Athletic activity monitoring device with energy capture

What is claimed is: 1. An energy harvesting device, comprising: an insulated container, comprising: a deformable outer membrane having an outer surface and an inner surface; a deformable inner membrane, spaced apart from the deformable outer membrane, having an outer surface and an inner surface; an internal cavity spaced between the deformable outer membrane and the deformable inner membrane; an outer heat exchanger coupled to the deformable outer membrane, comprising an outer surface exposed to an external environment, and an inner surface exposed to the internal cavity; an inner heat exchanger coupled to the deformable inner membrane, comprising an outer surface exposed to the external environment, and an inner surface; a thermoelectric generator module positioned within the internal cavity, the thermoelectric generator coupled to the inner heat exchanger, and comprising an outer surface exposed to the internal cavity, the insulated container having a primary axis of conduction through the inner heat exchanger, the thermoelectric generator, and the outer heat exchanger; and a processor, wherein the insulated container is configured to be deformed between an expanded configuration and a compressed configuration, wherein when in the expanded configuration, the inner surface of the outer heat exchanger is spaced apart from the outer surface of the thermoelectric generator, wherein when in the compressed configuration, the inner surface of the outer heat exchanger is positioned proximate to the outer surface of the thermoelectric generator, wherein the processor is powered by the thermoelectric generator, wherein the processor is configured to monitor a voltage output from the thermoelectric generator, and wherein the output voltage is proportional to a thermal gradient between the outer and inner heat exchangers such that the thermoelectric generator functions as a heat flux sensor. 2. The energy harvesting device of claim 1 , wherein the thermal gradient between the inner and outer heat exchangers is between a temperature of the external environment and a user's skin temperature. 3. The energy harvesting device of claim 1 , wherein the output voltage being above a threshold voltage indicates that a user is wearing the energy harvesting device. 4. The energy harvesting device of claim 1 , wherein the inner and outer heat exchangers comprise aluminum alloys. 5. The energy harvesting device of claim 1 , wherein the insulated container comprises a closed-cell foam. 6. The energy harvesting device of claim 1 , wherein the insulated container is impermeable to water at 1 atm. 7. The energy harvesting device of claim 1 , wherein the insulated container is configured to be positioned within an item of athletic apparel.