Method of and device for commissioning a lighting system

The invention claimed is: 1. A method of commissioning a lighting system comprising a plurality of lighting fixtures positioned at a plurality of physical locations, each lighting fixture having at least one signal generating device for generating a Radio Frequency RF output signal comprising a unique identifier identifying said lighting fixture, the method performed by a processing device and comprising steps of: constructing a first dataset comprising distances to said physical locations from a detection location selected for receiving RF output signals produced by said plurality of lighting fixtures; constructing a second dataset comprising Received Signal Strength Indicator (RSSI) levels of RF output signals produced by said plurality of lighting fixtures, each lighting fixture respectively identified by said unique identifiers, and obtained by a detecting device at said detection location; obtaining a probability of a respective lighting fixture being located at a respective physical location by applying a probability-based algorithm to said first and second datasets, wherein applying said probability-based algorithm comprises the steps of: sorting said first dataset in one of ascending and descending order and sorting said second dataset in the other of ascending and descending order; splitting said sorted first dataset and said sorted second dataset into respective contiguous intervals; providing a split first dataset and a split second dataset; computing said probability by mapping said split first dataset and said split second dataset for respective ones of said intervals; and commissioning said lighting system by accumulating probabilities obtained from a plurality of detection locations, a number of said plurality of detection locations being smaller than a number of said plurality of physical locations; wherein said detection location is a location where a mobile detecting device locates or a location where one of said plurality of lighting fixtures locates. 2. The method according to claim 1 , wherein said first dataset is constructed from one of a floor plan designating said physical locations of said lighting fixtures and distance measurements. 3. The method according to claim 1 , wherein said second dataset is constructed by averaging RSSI levels received over a period of time. 4. A computer program product comprising program code means stored on a non-transitory computer readable medium, said program code means arranged for performing said method according to claim 1 , when said program code is executed by at least one computer. 5. A method of commissioning a lighting system comprising a plurality of lighting fixtures positioned at a plurality of physical locations, each lighting fixture having at least one signal generating device for generating a Radio Frequency (RF) output signal comprising a unique identifier identifying said lighting fixture, the method performed by a processing device and comprising steps of: constructing a first dataset comprising distances to said physical locations from a detection location selected for receiving RF output signals produced by said plurality of lighting fixtures; constructing a second dataset comprising Received Signal Strength Indicator (RSSI) levels of RF output signals produced by said plurality of lighting fixtures, each lighting fixture respectively identified by said unique identifiers, and obtained by a detecting device at said detection location; obtaining a probability of a respective lighting fixture being located at a respective physical location by applying a probability-based algorithm to said first and second datasets; and commissioning said lighting system by accumulating probabilities obtained from a plurality of detection locations, a number of said plurality of detection locations being smaller than a number of said plurality of physical locations; wherein said detection location is a location where a mobile detecting device locates or a location where one of said plurality of lighting fixtures locates; wherein applying said probability-based algorithm comprises the steps of: sorting said first dataset in one of ascending and descending order and sorting said second dataset in the other of ascending and descending order; and computing said probability by mapping said sorted first dataset and said sorted second dataset; and constructing a distance index list from said sorted first dataset and an RSSI level index list from said sorted second dataset, wherein each element of said distance index list corresponds to the respective physical location indicated by a distance between said respective physical location and said detection location, and each element of said RSSI level index list corresponds to a unique identifier of the respective lighting fixture, and wherein said step of computing said probability comprises mapping said distance index list and said RSSI level index list. 6. The method according to claim 5 , wherein said first dataset is constructed from one of a floor plan designating said physical locations of said lighting fixtures and distance measurements. 7. The method according to claim 5 , wherein said second dataset is constructed by averaging RSSI levels received over a period of time. 8. The method according to claim 5 , wherein said probability-based algorithm is applied to part of said first dataset having distances above a first threshold value and part of said second dataset having RSSI levels above a second threshold value. 9. A method of commissioning a lighting system comprising a plurality of lighting fixtures positioned at a plurality of physical locations, each lighting fixture having at least one signal generating device for generating a Radio Frequency (RF) output signal comprising a unique identifier identifying said lighting fixture, the method performed by a processing device and comprising steps of: constructing a first dataset comprising distances to said physical locations from a detection location selected for receiving RF output signals produced by said plurality of lighting fixtures; constructing a second dataset comprising Received Signal Strength Indicator (RSSI) levels of RF output signals produced by said plurality of lighting fixtures, each lighting fixture respectively identified by said unique identifiers, and obtained by a detecting device at said detection location; obtaining a probability of a respective lighting fixture being located at a respective physical location by applying a probability-based algorithm to said first and second datasets; and commissioning said lighting system by accumulating probabilities obtained from a plurality of detection locations, a number of said plurality of detection locations being smaller than a number of said plurality of physical locations; wherein said detection location is a location where a mobile detecting device locates or a location where one of said plurality of lighting fixtures locates; wherein applying said probability-based algorithm comprises the steps of: sorting said first dataset in one of ascending and descending order and sorting said second dataset in the other of ascending and descending order; and computing said probability by mapping said sorted first dataset and said sorted second dataset; wherein said step of computing said probability comprises the steps of: obtaining, for each respective physical location, a first subrange of said sorted first dataset; obtaining, for said first subrange, from said sorted second dataset a second subrange of RSSI levels; and computing said probability for lighting fixtures corresponding to said second subrange based on RSSI levels. 10. The method according to claim 9 , wh