Exercise cycle with vibration capabilities

What is claimed is: 1. An exercise cycle, comprising: a generally upright support structure; a seat mounted on the generally upright support structure; a handlebar assembly mounted on the generally upright support structure; a pedal assembly connected to the generally upright support structure; and one or more vibration assemblies, wherein the one or more vibration assemblies are controlled by a controller to adjust vibrations to cause at least one of the seat, the handlebar assembly, and the pedal assembly to simulate an outdoor trail; wherein the generally upright support structure is continuously adjustable by the controller during operation between a plurality of tilted positions, including a forwardly tilted position, a neutral position, and a rearwardly tilted position to simulate the outdoor trail; and wherein the one or more vibration assemblies change an intensity or a frequency of the vibrations based on one of the tilted positions of the generally upright support structure. 2. The exercise cycle of claim 1 , wherein the one or more vibration assemblies comprise a vibration assembly connected to the handlebar assembly, wherein the vibration assembly selectively vibrates the handlebar assembly. 3. The exercise cycle of claim 1 , wherein the one or more vibration assemblies comprise a vibration assembly connected to the generally upright support structure near the seat, wherein the vibration assembly selectively vibrates the seat. 4. The exercise cycle of claim 1 , wherein the one or more vibration assemblies comprise a vibration assembly connected to the pedal assembly, wherein the vibration assembly selectively vibrates the pedal assembly. 5. The exercise cycle of claim 1 , wherein the pedal assembly comprises a pair of cranks and a pair of pedal connected to the pair of cranks. 6. The exercise cycle of claim 1 , wherein at least one of the one or more vibration assemblies comprises a motor, a shaft rotatable by the motor about an axis of rotation, and one or more eccentric weights mounted on the shaft. 7. The exercise cycle of claim 6 , wherein each of the one or more eccentric weights comprises a center of mass that is offset from the axis of rotation. 8. The exercise cycle of claim 7 , wherein rotation of the shaft about the axis of rotation causes the centers of mass of the one or more eccentric weights to revolve around the axis of rotation, thereby creating the vibrations. 9. The exercise cycle of claim 8 , wherein an intensity or frequency of the vibrations is selectively controlled by adjusting the speed at which the centers of mass of the one or more eccentric weights revolve around the axis of rotation. 10. The exercise cycle of claim 1 , further comprising a control panel having one or more user inputs, the control panel being in electrical communication with the one or more vibration assemblies such that the one or more vibration assemblies are controllable by activating the one or more user inputs. 11. The exercise cycle of claim 1 , wherein an intensity or frequency of the vibrations is related to the speed at which the pedal assembly rotates. 12. The exercise cycle of claim 1 , wherein the one or more vibration assemblies comprise a vibration assembly connected to the handlebar assembly, a vibration assembly connected near the seat, and a vibration assembly connected to the pedal assembly. 13. The exercise cycle of claim 1 , further comprising a resistance assembly operatively connected to the pedal assembly, wherein the resistance assembly regulates the rotation of the pedal assembly. 14. The exercise cycle of claim 1 , wherein the one or more vibration assemblies selectively create vibrations to simulate a riding surface. 15. An exercise cycle, comprising: a base support; a generally upright support structure pivotally connected to the base support, wherein the generally upright support structure is movable between a plurality of tilted positions during operation, including a forwardly tilted position, a neutral position, and a rearwardly tilted position that simulates an outdoor ride with a controller; a seat connected to the generally upright support structure; a handlebar assembly connected to the generally upright support structure; a control panel connected to the handlebar assembly; a pedal assembly connected to the generally upright support structure; and one or more vibration assemblies, wherein the one or more vibration assemblies selectively create vibrations to cause at least one of the seat, the handlebar assembly, and the pedal assembly to vibrate to simulate the outdoor ride with the controller, at least one of the one or more vibration assemblies comprising: a motor; a shaft rotatable by the motor about an axis of rotation; and one or more eccentric weights fixedly mounted on the shaft such that rotation of the shaft causes the one or more eccentric weights to rotate about the axis of rotation, each of the one or more eccentric weights having a center of mass that is radially offset from the axis of rotation; and wherein the one or more vibration assemblies change an intensity or frequency of the vibrations created by the one or more vibration assemblies based on one of the plurality of tilted positions of the generally upright support structure. 16. The exercise cycle of claim 15 , wherein at least one of the one or more vibration assemblies is connected to the pedal assembly. 17. The exercise cycle of claim 15 , wherein the one or more vibration assemblies comprise: a first vibration assembly connected to the handlebar assembly; and a second vibration assembly connected to the upright support structure near the seat. 18. The exercise cycle of claim 15 , further comprising an extension mechanism connected between the base support and the generally upright support structure, wherein the extension mechanism selectively moves the generally upright support structure between the plurality of tilted positions.