Shoe-based wearable interaction system

The invention claimed is: 1. A method of initiating a command in a computing system having a processor, the method comprising: detecting activity at a first wearable item or a second wearable item of a pair of wearable items; changing a power mode of the processor from a lowest power sleep mode to a low power sleep mode, the low power sleep mode activating proximity detection in the pair of wearable items that was deactivated in the lowest power sleep mode; detecting that the pair of wearable items are in close proximity; activating a command interface connected to the processor in response to detecting that the pair of wearable items are in close proximity, wherein activating the command interface includes awakening the processor by changing the power mode of the processor from the low power mode to an awake and listening power mode, the awake and listening power mode activating gesture detection in the pair of wearable items that was deactivated in the low power sleep mode; identifying a plurality of gestures performed within a predetermined period of time by the pair of wearable items, wherein a first gesture of the plurality of gestures is performed using a first wearable item of the pair of wearable items and a second gesture of the plurality of gestures is performed using a second wearable item of the pair of wearable items; determining a gesture-based command from the plurality of gestures via the command interface; and providing feedback in response to the gesture-based command. 2. The method of claim 1 , wherein detecting that the pair of wearable items are in close proximity includes detecting a Near Field Communication (NFC) device in the second wearable item. 3. The method of claim 1 , wherein one of the pair of wearable items is a shoe with a force detector, wherein detecting that the pair of wearable items are in close proximity includes detecting, via the force detector, that the shoe is being worn. 4. The method of claim 3 , wherein the command interface includes a nudge detector, wherein determining the gesture-based command includes receiving a nudge command via the force detector. 5. The method of claim 1 , wherein determining the gesture-based command includes receiving a signal from a sensor. 6. The method of claim 1 , wherein detecting that the pair of wearable items are in close proximity includes selecting the pair of wearable items from a group of wearable items consisting of shoes, gloves, jewelry, watches, wrist bands and head bands. 7. A system, comprising: a pair of wearable items, including a first and a second wearable item, wherein the first wearable item includes a command interface and proximity detecting circuitry for detecting when the pair of wearable items are in close proximity; wherein the command interface is: in a lowest power sleep mode until activity is detected at one of the first or the second wearable item, wherein the proximity detecting circuitry is deactivated in the lowest power sleep mode; in a low power sleep mode after activity is detected, wherein the proximity detecting circuitry is activated and a gesture detection sensor is deactivated in the low power sleep mode; and in an awake and listening power mode and activated when the pair of wearable items are placed in close proximity, wherein the gesture detection sensor is activated in the awake and listening power mode; wherein the command interface, when activated is configured to: identify a plurality of gestures performed within a predetermined period of time by the pair of wearable items, wherein a first gesture of the plurality of gestures is performed using the first wearable item and a second gesture of the plurality of gestures is performed using the second wearable item; determine a gesture-based command from the plurality of gestures; and provide feedback in response to the gesture-based command. 8. The system of claim 7 , wherein the proximity detecting circuitry and the command interface are encased in a package designed to fit in a void formed in a shoe. 9. The system of claim 7 , wherein the proximity detecting circuitry is selected from a group consisting of a force detector, an accelerometer, a microphone and a touch sensor. 10. The system of claim 7 , wherein the first and the second wearable items are a pair of shoes, wherein one of the pair of shoes includes a force detector that detects when the pair of shoes are being worn. 11. The system claim of 7 , wherein the command interface is further configured to: receive sensor data via the gesture detection sensor, the gesture detection sensor including at least one of a force detector, an accelerometer, a microphone and a touch sensor. 12. The system of claim 7 , wherein the proximity detecting circuitry includes a Near Field Communication (NFC) device and wherein the proximity detecting circuitry detects when the pair of wearable items are in close proximity by detecting an NFC device in the second wearable item. 13. The system of claim 7 , wherein the proximity detecting circuitry includes a camera and wherein the proximity detecting circuitry detects when the first and the second wearable items arc in close proximity via the camera. 14. The system of claim 7 , wherein the proximity detecting circuitry includes an infrared device and wherein the proximity detecting circuitry detects when the first and the second wearable items are in close proximity by reflecting infrared light off the second wearable item and capturing the reflected infrared light via the infrared device. 15. A non-transitory machine readable medium including instructions, which when executed by a processor, cause the processor to: detect activity at a first wearable item or a second wearable item of a pair of wearable items; change a power mode of the processor from a lowest power sleep mode to a low power sleep mode, the low power sleep mode activating proximity detection in the pair of wearable items that was deactivated in the lowest power sleep mode; detect that the pair of wearable items are in close proximity; activate a command interface connected to the processor in response to detecting that the pair of wearable items are in close proximity, wherein to activating the command interface includes awakening the processor by changing the power mode of the processor from the low power mode to an awake and listening power mode, the awake and listening power mode activating gesture detection in the pair of wearable items that was deactivated in the low power sleep mode; identify a plurality of gestures performed within a predetermined period of time by the pair of wearable items, wherein a first gesture of the plurality of gestures is performed using a first wearable item of the pair of wearable items and a second gesture of the plurality of gestures is performed using a second wearable item of the pair of wearable items; determine a gesture-based command from the plurality of gestures via the command interface; and provide feedback in response to the gesture-based command. 16. The non-transitory machine readable medium of claim 15 , wherein the instructions to detect that the pair of wearable items are in close proximity include instructions to detect a Near Field Communication (NFC) device in the second wearable item from the pair of wearable items. 17. The non-transitory machine readable medium of claim 15 , wherein one of the pair of wearable items is a shoe with a force detector, wherein the instructions to detect that the pair of wearable items are in close proximity include instructions to detect, via the fo