Abstract :
The multiplex system described was designed for use on the NAVFAC Snoopy vehicle, a small remotely manned tethered undersea vehicle developed at the Naval Undersea Center. Using a combination of time division (TDM) and frequency multiplexing, the system allows simultaneous transmission of vehicle power, status, command, and video signals over a small diameter coaxial cable. Digital vehicle and status signals are TDM encoded, frequency modulated, and then transmitted via the tether cable to the vehicle (or control station) receiver. At the receiver the signals are frequency demodulated, TDM de coded, and sent to the appropriate function. The power and video signals are simply frequency multiplexed onto the tether cable, along with the frequency modulated command and status signals.
Keywords :
marine control; mobile robots; remotely operated vehicles; underwater vehicles; NAVFAC snoopy vehicle; TDM; coaxial cable diameter; digital vehicle; frequency multiplexing; multiplex system; naval undersea center; small remotely manned submersible; time division; vehicle power; video signals; Cable TV; Capacitors; Coaxial cables; Decoding; Displays; Frequency division multiplexing; Frequency modulation; Switches; Time division multiplexing; Underwater vehicles;
