Medium independent pressure tolerant release device, system and method

The invention claimed is: 1. A release device for releasing another device in an environment, the release device comprising: a housing containing a material matrix therein; a member restrained by the material matrix and extending from the material matrix to outside the housing, said material matrix comprising a solid in conditions of the environment to hold the member stationary in opposition to predetermined force and soften at a predetermined softening temperature to permit relative movement between the member and the material matrix; a heating element disposed to heat the material matrix to the predetermined softening temperature; and a cap sealed to said housing, said cap containing a power source for powering said heating element and a controller for controlling said heating element and communications via a remote communication sensor. 2. The release device of claim 1 , wherein the material matrix comprises a polymorph material. 3. The release device of claim 1 , wherein the power source comprises a battery. 4. The release device of claim 1 , wherein said heating element comprises a silicon heat strip. 5. The release device of claim 1 , wherein said communication sensor comprises a sonar sensor. 6. The release device of claim 1 , wherein the material matrix comprises a re-usable matrix that reforms into a solid after being heated beyond the predetermined softening temperature and allowed to cool back below the predetermined softening temperature. 7. The release device of claim 1 , and wherein said cap comprises a spring that applies the predetermined force to said member. 8. The release device of claim 1 , wherein said heating element comprises a resistive heating element. 9. The release device of claim 1 , wherein said heating element comprises a chemical heating element. 10. A release system comprising: a release device mounted to a mechanical release device, wherein the release device comprises a housing containing a material matrix therein; a restrained member restrained by the material matrix and extending from the material matrix to outside the housing, said material matrix comprising a solid in conditions of the environment to hold the member stationary in opposition to predetermined force and soften at a predetermined softening temperature to permit relative movement between the member and the material matrix; and a heating element disposed to heat the material matrix to the predetermined softening temperature; wherein the mechanical release device comprises a spring that provides the predetermined force to a pivot member that is attached to said restrained member. 11. The release system of claim 10 , further comprising a cap sealed to said housing, said cap containing a power source for powering said heating element and a controller for controlling said heating element and communications via a remote communication sensor. 12. A method for releasing an underwater device in response to a remote communication received through water in which the underwater device is submersed, the method comprising: attaching the underwater device to a member extending out of a release device; submersing the release device while the underwater devices is attached to the member; holding a portion of the member with a material matrix of the release device within a housing of the release device while the release device and the underwater device are submersed to prevent release of the underwater device against an opposing force associated with the underwater device; receiving, by the release device, a remote communication through the water; heating the material matrix in response to the remote communication to heat the matrix to a softening temperature and permit movement of the member to fully release the underwater device.