Methods for operating mechatronic transforming luminaire swarms

We claim: 1 . A method for operating a robotic agent swarm system, the method comprising: sending, via a communication network, a reconfiguration instruction from an orchestration controller to a plurality of robotic luminaire agents, each of the plurality of robotic luminaire agents of the swarm system being held at least periodically against an architectural surface comprising a holonomic operational area by a suspension and having a light source configured to illuminate a region in a proximity of the architectural surface; and changing one or more operating conditions of one or more of the plurality of robotic luminaire agents in response to the reconfiguration instruction, including holonomically moving at least one of the plurality of robotic luminaire agents from a first position on the holonomic operational area to a second position on the holonomic operational area. 2 . The method for operating a robotic agent swarm system according to claim 1 , wherein: in each robotic luminaire agent, the suspension comprises one or more first magnetic elements, and the architectural surface comprises one or more second magnetic elements. 3 . The method for operating a robotic agent swarm system according to claim 1 , wherein sending, via the communication network, the reconfiguration instruction from an orchestration controller to the plurality of robotic luminaire agents comprises sending the reconfiguration instruction simultaneously to all of the plurality of robotic luminaire agents. 4 . The method for operating a robotic agent swarm system according to claim 1 , wherein sending, via the communication network, the reconfiguration instruction from an orchestration controller to the plurality of robotic luminaire agents comprises sending the reconfiguration instruction to an initial set of one or more robotic luminaire agents, and sending the reconfiguration instructions from the initial set of one or more robotic luminaire agents to a subsequent set of one or more robotic luminaire agents. 5 . The method for operating a robotic agent swarm system according to claim 1 , wherein the orchestration controller is separate from the plurality of robotic luminaire agents. 6 . The method for operating a robotic agent swarm system according to claim 1 , wherein the orchestration controller comprises at least one of the plurality of robotic luminaire agents. 7 . The method for operating a robotic agent swarm system according to claim 1 , further comprising identifying a reconfiguration trigger and generating a reconfiguration instruction based on the reconfiguration trigger. 8 . The method for operating a robotic agent swarm system according to claim 7 , wherein the reconfiguration trigger comprises identifying a specific time of day and the reconfiguration instruction comprises an instruction to change operating conditions of one or more of the plurality of robotic luminaire agents. 9 . The method for operating a robotic agent swarm system according to claim 7 , wherein the reconfiguration trigger comprises detecting a change in an environmental condition in the region in the proximity of the architectural surface, and wherein the reconfiguration instruction comprises an instruction to change operating conditions of one or more of the plurality of robotic luminaire agents in response to the change in the environmental condition. 10 . The method for operating a robotic agent swarm system according to claim 9 , wherein: detecting a change in an environmental condition in the region in the proximity of the architectural surface comprises detecting a respective light intensity at a plurality of measurement locations; the reconfiguration instruction comprise instructions to equalize the respective light intensities at the plurality of measurement locations; and changing one or more operating conditions of one or more of the plurality of robotic luminaire agents in response to the reconfiguration instruction comprises one or more of: changing a respective light intensity output of the respective controllable light source of the one or more of the plurality of robotic luminaire agents, and changing a physical position of the one or more of the plurality of robotic luminaire agents. 11 . The method for operating a robotic agent swarm system according to claim 7 , wherein the reconfiguration trigger comprises a reconfiguration request from a human user interface. 12 . The method for operating a robotic agent swarm system according to claim 11 , wherein the reconfiguration request comprises a request to place a light at a user-defined location. 13 . The method for operating a robotic agent swarm system according to claim 12 , wherein the reconfiguration instruction comprises an instruction to move one or more robotic luminaire agents to the user-defined location. 14 . The method for operating a robotic agent swarm system according to claim 11 , wherein the reconfiguration request comprises a request to reconfigure the one or more robotic luminaire agents to a predetermined arrangement. 15 . The method for operating a robotic agent swarm system according to claim 1 , further comprising generating the reconfiguration instruction. 16 . The method for operating a robotic agent swarm system according to claim 15 , wherein: generating the reconfiguration instruction comprises: identifying a respective current positions of each of the plurality of robotic luminaire agents, and identifying a respective destination position for one of more of the plurality of robotic luminaire agents; and the reconfiguration instruction comprises an instruction to the one or more of the plurality of robotic luminaire agents to move to the respective destination position. 17 . The method for operating a robotic agent swarm system according to claim 16 , further comprising: identifying an observed change in the one or more operating conditions of the one or more of the plurality of robotic luminaire agents; comparing the observed change in the one or more operating conditions of the one or more of the plurality of robotic luminaire agents to an expected change in the one or more operating conditions of the one or more of the plurality of robotic luminaire agents; generating a new reconfiguration instruction for at least one of the plurality of robotic luminaire agents. 18 . The method for operating a robotic agent swarm system according to claim 15 , wherein: generating the reconfiguration instruction comprises: identifying a respective current positions of each of the plurality of robotic luminaire agents, identifying a respective destination position for one of more of the plurality of robotic luminaire agents, and calculating a respective travel path from the respective current position to the respective destination position for each of the one or more of the plurality of robotic luminaire agents; and the reconfiguration instruction comprises an instruction to the one or more of the plurality of robotic luminaire agents to proceed on the respective travel path. 19 . The method for operating a robotic agent swarm system according to claim 16 , further comprising: identifying an observed change in the one or more operating conditions of the one or more of the plurality of robotic luminaire agents; comparing the observed change in the one or more operating conditions of the one or more of the plurality of robotic luminaire agents to an expected change in the one or more operating conditions of the one or more of the plurality of robo