Artificial gravity system with a unibody rotating structure that rotates about a stationary structure

What is claimed is: 1 . A habitation module comprising: a stationary structure that includes: a first circular side wall; a second circular side wall spaced apart from the first circular side wall and aligned axially; and at least one support beam that attaches the first circular side wall and the second circular side wall; and a rotating structure that attaches to the stationary structure through rotatable attachment members, and rotates about an axis in relation to the stationary structure, wherein the rotating structure includes: a cylindrical body that is substantially hollow and closed at both ends, wherein each end of the cylindrical body represents a gravity chamber of the habitation module; center openings in the cylindrical body that are coaxially aligned on opposing sides of the cylindrical body along an axis of rotation of the cylindrical body; and a first hub member and a second hub member that are permanently affixed to the cylindrical body on the opposing sides of the cylindrical body about the center openings; a first radial seal that spans a first gap between the first hub member and the first circular side wall to form an air-tight seal around a circumference of the first circular side wall; and a second radial seal that spans a second gap between the second hub member and the second circular side wall to form an air-tight seal around a circumference of the second circular side wall. 2 . The habitation module of claim 1 wherein: the rotatable attachment members comprise a pair of support bearings; a first one of the support bearings connects the first hub member to the first circular side wall; and a second one of the support bearings connects the second hub member to the second circular side wall. 3 . The habitation module of claim 1 wherein: the first hub member and the second hub member are saucer-shaped, and each includes: a rim; an annular base; and a continuous side wall that has a concave shape as it extends from the rim to the annular base; wherein the rim has a shape that corresponds with an outline of the center openings in the cylindrical body. 4 . The habitation module of claim 3 wherein: the rim of each of the first hub member and the second hub member is welded around the outline of a center opening in the cylindrical body. 5 . The habitation module of claim 3 further comprising: a drive mechanism configured to rotate the rotating structure about the axis in relation to the stationary structure to simulate a gravitational force within the gravity chambers; and a ring gear affixed to an outer cylindrical surface of the annular base of the first hub member, and having teeth that mesh with teeth on the drive mechanism. 6 . The habitation module of claim 1 wherein: the first circular side wall of the stationary structure includes a hatch; and the stationary structure further includes a docking mechanism that encircles the hatch for attaching the stationary structure to a module of a space station. 7 . The habitation module of claim 1 further comprising: a counter-rotating mechanism that rotates about the axis in an opposite direction than the rotating structure. 8 . The habitation module of claim 7 wherein: the first circular side wall of the stationary structure includes a hatch; and the counter-rotating mechanism includes: a cylindrical counter-weight that encircles the hatch; and a drive mechanism that rotates the cylindrical counter-weight about the axis in the opposite direction than the rotating structure. 9 . The habitation module of claim 8 wherein: the drive mechanism adjusts a rotational speed of the cylindrical counter-weight to compensate for a change in mass within the gravity chambers. 10 . A habitation module comprising: a stationary structure that includes: a first circular side wall; a second circular side wall spaced apart from the first circular side wall and aligned axially; and at least one support beam that attaches the first circular side wall and the second circular side wall; and a rotating structure that attaches to the stationary structure through rotatable attachment members, and rotates about an axis in relation to the stationary structure, wherein the rotating structure includes: a cylindrical body that is substantially hollow and open at both ends; opposing end walls that are circular in shape and aligned with open ends of the cylindrical body; a first expandable side wall that extends between the cylindrical body and a first one of the opposing end walls, wherein the first expandable side wall and the first one of the opposing end walls represents a first gravity chamber; a second expandable side wall that extends between the cylindrical body and a second one of the opposing end walls, wherein the second expandable side wall and the second one of the opposing end walls represents a second gravity chamber; center openings in the cylindrical body that are coaxially aligned on opposing sides of the cylindrical body along an axis of rotation of the cylindrical body; and a first hub member and a second hub member that are permanently affixed to the cylindrical body on the opposing sides of the cylindrical body about the center openings; a first radial seal that spans a first gap between the first hub member and the first circular side wall to form an air-tight seal around a circumference of the first circular side wall; and a second radial seal that spans a second gap between the second hub member and the second circular side wall to form an air-tight seal around a circumference of the second circular side wall. 11 . The habitation module of claim 10 wherein: the rotatable attachment members comprise a pair of support bearings; a first one of the support bearings connects the first hub member to the first circular side wall; and a second one of the support bearings connects the second hub member to the second circular side wall. 12 . The habitation module of claim 10 wherein: the first hub member and the second hub member are saucer-shaped, and each includes: a rim; an annular base; and a continuous side wall that has a concave shape as it extends from the rim to the annular base; wherein the rim has a shape that corresponds with an outline of the center openings in the cylindrical body. 13 . The habitation module of claim 12 wherein: the rim of each of the first hub member and the second hub member is welded around the outline of a center opening in the cylindrical body. 14 . The habitation module of claim 12 further comprising: a drive mechanism configured to rotate the rotating structure about the axis in relation to the stationary structure to simulate a gravitational force within the first and second gravity chambers; and a ring gear affixed to an outer cylindrical surface of the annular base of the first hub member, and having teeth that mesh with teeth on the drive mechanism. 15 . The habitation module of claim 10 wherein: the rotating structure further includes extension rods that guide the opposing end walls when they extend radially from the axis; first extension rods are affixed at a first end to the cylindrical body, and are affixed at a second end to the first one of the opposing end walls; second extension rods are affixed at a first end to the cylindrical body, and are affixed at a second end to the second one of the opposing end walls; the rotating structure further includes first guide rings and second guide rings that are affixed to the cylindrical body; the first extension rods pass through the first