Composite cable assembly with neutral buoyancy

The invention claimed is: 1. An elongated composite assembly adapted for use in a water environment having an upper boundary and a lower boundary, the composite assembly comprising: an elongated optical fiber cable having a first buoyancy in a water environment, the elongated optical fiber cable having an outer surface; a first elongated supplemental filament having a second buoyancy different from the first buoyancy in the water environment; a second elongated supplemental filament having a third buoyancy different from the first and second buoyancies in the water environment; the elongated optical fiber cable and the first and the second elongated supplemental filament being connected along their lengths so as to form a composite assembly with a composite buoyancy selected such that the composite assembly is suspended between the upper boundary and the lower boundary of the water environment; wherein at least one of the first elongated supplemental filament or second supplemental filament is connected to the elongated optical fiber by being at least partially coiled around the outer surface of the elongated optical fiber cable; and wherein at least one of the first elongated supplemental filament or second elongated supplemental filament has connected portions connected to the elongated optical fiber cable and detached portions not connected to the elongated optical fiber cable such that the detached portions may extend away from the elongated optical fiber cable in the water environment. 2. An elongated composite assembly in accordance with claim 1 , wherein at least one of the first elongated supplemental filament or second elongated supplemental filament comprises a plurality of filament segments each being connected to the elongated optical fiber cable, the filament segments being spaced apart along a length of the elongated optical fiber cable. 3. An elongated composite assembly in accordance with claim 2 , wherein at least some of the plurality of filament segments each have a connected portion connected to the elongated optical fiber cable and a detached portion not connected to the elongated optical fiber cable such that the detached portion may extend away from the elongated optical fiber cable in the water environment. 4. An elongated composite assembly in accordance with claim 2 , wherein the first buoyancy is a negative buoyancy in the water environment. 5. An elongated composite assembly in accordance with claim 4 , wherein the elongated optical fiber cable is selected from a group consisting of raw optical fiber and jacketed cable having at least one optical fiber surrounded by a jacket. 6. A communication system that provides a physical communication connection with a communication site and a remote vehicle adapted to travel in a water environment having an upper boundary and a lower boundary, the communication system comprising: an elongated composite assembly in accordance with claim 2 , the elongated composite assembly having a first end and a second end, the first end physically connected to the communication site and the second end physically connected to the remote vehicle; a portion of the elongated composite assembly extending between the communication site and the remote vehicle through the water environment and being suspended in the water environment between the upper boundary and the lower boundary. 7. An elongated composite assembly in accordance with claim 1 , wherein both the first elongated supplemental filament and the second elongated supplemental filament are connected to the elongated optical fiber cable by being at least partially coiled around the outer surface of the elongated optical fiber cable. 8. An elongated composite assembly in accordance with claim 1 , wherein the first elongated supplemental filament is selected from a group consisting of thread formed of fibers, solid thread and hollow thread.