Visual alerts in a lighting network

The invention claimed is: 1. A controller for controlling a battery-powered luminaire in a lighting network, the controller comprising: a network interface for communicating with the lighting network; and control logic for controlling at least one illumination source of the battery-powered luminaire; wherein the control logic is configured to: detect a failure of at least one mains-powered luminaire in the lighting network, determine that the mains-powered luminaire was emitting or had been instructed to emit a visual alert when the failure occurred, and control the at least one illumination source of the battery-powered luminaire to assume an alert role, if it is not yet emitting a visual alert, or, if it is emitting an initial version of a visual alert, to modify the initial version of the visual alert and emit such modified version of the visual alert in response, the failure being detected based on a loss of communication, within the lighting network, with the mains-powered luminaire, wherein the control logic is configured to disable a local user input device of the battery-powered luminaire whilst the version of the visual alert is being emitted by the battery-powered luminaire, thereby preventing local termination of that alert at the battery-powered luminaire. 2. A controller according to claim 1 , wherein the control logic is configured to modify at least one visual characteristic of the visual alert, the version of the visual alert emitted by the battery-powered luminaire exhibiting the modified visual characteristic. 3. A controller according to claim 2 , wherein the at least one modified visual characteristic comprises: an increased light intensity, an increased rate of dynamic variations, and/or a modified colour of light. 4. A controller according to claim 2 , wherein the failure of the mains-powered luminaire occurs when the at least one illumination source of the battery-powered luminaire is emitting an initial version of the visual alert, and in response to said determination the control logic modifies the initial version of the visual alert emitted by the battery-powered luminaire so as to cause it to exhibit the modified visual characteristic. 5. A controller according to claim 1 , wherein the control logic is configured to control the at least one illumination source of the battery-powered luminaire to emit the version of the visual alert based on sensor data received from a sensor via the network interface. 6. A controller according to claim 5 , wherein the sensor data is received initially from the sensor via a control node of the lighting network, wherein the control logic is configured, in response to detecting a failure of the control node, to attempt to connect to the sensor of the lighting network directly or via one or more nodes of the lighting network other than the control node, to continue receiving the sensor data. 7. A controller according to claim 1 , wherein the failure of the mains-powered luminaire is one of series failures detected in the lighting network by the control logic, wherein the control logic is configured to apply an analysis to the series of failures, and control the at least one illumination source of the battery-powered luminaire to emit the version of the visual alert in response to the analysis determining that the series of failures is unexpected. 8. A controller according to claim 7 , wherein the control logic is configured to apply successive modifications to the lighting effect in response to continuing unexpected failures in the lighting network. 9. A battery-powered luminaire for use in a lighting network, the battery-powered luminaire comprising: a battery configured to power the luminaire; at least one illumination source for emitting light to provide illumination; and a controller according to claim 1 . 10. A method of controlling a battery-powered luminaire in a lighting network, the method comprising steps of: detecting a failure of at least one mains-powered luminaire in the lighting network, the failure being detected based on a loss of communication, within the lighting network, with the mains-powered luminaire; determining that the mains-powered luminaire was emitting or had been instructed to emit a visual alert when the failure occurred; and controlling the at least one illumination source of the battery-powered luminaire to assume an alert role, if it is not yet emitting a visual alert, or, if it is emitting an initial version of a visual alert, to modify the initial version of the visual alert and emit such modified version of the visual alert in response, wherein a local user input device of the battery-powered luminaire is disabled whilst the version of the visual alert is being emitted by the battery-powered luminaire, thereby preventing local termination of that alert at the battery-powered luminaire. 11. A method according to claim 10 , comprising a step of modifying at least one visual characteristic of the visual alert, the version of the visual alert emitted by the battery-powered luminaire exhibiting the modified visual characteristic. 12. A method according to claim 11 , wherein the at least one modified visual characteristic comprises: an increased light intensity, an increased rate of dynamic variations, and/or a modified colour of light. 13. A method according to claim 11 , wherein the failure of the mains-powered luminaire occurs when the at least one illumination source of the battery-powered luminaire is emitting an initial version of the visual alert, and in response to said determination, the initial version of the visual alert emitted by the battery-powered luminaire is modified so as to cause it to exhibit the modified visual characteristic. 14. A computer program product comprising code stored on a non-transitory computer readable storage medium and configured when executed to implement the method of claim 10 .