Luminaire and duplex sound integration

What is claimed is: 1. A lighting device, comprising: a luminaire, including: a light source; a luminaire element comprising as at least one of: an integral housing component of the luminaire, a reflector optically coupled to an output of the light source, or a diffuser optically coupled to an output of the light source; and a sound transducer integrated on a surface of the luminaire element of the luminaire so as to respond to vibration of the luminaire element to detect incoming audio waves and to vibrate the luminaire element to generate outgoing audio waves in the vicinity of the luminaire; a lighting control device to control a operation of the light source and light output in an area to be illuminated by the luminaire; duplex circuitry coupled to electrical terminals of the sound transducer, wherein the duplex circuitry is configured to: generate a first electrical signal representing the incoming audio waves in the vicinity of the luminaire; and supply a second electrical signal to cause the sound transducer to generate the outgoing audio waves in the vicinity of the luminaire; and at least two amplifiers coupled to and accessible to the electrical terminals of the sound transducer, wherein a first of the amplifiers receives and amplifies the first electrical signal generated by the duplex circuitry, and a second of the amplifiers amplifies an output from an audio front end device used to generate the second electrical signal supplied to the sound transducer for generation of outgoing audio waves in the vicinity of the luminaire. 2. The lighting device of claim 1 , wherein: the first electrical signal is directly proportional to an amplitude of the incoming audio wave in the vicinity of the luminaire; and the outgoing audio waves generated in the vicinity of the luminaire are directly proportional to the second electrical signal. 3. The lighting device of claim 1 , wherein the audio front end device is coupled to an output of the duplex circuitry, and comprises an audio coder responsive to analog electrical signals from the duplex circuitry, and an audio decoder configured to provide an analog output signal from the audio front end device. 4. The lighting device of claim 3 , wherein the lighting control device comprises: a processor coupled to the audio front end device; and memory coupled to be accessible to the processor, wherein the memory stores programming for execution by the processor and data to be stored or processed by the processor during execution of instructions included in the programming, wherein execution of the programming in the memory configures the processor to: control the audio front end device to receive the analog electrical signals from the duplex circuitry and provide an output signal to the duplex circuitry; and supply a responsive result of the detected incoming audio waves as the outgoing audio waves output from the sound transducer. 5. The lighting device of claim 4 , wherein the digital output signal is proportional to the detected incoming audio waves in the vicinity of the luminaire and reduced by a waveform of noise associated with the incoming detected audio waves. 6. The lighting device of claim 4 , wherein the processor is further configured to: perform audio signal processing of the digital output signal to generate a responsive result, based upon the digital output signal; and supply the responsive result to the lighting control device in the vicinity of the luminaire. 7. The lighting device of claim 6 , wherein the responsive result is a lighting command to control operation of the light source, and includes audible output generated from outgoing audio waves from the sound transducer. 8. The lighting device of claim 3 , wherein the audio front end device further comprises: a digital signal processor coupled to the audio coder to: receive digital signals from the audio coder; and analyze a waveform of noise associated with the incoming audio waves represented by the digital input signals to generate at least one of a phase shifted waveform or an inverted polarity waveform relative to the waveform of the noise. 9. The lighting device of claim 8 , further comprising an audio module coupled to the output of the audio front end device to receive the digital signal output. 10. The lighting device of claim 9 , wherein the audio module comprises: a microprocessor configured to process the digital signal output received from the audio front end device to provide audio data representing the incoming detected audio waves reduced by a waveform of noise associated with the incoming detected audio waves; and memory coupled to the microprocessor, wherein the memory stores the audio data. 11. The lighting device of claim 10 , wherein the audio data is accessible to the processor of the lighting control device to control additional operations in the lighting device. 12. The lighting device of claim 1 , wherein the sound transducer, luminaire element, and duplex circuitry form a combination audio pick-up and audio output device. 13. The lighting device of claim 1 , further comprising: a data network; a network interface to enable the luminaire to receive communication via the data network; and driver circuitry coupled to the light source to provide power to the light source. 14. The lighting device of claim 1 , wherein the duplex circuitry is full duplex to provide two-way communications from the sound transducer. 15. The lighting device of claim 14 , wherein the full duplex circuitry includes a hybrid circuit configured to convert the electrical terminals of the sound transducer to a four-wire configuration. 16. The lighting device of claim 15 , wherein the hybrid circuit includes a four port multi-winding transformer. 17. The lighting device of claim 1 , wherein the luminaire element further comprises a waveguide coupled to an output of the sound transducer. 18. A lighting device, comprising: a luminaire, including: a light source; a luminaire element comprising as at least one of: an integral housing component of the luminaire, a reflector optically coupled to an output of the light source, or a diffuser optically coupled to an output of the light source; and a sound transducer integrated on a surface of the luminaire element of the luminaire so as to respond to vibration of the luminaire element to detect incoming audio waves and to vibrate the luminaire element to generate outgoing audio waves in the vicinity of the luminaire; a lighting control device to control a operation of the light source and light output in an area to be illuminated by the luminaire; duplex circuitry coupled to electrical terminals of the sound transducer, wherein the duplex circuitry is configured to: generate a first electrical signal representing the incoming audio waves in the vicinity of the luminaire; and supply a second electrical signal to cause the sound transducer to generate the outgoing audio waves in the vicinity of the luminaire, wherein the duplex circuitry includes a relay switch to provide half-duplex to control two-way functionality of the sound transducer. 19. The lighting device of claim 18 , wherein: a first position of the relay switch enables an audio pick-up function of the sound transducer, and a second position of the relay switch, different from the first position of the relay switch, enables an audio output functionality of the sound transducer. 20. A lighting device, comprising: a luminaire, including: a light source; aco