Inflatable radar signal device

The invention claimed is: 1. A RADAR signal device, comprising: a housing defining a liquid tight interior space; at least one gas cylinder disposed within the interior space, the gas cylinder is charged with a lifting gas; at least one inflatable balloon mounted on the housing, the balloon is fluidly connectable to the gas cylinder to permit inflation of the balloon by the lifting gas, the balloon is tethered to the housing, and the balloon includes RADAR-reflecting material; an actuatable gas release mechanism that provides controlled release of the lifting gas from the gas cylinder into the balloon in order to inflate the balloon; a balloon release mechanism that provides release of the balloon from the housing so that when the balloon is inflated, the balloon floats upwardly above the housing while remaining tethered to the housing; and a communication antenna capable of receiving a trigger signal, wherein the RADAR signal device is activated based on the trigger signal. 2. The RADAR signal device of claim 1 , wherein the lifting gas is helium; the balloon is disposed within the interior space of the housing; and the balloon is made of a metallized plastic film that forms the RADAR-reflecting material. 3. The RADAR signal device of claim 1 , comprising at least two of the inflatable balloons, and the balloons are tethered to the housing in a manner so that when the balloons are inflated one of the balloons floats at a first height while a second balloon floats at a second height greater than the first height. 4. The RADAR signal device of claim 3 , wherein the balloon that floats at the first height is tethered to the housing by a first tether, the balloon that floats at the second height is tethered to the housing by a second tether, and a first point where the first tether is attached to the housing is horizontally spaced from a second point where the second tether is attached to the housing. 5. The RADAR signal device of claim 1 , further comprising at least one battery disposed in the housing, and wherein the communication antenna is electrically connected to the battery. 6. The RADAR signal device of claim 1 further comprising a GPS antenna and/or a satellite antenna. 7. The RADAR signal device of claim 1 , wherein the communication antenna is part of a communications transceiver in the housing that permits the RADAR signal device to send and receive communications. 8. The RADAR signal device of claim 1 , wherein the housing is configured for use within water and the housing is buoyant. 9. The RADAR signal device of claim 1 , wherein the housing is cylindrical and includes a nose cone that is removably attached to a main body; and the housing is buoyant such that when the housing is disposed in water, the nose cone is disposed above a surface of the water. 10. The RADAR signal device of claim 1 , wherein the housing includes at least one frangible joint that can be broken to permit release of the balloon. 11. A RADAR signal device, comprising: a liquid tight, buoyant housing that can be actuated from a closed storage configuration to an open release configuration; a gas cylinder disposed within the housing, the gas cylinder is charged with a lifting gas; at least two inflatable balloons within the housing, the balloons are fluidly connectable to the gas cylinder to permit inflation of the balloons by the lifting gas, the balloons are tethered to the housing, and the balloons are made of a metallized plastic film that is RADAR-reflecting; an actuatable gas release mechanism that when actuated releases the lifting gas from the gas cylinder into the balloons in order to inflate the balloons; an actuatable balloon release mechanism that can actuate the housing from the closed storage configuration to the open release configuration to permit release of the balloons from the housing so that when the balloons are inflated, the balloons float upwardly above the housing while remaining tethered to the housing; the balloons are tethered to the housing in a manner so that when the balloons are inflated one of the balloons floats at a first height while a second balloon floats at a second height greater than the first height; and a communication antenna capable of receiving a trigger signal, wherein the RADAR signal device is activated based on the trigger signal. 12. The RADAR signal device of claim 11 , further comprising at least one battery disposed in the housing, and wherein the communication antenna is electrically connected to the battery. 13. The RADAR signal device of claim 11 , further comprising a GPS antenna and/or a satellite antenna. 14. The RADAR signal device of claim 11 , wherein the communication antenna is part of a communications transceiver in the housing that permits the RADAR signal device to send and receive communications. 15. The RADAR signal device of claim 11 , wherein the balloon that floats at the first height is tethered to the housing by a first tether, the balloon that floats at the second height is tethered to the housing by a second tether, and a first point where the first tether is attached to the housing is horizontally spaced from a second point where the second tether is attached to the housing.