System and method for electrically controllable transmissions

I claim: 1. An electrically controllable transmission system, the system comprising: a pilot shaft; a first input hub for receiving power from a power source, wherein the first input hub is configured to rotate about the pilot shaft; a first electrically controllable clutch having a first portion configured to be coupled to the first input hub and a second portion, where the first and second portions are configured to be electrically controllably coupled to one another such that power is transmitted from the first portion to the second portion; a rotatable member connected to the second portion of the first electrically controllable clutch, wherein the rotatable member is configured to rotate about the pilot shaft; a first one-way clutch configured to couple the rotatable member to a stationary chassis; an output hub, wherein the output hub is configured to rotate about the pilot shaft; and a bias member coupling the rotatable member to the output hub, wherein the bias member comprises a spring that stores energy when the first electrically controllable clutch is engaged and releases energy when the first electrically controllable clutch is disengaged, and wherein the spring stores energy by winding and releases energy by unwinding. 2. The electrically controllable transmission system of claim 1 , where the first and second portions of the electrically controllable clutch are configured to be electroadhesively engaged. 3. The electrically controllable transmission system of claim 1 , where the first electrically controllable clutch further comprises one of an electrolaminate disc clutch, an electrolaminate activated wrap spring clutch, and an electromagnetically activated wrap spring clutch. 4. The electrically controllable transmission system of claim 1 , where the system further includes a control circuit configured to control engaged and disengaged time intervals of the first electrically controllable clutch to maintain a torque level or a speed at the output hub. 5. The electrically controllable transmission system of claim 4 , where the control circuit is configured to control the engaged and disengaged time intervals of the first electrically controllable clutch to maintain the torque level or speed at the output hub utilizing one of pulse width modulation and pulse frequency modulation. 6. A method for electrically controllably transmitting power from a power source, the method comprising: receiving power from the power source at a first input hub configured to rotate about a pilot shaft; electrically controllably coupling the first input hub to a rotatable member configured to rotate about the pilot shaft, such that power is electrically controllably transmitted from the first input hub to the rotatable member; providing for one-way rotation between the rotatable member and a stationary chassis; and coupling the rotatable member to an output hub with a spring, wherein the output hub is configured to rotate about the pilot shaft such that energy is stored and released from the spring as the output hub rotates about the pilot shaft, wherein the spring stores energy by winding and releases energy by unwinding. 7. The method for electrically controllably transmitting power of claim 6 , where the step of electrically controllably coupling the first input hub to the rotatable member further includes electroadhesively coupling the first input hub to the rotatable member. 8. The method for electrically controllably transmitting power of claim 6 , where the step of electrically controllably coupling the first input hub to the rotatable member further includes using one of an electrolaminate disc clutch, an electrolaminate activated wrap spring clutch, or an electromagnetically activated wrap spring clutch. 9. The method for electrically controllably transmitting power of claim 6 , where the step of electrically controllably coupling the first input hub to the rotatable member further includes controlling engaged and disengaged time intervals of the first input hub and rotatable member to maintain a torque level or speed at the output hub. 10. The method for electrically controllably transmitting power of claim 9 , where the step of controlling engaged and disengaged time intervals of the first input hub and rotatable member further comprises controlling the engaged and disengaged time intervals utilizing one of pulse width modulation or pulse frequency modulation. 11. An electrically controllable power transmission apparatus, the apparatus comprising: means for electrically controllably coupling a first input hub to a rotatable member such that power is electrically controllably transmitted from the first input hub to the rotatable member, wherein the first input hub and rotatable member are configured to rotate about a pilot shaft; means for providing one-way rotation between the rotatable member and a stationary chassis; and means for coupling the rotatable member to an output hub configured to rotate about the pilot shaft such that energy is stored and released as the output hub rotates about the pilot shaft, wherein the means for coupling the shuttle to the output hub comprises a spring, wherein the spring stores energy by winding and releases energy by unwinding. 12. The electrically controllable power transmission apparatus of claim 11 , the apparatus further comprising means for controlling engaged and disengaged time intervals of the first input hub and rotatable member to maintain a torque level or speed at the output hub.