Biometric, physiological or environmental monitoring using a closed chamber

What is claimed is: 1. An aural iris system in an earphone, comprising: a lumen, where the lumen is in an earphone, where the lumen connects an ambient side of the earphone to an ear canal side of the earphone allowing sound to pass unimpeded from the ambient side to the ear canal side; and a micro electro mechanical system (MEMS) actuator coupled on or in or to the lumen for at least partially attenuating sound traversing through the lumen by selectively actuating the MEMS actuator on and off increasing the sound attenuation through the lumen resulting in increased sound attenuation by the earphone. 2. The aural iris system of claim 1 , wherein the MEMS actuator is one of a piezoelectric micro-actuator or an electrostatic micro-actuator. 3. The aural iris system of claim 1 , wherein the MEMS actuator is one of a magnetostrictive actuator, piezoelectric actuator, electromagnetic actuator, electoactive polymer actuator, pneumatic actuator, hydraulic actuator, thermal biomorph actuator, state change actuator, shape memory alloy or SMA actuator, parallel plate actuator, piezoelectric biomorph actuator, electrostatic relay actuator, curved electrode actuator, repulsive force actuator, solid expansion actuator, comb drive actuator, magnetic relay actuator, piezoelectric expansion actuator, external field actuator, thermal relay actuator, topology optimized actuator, S-shaped actuator, distributed actuator, inchworm actuator, fluid expansion actuator, scratch drive actuator, micro-actuator, micro-actuator end effector, or impact actuator. 4. The aural iris system of claim 1 , wherein the lumen includes a first open end and a second open end and wherein the MEMS actuator is placed at the first open end or wherein the MEMS actuator is placed at the second open end or wherein the MEMS actuator is place at both the first open end and the second open end. 5. The aural iris system of claim 1 , wherein the MEMS actuator is self adjusting and used for habituation to compensate for occlusion effects. 6. The aural iris system of claim 1 , wherein the MEMS actuator uses a fast response time to lower overall background noise exposure. 7. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area with an edge and wherein the MEMS actuator blocks or displaces the opening or the opening area by using a vertical displacement piston. 8. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator utilizes an end effector that blocks or displaces the opening or the opening area by using a moveable platform with one of a spherical plunger, a flat plate or a cone to transition the opening or the opening area from a fully open position to a fully closed position or from the fully closed position to the fully open position. 9. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator blocks or displaces the opening or the opening area by using at least one of a throttle valve or a tilt mirror. 10. The aural iris system of claim 9 , wherein the throttle valve or the tilt mirror is in an array of throttle valves or tilt mirrors and in a closed position when one or more each of throttle valve members or tilt mirror members in the array of tilt mirrors remain in a horizontal position and in an open position when at least one of the throttle valve members or tilt mirror members rotate or swivel around a single axis pivot point. 11. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator blocks or displaces the opening or the opening area by using at least one tunable grating actuator or by using multiple tunable grating actuators in a grid array. 12. The aural iris system of claim 11 , wherein an aural iris or the aural iris system is in a closed position when all tunable grating actuators are horizontally aligned and wherein the aural iris is in an open position when one or more of the tunable grating actuators is vertically displaced. 13. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator blocks or displaces the opening or the opening area by using at least one horizontal displacement plate actuator or by using multiple horizontal displacement plate actuators in a grid array and wherein an aural iris of the aural iris system is in a closed position when all horizontal displacement plate actuators are horizontally aligned and the aural iris is in an open position when one or more of the horizontal displacement plate actuators are horizontally displaced. 14. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator blocks or displaces the opening or the opening area by using at least one zipping or curling actuator or by using multiple zipping or curling actuators in a grid array and wherein an aural iris of the aural iris system is in a closed position when all zipping or curling actuators lie flat and remain horizontally aligned and the aural iris is in an open position when one or more of the zipping or curling actuators curl away from a flat position. 15. The aural iris system of claim 1 , wherein the lumen includes an opening or an opening area and wherein the MEMS actuator blocks or displaces the opening or the opening area by using a rotary vane actuator wherein an aural iris of the aural iris system is in a closed position when the rotary vane actuator covers one or more openings at the opening or the opening area of the lumen and the aural iris is in an open position when the rotary vane actuator rotates and leaves one or more openings exposed for acoustic transmissions. 16. The aural iris of claim 1 , wherein the MEMS actuator controls a level or an opening size that controls an amount of acoustic sound that passes through the opening. 17. The aural iris system of claim 1 , wherein the aural iris system form a part of an earpiece, a headset, a headphone, an earphone, or a hearing aid. 18. The aural iris system of claim 1 , wherein the MEMS actuator selectively turns on and off in succession at a rate of at least 10 milliseconds.