Rotary steerable drilling system and method

What is claimed is: 1. A drilling system, comprising: an outer sleeve; and a first rotary steerable module, comprising: a first shaft extending within the outer sleeve, the outer sleeve having a center axis and a first section and a second section connected thereto; a first bearing disposed within the outer sleeve and through which the first shaft extends; a second bearing disposed within the outer sleeve and through which the first shaft extends, wherein the second bearing is spaced from the first bearing along the first shaft; a first cam disposed within the outer sleeve so that the first cam is positioned along the first shaft between the first and second bearings, the first cam comprising: a first eccentric ring through which the first shaft extends; and a second eccentric ring extending about the first eccentric ring; wherein the extension of the first shaft through the first eccentric ring defines a first bend in the first shaft within the outer sleeve, the first bend having a first bend angle; a second cam disposed within the outer sleeve so that the second cam is positioned along the first shaft between the first cam and the second bearing, the second cam comprising: a third eccentric ring through which the first shaft extends; and a fourth eccentric ring extending about the third eccentric ring; wherein the extension of the first shaft through the third eccentric ring defines a second bend in the first shaft within the outer sleeve, the second bend having a second bend angle; a control unit operably coupled to each of the first and second cams comprising: a processor; a computer readable medium operably coupled to the processor; and a plurality of instructions stored on the computer readable medium and executable by the processor, wherein the plurality of instructions comprises: instructions that cause the processor to rotate at least one of the first and second eccentric rings about the center axis to a first angular position, relative to the outer sleeve; and instructions that cause the processor to rotate at least one of the third and fourth eccentric rings about the center axis to a second angular position, relative to the outer sleeve; wherein the first shaft, the first and second bearings, and the first and second cams of the first rotary steerable module are disposed within the first section of the outer sleeve; and a second rotary steerable module connected to the first rotary steerable module, the second rotary steerable module comprising: a second shaft connected to the first shaft and extending within the second section of the outer sleeve; a third bearing disposed within the second section of the outer sleeve and through which the second shaft extends; a fourth bearing disposed within the second section of the outer sleeve and through which the second shaft extends, wherein the third bearing is spaced from the fourth bearing along the second shaft; a third cam disposed within second section of the outer sleeve so that the third cam is positioned along the second shaft between the third and fourth bearings; and a fourth cam disposed within the second section of the outer sleeve so that the fourth cam is positioned along the first shaft between the third cam and the fourth bearing. 2. The drilling system of claim 1 , wherein the first bend of the first shaft within the outer sleeve bends in a first angular direction; and wherein the second bend of the first shaft within the outer sleeve bends in a second angular direction that is the reverse of the first angular direction. 3. The drilling system of claim 1 , wherein the first and second bends of the first shaft within the outer sleeve bend in the same angular direction. 4. The drilling system of claim 1 , wherein the first shaft has a center axis and is rotatable about the center axis within, and relative to, the outer sleeve. 5. The drilling system of claim 1 , wherein the outer sleeve and the first shaft have first and second center axes, respectively; wherein the drilling system further comprises a drill bit connected to the first shaft, the drill bit having a range of movement defined at least in part by the first and second bend angles; and wherein the second center axis is angularly offset from the first center axis within the range of movement of the drill bit. 6. The drilling system of claim 1 , wherein the first rotary steerable module comprises a pad connected to the outer sleeve, wherein at least a portion of the pad is positioned outside of the outer sleeve. 7. The drilling system of claim 1 , wherein the second angular position is different than the first angular position; and wherein the first and second bend angles are dependent upon the first and second angular positions, respectively. 8. The drilling system of claim 1 , wherein at least one of the first and second rotary steerable modules comprises a pad carried by one of the first and second sections of the outer sleeve, and wherein at least a portion of the pad is positioned outside of the outer sleeve. 9. A drilling method, comprising: extending a first shaft within a first section of an outer sleeve, wherein the first shaft and the outer sleeve have first and second center axes, respectively; placing a first bend in the first shaft within the outer sleeve, by extending the first shaft through a first eccentric ring positioned between a first and second bearing, the first bend having a first bend angle; placing a second bend in the first shaft within the outer sleeve, by extending the first shaft through a second eccentric ring positioned between the first eccentric ring and the second bearing, the second bend having a second bend angle; rotating, relative to the outer sleeve, the first shaft about the first center axis while maintaining the first and second bends in the first shaft within the outer sleeve; extending a second shaft within a second section of the outer sleeve, wherein the second shaft and the second section of the outer sleeve have first and second center axes, respectively; placing a third bend in the second shaft within the outer sleeve, by extending the second shaft through a third eccentric ring positioned between a third and fourth bearing, the third bend having a third bend angle; placing a fourth bend in the second shaft within the outer sleeve, by extending the second shaft through a fourth eccentric ring positioned between the third eccentric ring and the fourth bearing, the fourth bend having a fourth bend angle; and rotating, relative to the outer sleeve, the second shaft about the first center axis while maintaining the third and fourth bends in the second shaft within the outer sleeve. 10. The drilling method of claim 9 , wherein placing the first bend in the shaft within the outer sleeve further comprises: extending the first shaft through the first eccentric ring about which a fifth eccentric ring extends within the outer sleeve; and rotating at least one of the first and fifth eccentric rings about the second center axis to a first angular position within the outer sleeve to thereby place the first bend in the first shaft within the outer sleeve. 11. The drilling method of claim 10 , wherein placing the second bend in the first shaft within the outer sleeve comprises: extending the first shaft through the second eccentric ring about which a sixth eccentric ring extends within the outer sleeve; rotating at least one of the second and sixth eccentric rings about the second center axis to a second angular position within the outer sleeve to thereby place the second bend in the shaft within the outer sleeve. 12. The drilling method of claim 11 , wh