video antenna and receiver assembly is capable of receiving the audio communication and causing the audio speakers to play the audio communication. 16. A system for providing a simulated immersive training environment comprising: at least one computer subsystem capable of generating at least one real-time video image sequence; a radio transmitter/receiver communicatively linked with the at least one computer subsystem, the radio transmitter/receiver comprising: at least one directional antenna, wherein the radio transmitter/receiver is capable of transmitting the at least one real-time video image sequence using the at least one directional antenna; and a second antenna distinct from the at least one directional antenna, wherein the radio transmitter/receiver is capable of transmitting and receiving an audio communication using the second antenna; and at least one Head-Mounted Display configured to be worn on a user and comprising a wireless video antenna and receiver assembly capable of receiving the at least one real-time video image sequence transmitted by the radio transmitter/receiver and of displaying the at least one real-time video image sequence on at least one screen positioned before the eyes of the user, wherein the radio transmitter/receiver is capable of simultaneously: transmitting the at least one real-time video image sequence to the wireless video antenna and receiver assembly using the at least one directional antenna, and receiving the audio communication from the wireless video antenna and receiver assembly and the second antenna.