Directional lighting system and method

We claim: 1. A method for controlling device operation, the method comprising: receiving power at a connected lighting system from an external power source, the connected lighting system comprising a microphone, a wireless communication module, and a processor electrically connected to the microphone and the wireless communication module; while power is being received at the connected lighting system from the external power source: receiving, at the microphone, an audio input from a user; detecting, at the processor, an audio pattern from the audio input; and in response to detecting the audio pattern, transmitting, at the wireless communication module, the audio pattern to a remote server; receiving operation instructions, determined based on the audio pattern, at the connected lighting system; and operating the connected lighting system based on the operation instructions, wherein the operation instructions comprise a reset trigger event, and wherein operating the connected lighting system comprises initiating a reset routine in response to receiving the reset trigger event. 2. The method of claim 1 , wherein the connected lighting system comprises a connected lightbulb. 3. The method of claim 2 , further comprising: determining an identifier for the connected lightbulb; and determining to a geographic location associated with the identifier of the connected lightbulb; wherein the operation instructions are determined based on the geographic location of the connected lightbulb. 4. The method of claim 1 , wherein operating the connected lighting system comprises operating the connected lighting system to control a television proximal the connected lighting system and wirelessly connected to the connected lighting system. 5. The method of claim 2 , wherein: receiving the operation instructions comprises receiving the operation instructions from the remote server the wireless communication system; and operating the connected lightbulb comprises: determining, at the processor of the connected lighting system, a lighting parameter based on the operation instructions; and emitting, at the connected lightbulb, light based on the lighting parameter. 6. The method of claim 1 , further comprising detecting user proximity to the connected lightbulb based on the audio input; wherein the operation instructions are determined based on the user proximity. 7. The method of claim 1 , wherein initiating the reset routine comprises: erasing information from the connected lighting system; and reconnecting the connected lighting system to the remote server using the wireless communication module of the connected lighting system. 8. A method for controlling operation of a remote device, the method comprising: receiving power at a first connected lightbulb from an external power source, the first connected lightbulb comprising a microphone, a wireless communication module, and a processor electrically connected to the microphone and the wireless communication module; while power is being received at the first connected lightbulb from the external power source: receiving, at the microphone, an audio input from a user; detecting, at the processor, an audio pattern based on the audio input; in response to detecting the audio pattern, transmitting, at the wireless communication module, the audio pattern to a remote server; receiving, at the wireless communication system, operation instructions from the remote server, wherein the operation instructions are determined from the audio pattern; and in response to receiving the operation instructions, controlling operation of the remote device using the operation instructions, wherein the remote device is a second connected lightbulb, and wherein the first and the second connected lightbulbs comprise a first and a second set of light emitting elements, respectively, wherein the operation instructions comprise a spatial lighting pattern, and wherein controlling operation of the remote device comprises operating the second light emitting element based on a first lighting parameter determined from the spatial lighting pattern. 9. The method of claim 8 , wherein the spatial lighting pattern comprises directing light toward a geographic location, wherein operating the second light emitting element comprises controlling the second light emitting element to direct light towards the geographic location, the method further comprising, in response to receiving the spatial lighting pattern from the remote server, controlling a first light emitting element of the first connected lightbulb to direct light towards the geographic location based on a second lighting parameter determined from the spatial lighting pattern. 10. The method of claim 9 , wherein the second connected lightbulb comprises a light sensor, and wherein transmitting the operation instructions to the remote device comprises: emitting incident light at the first lighting element of the first connected lightbulb; measuring the incident light at the light sensor of the second connected lightbulb; and determining a position of the first connected lightbulb based on the measurement of the incident light, wherein directing the second light emitting element towards the geographic location is based on the position of the first connected lightbulb.