Self-contained electronic stowage bin system

What is claimed is: 1 . A self-contained electronic latching system for a stowage bin, comprising: an energy storage device; an electronic latch device for opening a door of a stowage bin, the electronic latch device configured to open the door upon receipt of a signal on an input, the electronic latch device coupled to the energy storage device and configured to receive electrical power only from the energy storage device; a latch button for activating an electronic switch coupled to the input of the electronic latch device; and one or more energy harvesting systems coupled to the energy storage device, each of the one or more energy harvesting systems configured to generate electricity and to provide the generated electricity to the energy storage device. 2 . The self-contained electronic latching system of claim 1 , wherein the electronic latch device further comprises an element for securing the door in a closed position. 3 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems generates electricity based upon cabin vibrations. 4 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems generates electricity based upon motion supplied to a piezoelectric device. 5 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems generates electricity based upon motion supplied to an electromechanical device. 6 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems generates electricity using a photovoltaic device. 7 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems generates electricity using a thermoelectric device. 8 . The self-contained electronic latching system of claim 1 , wherein one of the one or more energy harvesting systems is incorporated into the latch button and generates electricity using a piezoelectric device and/or electromechanical device. 9 . The self-contained electronic latching system of claim 1 , wherein the energy storage devices is either a capacitor or a battery. 10 . The self-contained electronic latching system of claim 1 , further comprising a low-energy bi-stable display mounted on a surface of the latch button, the low-energy bi-stable display providing an indication of the latching status of the door. 11 . An electronic latching system for a stowage bin, comprising: a first energy storage device; an electronic latch device for opening a door of a stowage bin, the electronic latch device configured to open the door upon receipt of a signal on an input, the electronic latch device coupled to the first energy storage device and configured to receive electrical power from the first energy storage device; a latch button for activating an electronic switch coupled to the input of the electronic latch device; and one or more first energy harvesting systems coupled to the energy storage device, each of the one or more first energy harvesting systems configured to generate electricity and to provide the generated electricity to the energy storage device, each of the one or more first energy harvesting systems incorporated into the latch button and configured to generate electricity based upon piezoelectric and/or electromechanical action. 12 . The electronic latching system of claim 11 , further comprising: a second energy storage device; one or more second energy harvesting systems coupled to the second energy storage device, each of the one or more second energy harvesting systems configured to generate electricity and to provide the generated electricity to the second energy storage device, each of the one or more second energy harvesting systems incorporated into the stowage bin; and wherein the electronic latch device is also coupled to the second energy storage device and is also configured to receive electrical power from the second energy storage device. 13 . The electronic latching system of claim 12 , wherein one of the one or more second energy harvesting systems is configured to generate electricity using a piezoelectric device and/or electromechanical device. 14 . The electronic latching system of claim 12 , further comprising: a third energy storage device; one or more third energy harvesting systems coupled to the third energy storage device, each of the one or more third energy harvesting systems configured to generate electricity and to provide the generated electricity to the third energy storage device, each of the one or more third energy harvesting systems mounted outside of the stowage bin; and wherein the electronic latch device is also coupled to the third energy storage device and is also configured to receive electrical power from the third energy storage device. 15 . The electronic latching system of claim 14 , wherein one of the one or more third energy harvesting systems is configured to generate electricity using piezoelectric device and/or electromechanical device. 16 . The electronic latching system of claim 14 , wherein one of the one or more third energy harvesting systems is configured to generate electricity using a photovoltaic device. 17 . The electronic latching system of claim 14 , wherein one of the one or more third energy harvesting systems is configured to generate electricity using a thermoelectric device. 18 . The electronic latching system of claim 14 , wherein the stowage bin is mounted within an aircraft and wherein one of the one or more third energy harvesting systems is configured to generate electricity by harvesting aircraft cabin vibrations. 19 . The self-contained electronic latching system of claim 11 , further comprising a low-energy bi-stable display mounted on a surface of the latch button, the low-energy bi-stable display providing an indication of the latching status of the door. 20 . A method of operating a self-contained electronic latching system for a stowage bin, comprising the steps of: generating electricity in one or more energy harvesting systems; providing the generated electricity to an energy storage device; upon activation of a latch button, generating a signal in an electronic switch that is coupled to an input of an electronic latch device; and upon receipt of the signal at the input of the electronic latch device, causing a door of the stowage bin to open by activating the electronic latch device, the electronic latch device configured to receive electrical power only from the energy storage device.