Methods and systems for an automated design, fulfillment, deployment and operation platform for lighting installations

We claim: 1. A method, comprising: providing a physiological biomarker sensor and a light both being in the presence of a user in an environment spanning an initial time period in an initial time zone; generating a set of light control setting data for controlling the light spanning the initial time period while causing the physiological biomarker sensor to generate a set of user biomarker data being indicative of biological states of the user spanning the initial time period in the presence of the light in the environment; utilizing machine learning to generate a set of user correlation data spanning the initial time period, correlating the set of the light control settings data spanning the initial time period with the set of the user biomarker data being indicative of the biological states of the user spanning the initial time period in the presence of the light in the environment; and utilizing the set of the user biomarker data to adjust the set of the user correlation data to a different future time zone of the user, generating another set of light control setting data for controlling the light in the presence of the user spanning a subsequent time period prior to the user being in the different future time zone. 2. A non-transitory computer readable medium having stored thereon processor-executable software instructions that, when executed by a processor, cause the processor to generate a set of light control setting data for controlling a light and being in signal communication with a physiological biomarker sensor, the light and the physiological biomarker sensor both being in the presence of a user in an environment spanning an initial time period in an initial time zone, by executing the steps, comprising: generating the set of light control setting data for controlling the light spanning the initial time period while causing the physiological biomarker sensor to generate a set of user biomarker data being indicative of biological states of the user spanning the initial time period in the presence of the light in the environment; utilizing machine learning to a set of determine user correlation data spanning the initial time period, correlating the set of the light control setting data spanning the initial time period with the set of the user biomarker data being indicative of the biological states of the user spanning the initial time period in the presence of the light in the environment; and utilizing the set of the user biomarker data to adjust the set of the user correlation data to a different future time zone of the user, generating another set of light control setting data for controlling the light in the presence of the user spanning a subsequent time period prior to the user being in the different future time zone. 3. The method of claim 1 , wherein the generating the another set of the light control setting data for controlling the light includes assisting the user's natural adjustment of his body clock to the different future time zone. 4. The method of claim 1 , wherein the generating the another set of the light control setting data for controlling the light includes receiving an activity schedule of the user for a plurality of sequential days. 5. The method of claim 1 , wherein the generating the another set of the light control setting data for controlling the light includes adjusting the light control setting data over a transition period to emulate the different time zone. 6. The method of claim 1 , wherein the generating the another set of the light control setting data for controlling the light includes utilizing the machine learning to adapt the light control settings data for achieving a lighting effect in the presence of the user that mimics a sky color for a given time of day. 7. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the another set of the light control setting data for controlling the light to assist the user's natural adjustment of his body clock to the different estimated time zone. 8. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the another set of the light control setting data for controlling the light as receiving an activity schedule of the user for a plurality of sequential days. 9. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the another set of the light control setting data for controlling the light as adjusting the light control settings data over a transition period to emulate the different time zone. 10. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the another set of the light control setting data for controlling the light as utilizing the machine learning to adapt the light control settings data for achieving a lighting effect in the presence of the user that mimics a sky color for a given time of day. 11. The method of claim 1 , wherein the generating the another set of the light control setting data for controlling the light includes generating the another set of the light control settings data as including dimming level, beam angle, intensity, color, color temperature, rotation, placement, orientation, or tilt. 12. The method of claim 1 , wherein the utilizing the machine learning to determine the set of the user correlation data includes generating the set of the user correlation data as correlating, together with the biological states of the user, feedback from the user relating to their mood, noise level, return on investment, pain level, measured health level, fitness, wellness, educational performance level, sleep level, vitamin D level, or melatonin level. 13. The method of claim 1 , wherein the utilizing the machine learning to generate the set of the user correlation data includes generating the set of the user correlation data as correlating, together with the biological states of the user, light control settings data generated by the user. 14. The method of claim 1 , wherein the utilizing the machine learning to generate the set of the user correlation data includes utilizing the machine learning to adapt the set of the light control settings data one for achieving a lighting effect including coordinated control of uplights and downlights that mimics a sky color for a given time of day. 15. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the another set of the light control settings data as including dimming level, beam angle, intensity, color, color temperature, rotation, placement, orientation, or tilt. 16. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the set of the user correlation data as correlating, together with the biological states of the user, feedback from the user relating to their mood, noise level, return on investment, pain level, measured health level, fitness, wellness, educational performance level, sleep level, vitamin D level, or melatonin level. 17. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to generate the set of the user correlation data as correlating, together with the biological states of the user, light control setting data generated by the user. 18. The non-transitory computer readable medium of claim 2 , wherein the stored instructions cause the processor to genera