Lighting device including solid state emitters with adjustable control

What is claimed is: 1. A solid state lighting device comprising: a plurality of groups of solid state light emitters, wherein each group of solid state light emitters of the plurality of groups of solid state light emitters is arranged to generate emissions comprising a dominant wavelength that differs from a dominant wavelength of emissions generated by each other group of solid state light emitters, each group of solid state light emitters is independently controllable, and emissions generated by each group of solid state light emitters are arranged to be combined to produce aggregate emissions of the solid state lighting device; at least one sensor arranged to receive or provide at least one signal indicative of an environmental condition; a memory storing at least one operating instruction set; at least one detector arranged to detect one or more of (i) multiple different user-generated sound patterns indicative of user commands, or (ii) multiple different user-generated gesture patterns indicative of user commands, and to produce at least one detector output signal responsive to such detection; and at least one processor arranged to utilize the at least one operating instruction set to automatically adjust at different hours of a calendar day (a) luminous flux of the aggregate emissions and (b) at least one of correlated color temperature or color point of the aggregate emissions, responsive to at least one of (i) time or (ii) the at least one signal indicative of an environmental condition; wherein the at least one processor is further arranged to suspend or alter automatic adjustment of (a) luminous flux of the aggregate emissions or (b) at least one of correlated color temperature or color point of the aggregate emissions, responsive to the at least one detector output signal; and wherein the plurality of groups of solid state light emitters comprises: a first group comprising at least one solid state light emitter arranged to generate emissions including a peak wavelength in a range of from 591 nm to 650 nm; a second group comprising at least one solid state light emitter arranged to generate emissions including a peak wavelength in a range of from 506 nm to 560 nm; a third group comprising at least one solid state light emitter arranged to generate emissions including a peak wavelength in a range of from 390 nm to 460 nm; a fourth group comprising at least one solid state light emitter arranged to generate emissions including a peak wavelength in a range of from 461 nm to 505 nm; and a fifth group comprising at least one solid state light emitter arranged to generate emissions including a peak wavelength in a range of from 430 nm to 480 nm and further arranged to stimulate emissions of a yellow- or green-emitting lumiphoric material arranged to generate emissions including a peak wavelength in a range of from 530 nm to 590 nm. 2. The solid state lighting device of claim 1 , wherein the at least one processor is arranged to adjust, responsive to the at least one detector output signal and for a selected color point or correlated color temperature of the aggregate emissions, at least one of (c) melatonin suppressing milliwatts per hundred lumens of the aggregate emissions or (d) relative gamut of the aggregate emissions. 3. The solid state lighting device of claim 1 , wherein the at least one processor is arranged to utilize the at least one operating instruction set to automatically adjust at different hours of a calendar day at least one of (c) melatonin suppressing milliwatts per hundred lumens of the aggregate emissions or (d) relative gamut of the aggregate emissions, for a selected color point or correlated color temperature of the aggregate emissions. 4. The solid state lighting device of claim 1 , wherein the at least one sensor arranged to receive or provide at least one signal indicative of an environmental condition comprises one or more of: an ambient light sensor, an image sensor, a temperature sensor, a barometric pressure sensor, a humidity sensor, a weather information receiver, a gas detector, or a particulate detector. 5. The solid state lighting device of claim 1 , wherein the at least one detector comprises a first wireless transceiver arranged to receive at least one first signal from a digital communication device or a digital computing device to modify the at least one operating instruction set. 6. The solid state lighting device of claim 5 , further comprising a second wireless transceiver arranged to transmit at least one second signal to at least one other solid state lighting device, wherein the at least one second signal is indicative of or includes the at least one operating instruction set that was modified responsive to the at least one first signal. 7. The solid state lighting device of claim 1 , wherein the plurality of groups of solid state light emitters, the at least one sensor, the memory, the at least one detector, and the at least one processor are arranged in or on a single body structure. 8. The solid state lighting device of claim 1 , wherein the at least one environmental condition comprises at least one of humidity, air pressure, ambient sound, gas concentration, presence or absence of gas, particulate concentration, presence or absence of particulates, temperature, cloud cover, outdoor ambient temperature, outdoor ambient light level, outdoor correlated color temperature, presence of precipitation, type of precipitation, UV index, solar radiation index, moon phase, moonlight light level, presence of aurora, or chill factor. 9. The solid state lighting device of claim 1 , wherein the at least one detector is arranged to detect multiple different user-generated sound patterns indicative of user commands. 10. A solid state lighting device comprising: a plurality of groups of solid state light emitters, wherein each group of solid state light emitters of the plurality of groups of solid state light emitters is arranged to generate emissions comprising a dominant wavelength that differs from a dominant wavelength of emissions generated by each other group of solid state light emitters, each group of solid state light emitters is independently controllable, emissions generated by each group of solid state light emitters are arranged to be combined to produce aggregate emissions of the solid state lighting device, and the plurality of groups of solid state light emitters includes at least five groups of solid state light emitters; at least one sensor arranged to receive or provide at least one signal indicative of an environmental condition; a memory storing at least one operating instruction set; and at least one processor arranged to utilize the at least one operating instruction set to automatically adjust at different hours of a calendar day (a) luminous flux of the aggregate emissions and (b) at least one of correlated color temperature or color point of the aggregate emissions, responsive to at least one of (i) time or (ii) the at least one signal indicative of an environmental condition; wherein the aggregate emissions generated by the solid state lighting device: comprise a color rendering index (CRI) value of at least 90 and a relative gamut (Qg) value of at least 100 over a correlated color temperature range spanning at least from 2700K to 9000K in combination with at least one of the following features (A) or (B): (A) a luminous flux value of at least 600 over a correlated color temperature range spanning at least from 2700K to 9000K; or (B) a luminous efficacy of radiation value of at least 300 over a correlated color temperature range spanning at least from 2700K to 5700K. 11. The solid state lighting device of claim 10 , wherein t