Animal exercise wheel

We claim: 1. An animal exercise wheel comprising: a wheel axis; a flat, circular face, disposed centered and normal to the wheel axis, comprising a central axle bearing; a continuous, curved, solid, perimeter wall affixed proximal to a perimeter of the face, perpendicular to the face; wherein the face and perimeter wall define an open cylindrical wheel volume, closed at the face and the perimeter wall and open opposedly from the face; wherein the diameter of the perimeter wall defines a wheel diameter; wherein a width of the perimeter wall from a first wall edge to the opposing wall edge defines a wheel width; wherein the perimeter wall comprises an inner surface and an outer surface; wherein the wheel is adapted to rotate around the wheel axis; wherein the face is free of openings injurious to an animal; wherein an inside surface of the perimeter wall comprises a set of ridges, each ridge parallel to the wheel axis and extending from the first wall edge to the opposing wall edge; wherein the set of ridges extends fully around the inside surface of the perimeter wall; wherein each ridge has a ridge height and the set of ridges comprises a ridge spacing between ridges; wherein the wheel axis is tilted at a wheel angle from horizontal greater than zero; wherein the wheel axis is lower at the face and higher at the open end of the cylindrical wheel volume; wherein the wheel is free of any support except at the axle bearing; and the perimeter wall is transparent or a first color, except for at least one contrast region comprising a second, contrasting color. 2. The animal exercise wheel of claim 1 wherein: the at least one contrast region extends the width of the wheel and extends in the range of two percent to thirty percent of a circumference of the perimeter wall. 3. An animal exercise wheel comprising: a wheel axis; a flat, circular face, disposed centered and normal to the wheel axis, comprising a central axle bearing; a continuous, curved, solid, perimeter wall affixed proximal to a perimeter of the face, perpendicular to the face; wherein the face and perimeter wall define an open cylindrical wheel volume, closed at the face and the perimeter wall and open opposedly from the face; wherein the diameter of the perimeter wall defines a wheel diameter; wherein a width of the perimeter wall from a first wall edge to the opposing wall edge defines a wheel width; wherein the perimeter wall comprises an inner surface and an outer surface; wherein the wheel is adapted to rotate around the wheel axis; wherein the face is free of openings injurious to an animal; wherein an inside surface of the perimeter wall comprises a set of ridges, each ridge parallel to the wheel axis and extending from the first wall edge to the opposing wall edge; wherein the set of ridges extends fully around the inside surface of the perimeter wall; wherein each ridge has a ridge height and the set of ridges comprises a ridge spacing between ridges; wherein the wheel axis is tilted at a wheel angle from horizontal greater than zero; wherein the wheel axis is lower at the face and higher at the open end of the cylindrical wheel volume; wherein the wheel is free of any support except at the axle bearing; and wherein the wheel axis tilt angle is in the range of two to fifteen degrees from horizontal, inclusive. 4. The animal exercise wheel of claim 3 wherein: the axle bearing comprises a bushing, perpendicular to the face, wherein the bushing is a monolithic portion of a monolithic wheel. 5. A method of measuring animal health comprising: placing an exercise wheel of claim 3 into an animal cage; placing one or more animals in the animal cage; observing, recording and communicating a number and time of rotations of the wheel; comparing the number and times of wheel rotations to a reference model; wherein the animal health comprises a scalar health value and a scalar confidence value responsive to the comparing. 6. The method of claim 5 wherein: the cage is free of electronic penetrations. 7. The method of claim 5 wherein: the cage comprises a plurality of animals; wherein the cage comprises an electronic device to automatically determine a unique animal ID of each animal using the wheel; wherein the cage is free of electronic penetrations; and the additional step: determining a unique animal ID of an animal using the wheel. 8. The method of claim 5 comprises the additional step: measuring and recording responsive to a vision system and wheel rotation wheel usage, comprising any combination of {wheel rotations; wheel speed, wheel usage times; and identification of an animal using the wheel}; wherein the vision system is external the cage and comprises both infrared illumination of the cage interior and visible light illumination of the cage interior. 9. The method of claim 5 wherein: the animal cage comprises a single sensor, outside the cage; wherein the animal cage is free of electronic penetrations; wherein the observing uses the single sensor; and comprising the additional step: identifying uniquely an animal in cage using the single sensor; associating data from the observing, recording, and communicating with the animal uniquely identified in the identifying step. 10. The method of claim 9 wherein: the single sensor is a video camera. 11. A method of recording animal health comprising the steps: placing the wheel of claim 1 in a cage adapted to multihoused animals; placing one or more animals in the cage; placing a vision system outside the cage; placing an animal identification system outside the cage adapted to uniquely identify each of the multihoused animals; measuring and recording for each multihoused animal, responsive to the vision system, wheel rotation, and unique animal identification any wheel usage combination of the set of: {wheel rotations; wheel speed, wheel usage times}, for any combination of any number of elements from the set; associating the measured and recorded wheel data with individual, uniquely identified animals in the cage; comparing the recorded wheel usage combination of the each uniquely identified animal to a wheel usage model; computing both a numerical distance scalar and confidence scalar responsive to the comparing, of each multihoused animal; wherein the animal health of each multihoused animal is a metric responsive to the numerical distance scalar and confidence scalar of the each animal. 12. The method of claim 11 further comprising: generating a time-based graph of the animal health wherein the frequency of points on the graph is at least daily. 13. The method of claim 11 further comprising: generating a time-based graph of the animal health wherein the frequency of points on the graph is at least four times daily.