Closed loop universal remote control

The invention claimed is: 1. A remote control operable to sequentially transmit instructions to each individual electronic device of a plurality of electronic devices in a closed loop, the remote control comprising: a processor; an input device configured to receive a user input command; and one or more sensors configured to collect sensor data that includes information related to a current state of each individual electronic device; wherein the processor is configured to execute the user input command by: determining the current state of a first of the plurality of electronic devices based on first sensor data and independent of any digital state-identifying or device-identifying information electronically transmitted by any electronic device of or in communication with the plurality of electronic devices; comparing the current state of the first electronic device to a desired state of the first electronic device based on the user input command; upon determining that the current state of the first electronic device is different from the desired state of the first electronic device, wirelessly transmitting an instruction to the first electronic device to cause the first electronic device to enter the desired state; obtaining first additional sensor data; comparing the first additional sensor data to the first sensor data to verify that the current state of the first electronic device has changed to the desired state of the first electronic device; determining the current state of a second of the plurality of electronic devices based on second sensor data and independent of any digital state-identifying or device-identifying information electronically transmitted by any electronic device of or in communication with the plurality of electronic devices; comparing the current state of the second electronic device to a desired state of the second electronic device based on the user input command; upon determining that the current state of the second electronic device is different from the desired state of the second electronic device, wirelessly transmitting an instruction to the second electronic device to cause the second electronic device to enter the desired state; obtaining second additional sensor data; and comparing the second additional sensor data to the second sensor data to verify that the current state of the second electronic device has changed to the desired state of the second electronic device. 2. The remote control of claim 1 wherein the one or more sensors comprises a camera and the first sensor data is an image of at least one electronic device of the plurality of electronic devices. 3. The remote control of claim 1 wherein the one or more sensors comprises a microphone and the first sensor data is sound collected by the microphone. 4. The remote control of claim 2 wherein the processor is further configured to analyze the image to determine the color of one or more status indicator lights. 5. The remote control of claim 2 wherein the processor is further configured to analyze the image to determine if light is emanating from the first electronic device. 6. The remote control of claim 2 wherein the processor is further configured to: determine if characters are present in the image; recognize the characters; and determine the current state of the first electronic device based on the recognized characters. 7. The remote control of claim 2 wherein the processor is further configured to: determine a presence of an on-screen status indicator; recognize the presence of the on screen indicator as indicating a state change of the first electronic device; and determine the current state of the first electronic device. 8. A method of operating a remote control to set a current state of each electronic device of a plurality of electronic devices in a closed loop manner, the method comprising: receiving a user input command corresponding to at least a first desired state corresponding to a first electronic device and a second desired state corresponding to a second electronic device of the plurality of electronic devices; obtaining sensor data from one or more sensors; for each individual electronic device of the plurality of electronic devices: determining a current state of the first electronic device, based on the sensor data, and independent of any digital state-identifying or device-identifying information electronically transmitted by any electronic device of or in communication with the plurality of electronic devices; transmitting a first command to change the current state of the first electronic device upon determining that the current state of the first electronic device is not the first desired state; after transmitting the first command, determining the current state of the first electronic device using the sensor data; determining whether the current state of the first electronic device changed in response to the transmitted first command; and upon determining that the current state of the first electronic device is not the first desired state, re-transmitting the command; determining a current state of the second electronic device, based on the sensor data, and independent of any digital state-identifying or device-identifying information electronically transmitted by any electronic device of or in communication with the plurality of electronic devices; transmitting a second command to change the current state of the second electronic device upon determining that the current state of the second electronic device is not the second desired state; after transmitting the second command, determining the current state of the second electronic device using the sensor data; determining whether the current state of the second electronic device changed in response to the transmitted second command; and upon determining that the current state of the second electronic device is not the second desired state, re-transmitting the command. 9. The remote control of claim 3 wherein the processor is further configured to analyze the sound collected by the microphone to determine if the current state of the first electronic device has changed. 10. The remote control of claim 1 , wherein: the desired state of the first electronic device is a power state; and the desired state of the second electronic device is a setting state. 11. A method of operating a remote control to set a current state of each electronic device of a plurality of electronic devices in a closed loop manner, the method comprising: receiving a user input command corresponding to at least a first desired state corresponding to a first electronic device and a second desired state corresponding to a second electronic device of the plurality of electronic devices; obtaining sensor data from one or more sensors; determining a current state of the first electronic device, based on the sensor data, and independent of any digital state-identifying or device-identifying information electronically transmitted by any electronic device of the plurality of electronic devices; transmitting a first command to change the current state of the first electronic device upon determining that the current state of the first electronic device is not the first desired state; after transmitting the first command, determining the current state of the first electronic device using the sensor data; determining whether the current state of the first electronic device changed in response to the transmitted first command; and upon determining that the current state of the first electronic device is not the first desired state, re-transmitting the command; determining a current state of the second ele