Electronic controller with hand retainer and finger motion sensing

We claim: 1. A controller for an electronic system, for operation by a user having a hand with fingers and a palm, the controller comprising: a controller body having a handle portion with an outside surface; a hand retainer attached to the controller body at two or more locations, the hand retainer configured to contact a back of the hand and to physically bias the palm against the outside surface of the handle portion when the hand retainer is in a closed position, wherein the hand retainer comprises: a curved resilient member to bias the hand retainer in an open position; and a cord that is connected to the curved resilient member and configured to be cinched at an end of the handle portion, wherein the curved resilient member is preloaded by tension of the cord when the hand retainer is in the closed position and when the cord is cinched to cause the hand retainer to automatically open when the cord is un-cinched; and an array of proximity sensors that are spatially distributed on the handle portion, the array of proximity sensors being responsive to a proximity of the fingers to the outside surface of the handle portion. 2. The controller of claim 1 , wherein the curved resilient member includes a strip of at least one of metal or plastic. 3. The controller of claim 1 , wherein the hand retainer further includes a fabric material that at least partially covers the curved resilient member. 4. The controller of claim 3 , wherein the fabric material is adhered to a first side of the curved resilient member that faces the hand, and wherein a second side of the curved resilient member opposite the first side is substantially uncovered. 5. The controller of claim 1 , wherein the hand retainer is adjustable in length to transition the hand retainer between the closed position and the open position. 6. The controller of claim 1 , wherein the end of the handle portion is a second end of the handle portion, and wherein the controller body further comprises a distal head that extends from the handle portion at a first end of the handle portion opposite the second end of the handle portion, and wherein the cord is configured to be cinched by a spring-biased chock located at the second end of the handle portion. 7. A controller for an electronic system, for operation by a user having a hand with fingers, the controller comprising: a controller body having a handle portion with an outside surface; a hand retainer attached to the controller body, wherein the hand retainer includes: a curved resilient member that biases the hand retainer in an open position, and a cord that is connected to the curved resilient member and configured to be cinched at an end of the handle portion, wherein the curved resilient member is preloaded by tension of the cord when the hand retainer is in a closed position and when the cord is cinched to cause the hand retainer to automatically open when the cord is un-cinched; and an array of proximity sensors embedded under or on the outside surface of the handle portion, the array of proximity sensors being responsive to a proximity of the fingers to the outside surface of the handle portion. 8. The controller of claim 7 , wherein the hand includes a palm, and wherein the hand retainer is configured to contact a back of the hand and to physically bias the palm against the outside surface of the handle portion when the hand retainer is in the closed position. 9. The controller of claim 7 , wherein the hand retainer further includes a fabric material that at least partially covers the curved resilient member. 10. The controller of claim 7 , wherein the hand retainer is adjustable in length to transition the hand retainer between the open position and the closed position. 11. The controller of claim 7 , wherein the array of proximity sensors comprises a plurality of capacitive sensors. 12. The controller of claim 7 , further comprising a rechargeable battery disposed within the controller body, and wherein the hand retainer includes an electrically-conductive charging wire that is electrically coupled to the rechargeable battery. 13. The controller of claim 12 , further comprising a radio frequency (RF) transmitter that is powered by the rechargeable battery and is responsive to the array of proximity sensors detecting the proximity of the fingers to the outside surface of the handle portion. 14. The controller of claim 7 , wherein the cord is configured to be cinched by a spring-biased chock located at the end of the handle portion. 15. A controller for an electronic system, for operation by a user having a hand with fingers, the controller comprising: a controller body having a handle portion with an outside surface; a hand retainer attached to the controller body at two or more locations, wherein the hand retainer is adjustable in length to transition the hand retainer between a closed position and an open position, and wherein the hand retainer comprises: a curved resilient member to bias the hand retainer in the open position; and a cord that is connected to the curved resilient member and configured to be cinched at an end of the handle portion, wherein the curved resilient member is preloaded by tension of the cord when the hand retainer is in the closed position and when the cord is cinched to cause the hand retainer to automatically open when the cord is un-cinched; and an array of proximity sensors that are spatially distributed on the handle portion, the array of proximity sensors being responsive to a proximity of the fingers to the outside surface of the handle portion. 16. The controller of claim 15 , wherein the hand retainer further includes a fabric material that at least partially covers the curved resilient member. 17. The controller of claim 15 , wherein the end of the handle portion is a second end of the handle portion, and wherein the controller body further comprises a distal head that extends from the handle portion at a first end of the handle portion opposite the second end of the handle portion, and wherein the cord is configured to be cinched by a spring-biased choc located at the second end of the handle portion. 18. The controller of claim 15 , further comprising a rechargeable battery disposed within the controller body, and wherein the hand retainer includes an electrically-conductive charging wire that is electrically coupled to the rechargeable battery. 19. The controller of claim 18 , further comprising a radio frequency (RF) transmitter that is powered by the rechargeable battery and is responsive to the array of proximity sensors detecting the proximity of the fingers to the outside surface of the handle portion. 20. The controller of claim 15 , wherein the curved resilient member includes a strip of at least one of metal or plastic.