Methods and apparatus for using smart environment devices via application program interfaces

The invention claimed is: 1. A system, comprising: an application programming interface (API) client device, comprising a camera, the camera comprising a processor configured to: provide submission data to an application programming interface (API), the submission data including information about the camera to be processed by a cloud service that includes a data model associated with the API, the data model comprising information related to one or more smart-devices, one or more smart-device environment structures comprising the smart-devices, or both; and receive reception data from the API, the reception data including information about the one or more smart-devices, the one or more smart-device environment structures comprising the smart-devices, or both, a camera status of the camera being modified based upon the reception data, and a smart-device status being modified based upon the submission data, or both. 2. The system of claim 1 , wherein: the data model comprises a single JavaScript Object Notation (JSON) document describing the one or more smart-device environment structures, the one or more smart-devices, or both, and the one or more smart-devices comprise: a thermostat, a hazard detector, a lighting controller, security system, a doorbell, or any combination thereof; the processor is configured to provide the submission data, receive the reception data, or both by providing a request to a representational state transfer (REST) host, a subscription-based application programming interface (API) host, or both; and the REST host receives REST-based messages and the subscription-based API host receives messages in accordance with a standard of the subscription-based API host. 3. The system of claim 1 , the system comprising one or more smart-lights within one of the one or more smart-device environment structures; the processor configured to: include an indication of motion detection in the submission data that is effective to operate the one or more smart-lights. 4. The system of claim 3 , wherein the indication of the motion detection is a detection of motion by the camera inside or outside of the one of the one or more smart-device environment structures, and wherein the operation of the one or more smart-lights activates the smart-lights for a period of time. 5. The system of claim 4 , wherein the one or more smart-lights are activated immediately after the detection of the motion, activated after a fixed time delay after the detection of the motion, or activated after a bounded, random time delay after the detection of the motion. 6. The system of claim 3 , wherein the indication of the motion detection is that no motion has been detected by the camera for a period of time, and wherein the operation of the one or more smart-lights is to dim or turn off the smart-lights. 7. The system of claim 3 , wherein the camera monitors an activity zone, and wherein the motion is detected in the activity zone. 8. The system of claim 1 , wherein the received reception data includes a trigger from one of the one or more smart-devices, and wherein the trigger is effective to cause the camera to capture a picture or a video. 9. The system of claim 8 , wherein the trigger is: sensing motion in a certain activity zone, a door opening or closing, a lock being locked or unlocked, a window being opened or closed, a garage door opening or closing, an animal door moving, a window being broken, lights being turned on or off, a request from a user device to capture the picture or the video, or any combination thereof. 10. A method for controlling a camera, the method comprising: providing submission data to an application programming interface (API), by the camera, which is an API client device, the submission data including information about the camera to be processed by a cloud service that includes a data model associated with the API, the data model comprising information related to one or more smart-devices, one or more smart-device environment structures comprising the smart-devices, or both; and; receiving reception data from the API, the reception data including information about the one or more smart-devices, the one or more smart-device environment structures comprising the smart-devices, or both, a camera status of the camera being modified based upon the reception data, and a smart-device status being modified based upon the submission data, or both. 11. The method of claim 10 , comprising: detecting motion, by the camera, in an activity zone inside or outside of one of the one or more smart-device environment structures; and including an indication of the detected motion in the submission to the API that is effective to operate one or more smart-lights within the one of the one or more smart-device environment structures. 12. The method of claim 11 , wherein the one or more smart-lights are activated immediately after the detection of the motion, activated after a fixed time delay after the detection of the motion, or activated after a bounded, random time delay after the detection of the motion. 13. The method of claim 10 , the method comprising: measuring, by the camera, an ambient light level; and including an indication of the ambient light level in the submission data that is effective to adjust one or more smart-lights to a level corresponding to the ambient light level. 14. The method of claim 10 , wherein the received reception data includes a trigger from one of the one or more smart-devices, the method comprising: capturing a picture or a video in response to the trigger. 15. The method of claim 14 , wherein the trigger is: sensing motion in a certain activity zone, a door opening or closing, a lock being locked or unlocked, a window being opened or closed, a garage door opening or closing, an animal door moving, a window being broken, lights being turned on or off, a request from a user device to capture the picture or the video, or any combination thereof. 16. An application programming interface (API) client device, comprising a camera, the camera comprising a processor configured to: provide submission data to an application programming interface (API), the submission data including information about the camera to be processed by a cloud service that includes a data model associated with the API, the data model comprising information related to one or more smart-devices, one or more smart-device environment structures comprising the smart-devices, or both; and receive reception data from the API, the reception data including information about the one or more smart-devices, the one or more smart-device environment structures comprising the smart-devices, or both, a camera status of the camera being modified based upon the reception data, and a smart-device status being modified based upon the submission data, or both. 17. The API client device of claim 16 , the processor configured to: detect motion in an activity zone inside or outside of one of the one or more smart-device environment structures; and include an indication of the detected motion in the submission data to the API, the indication being effective to operate one or more smart-lights within the one of the one or more smart-device environment structures. 18. The API client device of claim 17 , wherein the one or more smart-lights are activated immediately after the detection of the motion, activated after a fixed time delay after the detection of the motion, or activated after a bounded, random time delay after the detection of the motion. 19.