In some embodiments, the present disclosure may provide for a power outage management for a plurality of lighting sources, comprising, for example, a plurality of lighting facilities containing an LED lighting source, a power outage input device, an internal power source, a control facility for manipulating the light output of the LED lighting source, and the like, wherein the lighting facility may provide light in response to a power outage signal received by the power outage input device indicating a power outage condition; and a power outage detection device that monitors power at some point in power distribution to detect the power outage condition, where the power outage detection device may wirelessly transmit the power outage signal to the power outage input device of the at least one of the plurality of lighting facilities when the power outage condition is detected. In embodiments, the outage input device may contain a wireless receiver to receive the power outage signal. The response may be provided with an environmental input from a sensor input device in the lighting facility in addition to the signal received by the power outage input device. The lighting facility may take the form of at least one of a light bulb capable of mounting into a lighting fixture, a lighting fixture, a retrofit lighting fixture, a lighting adapter, a battery powered lighting fixture, and the like. The centralized controller may be running a software control program. The signal may be received from a web-based source. The web-based source may be on a local network, on the Internet, and the like. The internal power source may be a rechargeable energy storage device integrated with the lighting facility that is capable of supplying power to the lighting facility independent of the power distribution, and where the recharging may be provided internal to the lighting facility at a time when the power distribution is available. The rechargeable energy storage device internal to the lighting facility may be a battery, fuel cell, super capacitor, and the like. The internal power source may be a non-rechargeable power source such as an alkaline battery. The lighting facility may be disconnected and used as a portable lighting device. The sensor may sense infrared, temperature, light, motion, acoustic, smoke, electromagnetic, vibration or other suitable input. The manipulating may include, for example, switching on the light output, changing the illumination level of the light output, flashing the light output, changing the color content of the light output, and the like. The power outage module may contain an integral power source. The power outage module may contain a light source, where the power outage module may be disconnected from a power source and used as a portable lighting device. The response may be provided with an environmental input from a sensor input device in the centralized controller. The centralized controller may contain pushbuttons, switches, dials, and the like to control the lighting facilities remotely. The centralized controller may be a power outage module monitoring an emergency lighting circuit to detect an indication that emergency lighting must be activated. In this way, the power outage device may be connected to an emergency lighting circuit (e.g., not part of power distribution) but it may allow a wireless extension of the emergency lighting circuit. In some embodiments, the power outage module may be plugged into a wall outlet, screwed into an Edison socket or the like. In some embodiments, a detached lighting system may be provided that could be supplemental to an installed emergency lighting system by propagating the control through a connected power outage device to the lights and as such provide a full off the grid power outage lighting system.