Systems and methods for lighting control

We claim: 1. An occupancy sensing lighting unit, comprising: one or more light sources; one or more occupancy sensors; and a control module configured to: receive, from the one or more occupancy sensors, a signal indicative of detection, by the one or more occupancy sensors, of occupancy near the occupancy sensing lighting unit; determine one or more occupancy states of one or more remote lighting units within a given proximity of the occupancy sensing lighting unit; determine an occupancy history associated with the occupancy sensing lighting unit; calculate, based on the one or more occupancy states and the detected occupancy history, a likelihood that the detection of occupancy by the one or more occupancy sensors is legitimate; and set an occupancy state of the occupancy sensing lighting unit based on the calculated likelihood. 2. The occupancy sensing lighting unit of claim 1 , wherein the occupancy history comprises records of legitimate detections of occupancy by the one or more occupancy sensors. 3. The occupancy sensing lighting unit of claim 2 , wherein the occupancy history further comprises records of illegitimate detections of occupancy by the one or more occupancy sensors. 4. The occupancy sensing lighting unit of claim 1 , wherein the control module is configured to set the occupancy state of the occupancy sensing lighting unit to an occupied state in response to a determination that the calculated likelihood satisfies a threshold. 5. The occupancy sensing lighting unit of claim 4 , wherein the control module is further configured to energize the one or more light sources while the occupancy sensing lighting unit is in the occupied state. 6. The occupancy sensing lighting unit of claim 1 , wherein the control module is configured to disregard the one or more signals in response to a determination that the calculated likelihood fails to satisfy a threshold. 7. The occupancy sensing lighting unit of claim 1 , further comprising a communication interface operably coupled with the control module. 8. The occupancy sensing lighting unit of claim 7 , wherein the control module is further configured to receive data indicative of the one or more occupancy states of the one or more remote lighting units via the communication interface. 9. The occupancy sensing lighting unit of claim 7 , wherein the control module is further configured to receive data indicative of the occupancy history via the communication interface. 10. The occupancy sensing lighting unit of claim 1 , further comprising memory operably coupled with the control module, wherein the memory stores the occupancy history. 11. A lighting system, comprising: a plurality of lighting units; and one or more occupancy sensors, wherein at least one lighting unit of the plurality of lighting units is configured to: receive, from the one or more occupancy sensors, a signal indicative of detection, by the one or more occupancy sensors, of occupancy near the at least one lighting unit; determine one or more occupancy states of at least one other lighting unit of the plurality of lighting units within a given proximity of the at least one lighting unit; determine an occupancy history associated with the at least one lighting unit; calculate, based on the one or more occupancy states and the detected occupancy history, a likelihood that the detection of occupancy by the one or more occupancy sensors is legitimate; and set an occupancy state of the at least one lighting unit based on the calculated likelihood. 12. The lighting system of claim 11 , wherein the at least one lighting unit is configured to set the occupancy state of the at least one lighting unit to an occupied state in response to a determination that the calculated likelihood satisfies a threshold. 13. The occupancy sensing lighting unit of claim 1 , wherein the control module is configured to weight, in the calculation of said likelihood, at least one occupancy state of the one or more occupancy states based on a distance to at least one remote lighting unit of the one or more remote lighting units. 14. The occupancy sensing lighting unit of claim 13 , wherein the control module is configured to weight the at least one occupancy state in proportion to said distance. 15. The occupancy sensing lighting unit of claim 1 , wherein the control module is configured to actively set said occupancy state of the occupancy sensing lighting unit to an unoccupied state in response to receiving said signal indicative of detection. 16. A method for sensing occupancy comprising: receiving, from one or more occupancy sensors of a given lighting unit, a signal indicative of detection, by the one or more occupancy sensors, of occupancy near the given lighting unit; determining one or more occupancy states of one or more remote lighting units within a given proximity of the given lighting unit; determining an occupancy history associated with the given lighting unit; calculating, based on the one or more occupancy states and the detected occupancy history, a likelihood that the detection of occupancy by the one or more occupancy sensors is legitimate; setting an occupancy state of the given lighting unit based on the calculated likelihood; and altering light output of one or more light sources of the given lighting unit based on the occupancy state of the given lighting unit. 17. The method of claim 16 , wherein the calculating comprises weighting at least one occupancy state of the one or more occupancy states based on a distance from the given lighting unit to at least one remote lighting unit of the one or more remote lighting units. 18. The method of claim 17 , wherein the weighting comprises weighting the at least one occupancy state in proportion to said distance. 19. The method of claim 16 , wherein the setting comprises actively setting said occupancy state of the given lighting unit to an unoccupied state in response to receiving said signal indicative of detection.