Self-closing filter

What is claimed is: 1. A self-closing filter, comprising: a housing to be molded into a sidewall of a self-inflating pneumatic tire, the housing having a cavity to be in fluid communication with an atmospheric air inlet of a pneumatic control valve for the self-inflating tire; a filtration media to block contaminants from entering the cavity while allowing atmospheric air to be drawn through the filtration media into the cavity by a pump of the self-inflating tire; and a valve attached to the housing, the valve selectively actuatable to an open state and to a closed state by resilient flexure of the sidewall of the tire, wherein the valve includes: a shutter plate disposed in contact with the filtration media, the shutter plate defining an aperture to expose the filtration media to an atmosphere impinging upon the tire when the valve is in the open state; and a cover connected to the housing, the cover reversibly deflectable to slide over the shutter plate, the cover including a shutter vane movable with the cover to cover the aperture in the closed state to prevent exposure of the filtration media to the contaminants when the valve is in the closed state, and the shutter vane movable with the cover to not cover the aperture in the open state. 2. The self-closing filter as defined in claim 1 , wherein: the open state corresponds to a first range of rotational positions of the tire about an axle; the closed state corresponds to a second range of rotational positions of the tire about the axle; and the second range and the first range are mutually exclusive. 3. The self-closing filter as defined in claim 2 wherein the second range of rotational positions of the tire about the axle has the valve in a location wherein a probability of contaminants impinging upon the valve is maximized. 4. The self-closing filter as defined in claim 2 wherein the first range of rotational positions of the tire about the axle has the valve in a location wherein a probability of contaminants impinging upon the valve is minimized. 5. The self-closing filter as defined in claim 2 wherein the first range of rotational positions of the tire about the axle has the valve between about 40 degrees and about 320 degrees wherein 0 degrees is at a center of a contact patch between the tire and a road surface. 6. The self-closing filter as defined in claim 1 wherein the shutter vane is actuatable to cover the filtration media in the closed state and to not cover the filtration media in the open state. 7. The self-closing filter as defined in claim 1 wherein the filtration media comprises: a membrane layer; a woven fiber layer; a non-woven fiber layer; a reticulated foam layer; an activated carbon layer; a porous solid layer; or combinations thereof. 8. The self-closing filter as defined in claim 1 wherein a fin or a spoiler disposed on the self-closing filter directs air moving relative to an exterior of the tire to eject debris from an exterior of the self-closing filter. 9. The self-closing filter as defined in claim 1 wherein a sill disposed on the self-closing filter directs water moving relative to the exterior of the tire to flow away from the filtration media. 10. The self-closing filter as defined in claim 1 wherein the self-closing filter is to receive a flow of air from the pneumatic control valve to pass from the cavity through the filtration media to clean the filtration media. 11. The self-closing filter as defined in claim 1 wherein the filtration media is replaceable without permanently disabling a portion of the self-closing filter other than the filtration media to be replaced. 12. The self-closing filter as defined in claim 1 having a latching feature to attach the self-closing filter to the tire wherein the latching feature may be unlatched using a complementarily-shaped key tool to make the self-closing filter tamper resistant. 13. The self-closing filter as defined in claim 1 wherein: the vane is trapezoidal in cross-section; the trapezoid is wider at a surface that contacts the shutter plate; and opposed sides of the vane taper together in a direction away from the shutter plate to disperse contaminants away from the aperture as the tire rotates by positioning a wedge shaped leading edge to dig under a layer of contaminates as the vane moves over the shutter plate.