Lighting commissioning

The invention claimed is: 1. A lighting commissioning system comprising: a plurality of luminaires, each luminaire co-located with a light source and a light sensor; a controller configured to selectively control the light sources to emit light and to receive signals from the light sensors representative of light sensed thereby; and a memory accessible to the controller; wherein the controller is configured to execute a first phase of commissioning to determine at least one reflectance value associated with a reflecting surface in a light path to each light sensor, and to store the reflectance values in the memory, and a second phase of commissioning in which the reflectance values are accessed by the controller for converting light sensed by each light sensor from an emitting light source into a measure of distance between the emitting light source and each light sensor; wherein the controller is configured in the first phase of commissioning to carry out the steps of: activating a light source of a first luminaire; measuring light reflected from a local area to a light sensor on the first luminaire; determining a reflection coefficient for the local area; and repeating the steps for at least one neighboring luminaire to thereby determine at least one additional coefficient for a local area under the neighboring luminaire; and executing an algorithm to calculate the at least one reflectance value associated with the reflecting surface which lies between the local area of the first luminaire and the local area of the at least one neighboring luminaire. 2. A system according to claim 1 , wherein the algorithm generates an average of the reflection coefficients. 3. A system according to claim 1 , wherein the light source of at least some of the plurality of luminaires is controllable into a first mode with a narrow beam and a second mode with a broader beam. 4. A system according to claim 1 , wherein the light sensor for each luminaire is selected from a directional light sensor and an omnidirectional light sensor. 5. A system according to claim 4 , wherein the sensor angle of the directional sensor is programmable. 6. A system according to claim 1 , wherein the memory holds a matrix of reflectance values, each reflectance value associated with an intermediate area between neighboring luminaires identified in the matrix. 7. A system according to claim 1 , wherein the controller is configured to operate in the second phase of commissioning to determine a fixture map of light sources and sensors using the determined distances. 8. A commissioning system according to claim 1 , comprising at least one fixture light sensor under the control of the controller, whereby a position of the at least one fixture sensor can be determined in the second phase of commissioning based on light sensed at the least one fixture sensor. 9. A commissioning system according to claim 8 , wherein the fixture sensor is stand alone or is co-located with a fixture comprising a light control such as a light switch or dimmer. 10. A commissioning system according to claim 1 , wherein the light source of at least some of the luminaries is controllable to emit light of different color, whereby reflectance values for different colored light can be determined. 11. A method of determining a distance from a first luminaire to a second luminaire comprising: causing a light source co-located with the second luminaire to emit light directed towards a reflecting surface; detecting a level of reflected light from the reflecting surface using a sensor co-located with the first luminaire; accessing a reflectance value determined for the reflecting surface; modifying the detected level of reflected light to take into account the accessed reflectance value; and using the modified measure to provide a measure of a distance between the first and second luminaires. 12. A method according to claim 11 , when used in commissioning a lighting system to determine a fixture map of luminaires based on the distance measurements. 13. A method according to claim 11 , which comprises the step of determining the reflectance values in a first phase of commissioning.