Effect-driven specification of dynamic lighting

The invention claimed is: 1. A computer-implemented method for simulating the realization of lighting effects in an environment, the environment comprising devices and associated data for providing lighting effects, the method comprising the steps of: receiving environment data, wherein at least some of said data is obtained via at least one sensor; receiving user input indicative of a plurality of desired lighting effects; receiving data indicative of installable additional devices for providing lighting effects, wherein the data for at least one of said installable additional devices was not previously present in the environment; generating at least one implementation option to realize each desired lighting effect on the basis of the environment data and the data indicative of installable additional devices; selecting, for each desired lighting effect having more than one implementation option, one implementation option; and generating, based on the environment data and the selected implementation option, realization data; said realization data to include data associated with requirements for physically installing required installable additional devices, wherein said step of selecting one implementation option comprises: ranking the implementation options with respect to a predefined quality index; and selecting the optimal implementation option according to the ranking; and based on the realization data returned by the method, physically installing devices in the environment; and operating the devices in accordance with the realization data. 2. The computer-implemented method according to claim 1 , wherein the quality index is one of: energy consumption per unit time; purchase price; agreement between desired lighting effect and implementation option; expected useful life; and term of delivery. 3. The computer-implemented method according to claim 1 , wherein at least one desired lighting effect is variable in response to a detectable physical phenomenon and wherein each of the corresponding implementation options includes at least one detector adapted to detect said physical phenomenon. 4. A computer-implemented method for simulating the realization of lighting effects in an environment, the environment comprising devices and associated data for providing lighting effects, the method comprising the steps of: receiving environment data, wherein at least some of said data is obtained via at least one sensor; receiving user input indicative of a plurality of desired lighting effects; receiving data indicative of installable additional devices for providing lighting effects, wherein the data for at least one of said installable additional devices was not previously present in the environment; generating at least one implementation option to realize each desired lighting effect on the basis of the environment data and the data indicative of installable additional devices; selecting, for each desired lighting effect having more than one implementation option, one implementation option; and generating, based on the environment data and the selected implementation option, realization data; said realization data to include data associated with requirements for physically installing required installable additional devices, wherein the realization data are organized according to the following tasks: purchase of devices; wiring; mounting; and programming and operation; and based on the realization data returned by the method, physically installing devices in the environment; and operating the devices in accordance with the realization data. 5. A method of realizing a plurality of lighting effects in an environment, the environment comprising devices and associated data for providing lighting effects, the method comprising the steps of: providing data indicative of the environment in computer-readable format; providing data indicative of installable additional devices in computer-readable format, wherein the data for at least one of said installable additional devices was not previously present in the environment; receiving user input indicative of a plurality of desired lighting effects; generating at least one implementation option to realize each desired lighting effect on the basis of the environment data and the data indicative of installable additional devices; selecting, for each desired lighting effect having more than one implementation option, one implementation option; wherein said step of selecting one implementation option comprises: ranking the implementation options with respect to a predefined quality index; and selecting the optimal implementation option according to the ranking; generating, based on the environment data and the selected implementation option, realization data; based on the realization data returned by the method, physically installing devices in the environment; and operating the devices in accordance with the realization data.