Systems and methods for commissioning and localizing devices used for cloud-based monitoring and control of physical environments

The invention claimed is: 1. A system for localizing a system device used for monitoring physical environments, the system comprising: a computing cloud comprising: an application module configured to receive, via a user interface of a portable electronic device, an indication of a user's selection of a representation of the system device, and to transmit a request to open a wireless network of a gateway associated with the system device, the gateway being identified, among a plurality of gateways, by a unique ID, a project service module configured to receive the request to open the wireless network from the application module, and to transmit an enhanced request to open the wireless network of the gateway, the similar request being enhanced with an associated building server ID and the gateway's IP address, and a plugin module configured to receive the enhanced request from the project service module, and to transmit a request to open a specific type of wireless network at the gateway identified by the received gateway IP address; a building server communicatively coupled with the computing cloud, configured to receive the request to open a specific type of wireless network from the plugin module, and to transmit the request to the gateway identified by the IP address; a gateway communicatively coupled with the building server, configured to receive the request transmitted by the building server, to open its wireless network, and to inform associated system devices of the open network, and to inform the building server that the network was successfully opened; the portable electronic device configured to transmit a signal to the system device to add itself to the gateway's wireless network; and the system device communicatively coupled with the gateway, configured to transmit a request to join the wireless network of the gateway. 2. The system of claim 1 , wherein: the building server is further configured to participate in forwarding a sign on request originating from the system device to the the project service module, the project service module being further configured to notify the application module of discovery of the system device with a corresponding physical device ID. 3. The system of claim 2 , wherein: the project service module is further configured to associate the physical device ID of the system device with a virtual device ID in a memory, the virtual device ID being associated with a virtual representation of the system device. 4. The system of claim 3 , wherein: the project service module is further configured to deploy the system device by causing the plugin module to create a device configuration suitable for the system device based on one or more of: the virtual device ID of the system device, an indication of the area in which the system device is located, and one or more template fragments indicating the intended behavior of the system device under one or more circumstances. 5. The system of claim 1 , wherein: the building server is configured to receive an update request with a virtual device ID and a target configuration, and to thereafter transmit a request to the gateway to write one or more data blocks to the system device identified by the virtual device ID. 6. A method for localizing a commissioned system device for use in a system for monitoring physical environments, the method comprising the steps: a cloud-based application module receiving, from a portable electronic device, an indication of a user's selection of the system device, and causing a wireless gateway associated with the system device to make accessible its wireless network; the system device receiving a signal from a remote control device, and visually indicating signal receipt; the system device joining the wireless network of its associated wireless gateway; the cloud-based application module receiving a signal indicating a sign on, the signal originating from the system device, and altering the visual depiction of the system device on a user interface capable of being displayed on the portable electronic device; and the system device receiving a signal originating from the cloud-based application module, the signal indicting successful localization, and visually indicating the successful localization, wherein the commissioned system device is a luminaire, and wherein the system device visually indicates successful localization by temporarily dimming or augmenting its light output. 7. The method of claim 6 , wherein the signal from the remote control device is an infra-red (IR) signal, and wherein the wireless network of the gateway device is a ZigBee® network. 8. A method for re-localizing a commissioned system device within a system for monitoring physical environments, the method comprising the steps: a cloud-based application module, receiving, via a user interface displaying on a portable electronic device, an indication that a system device, previously associated with a first location, is to be associated with a second location different from the first location; the cloud-based application module causing a wireless network associated a gateway, the gateway being previously associated in a memory with the system device, to make itself accessible; the system device receiving a signal from a remote control device, and visually indicating signal receipt; the system device transmitting a signal to the cloud-based application module, via the gateway, indicating the second location to be associated with itself; the cloud-based application module prompting a user, via the user interface displaying on the portable electronic device, to verify if the user wishes to re-localize the system device; and associating, in a memory accessible to the cloud-based application module, the second location with the system device. 9. The method of claim 8 , wherein the signal from the remote control device is an infra-red (IR) signal, and wherein the system device visually indicates signal receipt by blinking one or more times. 10. The method of claim 8 , wherein the user interface is part of a first application module communicatively coupled with the cloud-based application module, the first application module being a front end of the cloud-based application module. 11. The method of claim 8 , wherein a second cloud-based application module associates the second location with the system device in the memory.