Wireless lighting control systems and methods

What is claimed is: 1. A method for a gateway to monitor a lighting control and monitoring device status in a wireless lighting control system, comprising: monitoring communication between the lighting control and monitoring device and gateway; monitoring power supplied to the lighting control and monitoring device; detecting power loss to the lighting control and monitoring device; powering the lighting control and monitoring device after power loss with a capacitive circuit; sending a power loss message from the lighting control and monitoring device to the gateway upon detection of the power loss; detecting loss of communication between the lighting control and monitoring device and gateway; and determining the loss of communication was not from power loss when no power loss message was received by the gateway. 2. The method of claim 1 , wherein the lighting control and monitoring device is a controller coupled to and selectively powering a light fixture. 3. The method of claim 1 , comprising selecting an action for the lighting control and monitoring device upon the lighting control and monitoring device determining a loss of communication with the gateway, and wherein the step of detecting loss of communication is periodically completed by at least the lighting control and monitoring device. 4. The method of claim 1 , wherein the communication between the lighting control and monitoring device and gateway includes a wireless mesh network. 5. A wireless lighting control system, comprising: a server connected to a wide area network and having control software for configuring, monitoring, and controlling lighting devices at a site; a wireless gateway located at the site and including a cellular modem to communicate with the server via a cellular network and a communications module to communicate with the lighting devices via a wireless mesh network; and, a plurality of wireless devices having a radio module capable of communicating with the wireless gateway via the wireless mesh network, and at least one of the plurality of wireless devices including an output module to control a light fixture and including a preset emergency action for the light fixture in the event of a loss of communications with the gateway; wherein one of the plurality of wireless devices periodically determines whether communication with the gateway has been lost and upon detecting loss of communication, the one of the plurality of wireless devices selecting the preset emergency action; and wherein the wireless gateway detects communication with one of the plurality of wireless devices has been lost and determines whether loss of communication was due to the one of the plurality of wireless devices losing power. 6. The wireless lighting control system of claim 5 , wherein the server is a cloud-based server. 7. The wireless lighting control system of claim 5 , wherein at least one of the plurality of control devices has an input module receiving data from a sensor used for lighting control. 8. The wireless lighting control system of claim 5 , further comprising: a user device connected to the wide area network and having an application enabling a user to access the server control software; and wherein control instructions entered on the server through the application are communicated from the server to the wireless gateway via the cellular network and then from the wireless gateway to at least one of the plurality of lighting devices. 9. The wireless lighting control system of claim 5 , further comprising a user device having a radio module to communicate via the mesh network with the gateway and with at least one of the plurality of control devices, the user device having an application enabling a user to control at least one of the plurality of control devices without communicating through the gateway. 10. The wireless lighting control system of claim 5 , wherein the preset emergency action is a user-defined lighting output level.