Self-restoring crash cushions

The invention claimed is: 1. A crash cushion comprising: multiple diaphragms spaced along a length direction of the crash cushion; an elongated track adapted to be anchored to the ground that extends along the length direction under the crash cushion, the diaphragms being mounted to the track in a manner in which they can slide along the track when impacted by a moving vehicle or when the crash cushion is being restored; and a pulley system that includes a first pulley that is anchored to the ground in front of the crash cushion, a rope that wraps around the first pulley and is attached to a front diaphragm of the crash cushion, and a drum that is anchored to the ground near a rear of the crash cushion, the drum including a shaft upon which the rope is wound and a rotary brake adapted to resist rotation of the shaft. 2. The crash cushion of claim 1 , wherein the rotary brake is a band brake including a flexible band that is wrapped around a brake drum mounted to the shaft. 3. The crash cushion of claim 2 , further including a tensioning mechanism that applies tension to the band. 4. The crash cushion of claim 3 , wherein the drum can move along the length direction of the crash cushion to change the tension applied by the tensioning mechanism. 5. The crash cushion of claim 3 , wherein the tensioning mechanism adjusts the tension in the band in response to measurements collected by a sensor on the cushion. 6. The crash cushion of claim 1 , further comprising a motor for winding the rope back onto the drum after a portion of it has been unwound due to the impact to enable self-restoration of the crash cushion. 7. The crash cushion of claim 1 , wherein the pulley system further comprises a second pulley that is positioned between the first pulley and the drum, wherein the rope wraps around the second pulley before reaching the drum. 8. The crash cushion of claim 7 , wherein the pulley system further comprising a third pulley that is positioned between the first pulley and the second pulley, wherein the rope wraps around the third pulley after wrapping around the second pulley but before reaching the drum. 9. The crash cushion of claim 4 , wherein the drum includes a carriage to which the shaft is mounted, the carriage being configured to move along the length direction of the crash cushion. 10. The crash cushion of claim 9 , wherein a first end of the band is attached to the carriage and a second end of the band is attached to the tensioning mechanism. 11. The crash cushion of claim 10 , wherein the tensioning mechanism includes a first spring associated with the band, wherein rearward movement of the front diaphragm resulting from an initial phase of the impact increases tension in the rope and pulls the carriage in a forward direction and wherein forward movement of the carriage decreases tension applied by the spring to the band, which in turn enables the shaft to rotate relatively easily. 12. The crash cushion of claim 11 , wherein slowing of the front diaphragm during a later phase of the impact decreases tension in the rope and enables the carriage to move in a rearward direction and wherein rearward movement of the carriage increases tension applied by the spring to the band, which in turn causes the shaft to rotate less easily. 13. The crash cushion of claim 12 , wherein the drum further comprises a second spring associated with the carriage, wherein the second spring opposes forward movement of the carriage. 14. A crash cushion comprising: multiple diaphragms spaced along a length direction of the crash cushion; an elongated track adapted to be anchored to the ground that extends along the length direction under the crash cushion, the track comprising elongated rails to which the diaphragms are mounted in a manner in which they can slide along the rails when impacted by a moving vehicle or when the crash cushion is being restored; and brakes mounted to the diaphragms that are configured to bite into the rails to dissipate energy as the diaphragms are moved along the track during an impact. 15. The crash cushion of claim 14 , wherein the brakes are passive unidirectional brakes that opposes motion of the diaphragms to which they are attached in a rearward direction but do not oppose motion of the diaphragms to which they are attached in a forward direction. 16. The crash cushion of claim 14 , further comprising a sensor mounted to one of the diaphragms, wherein one or more of the brakes are actuated in response to measurements made by the sensor. 17. The crash cushion of claim 14 , further comprising a pulley system that can be used to pull the diaphragms back to their original positions. 18. The crash cushion of claim 14 , wherein the brakes comprise angled pieces of metal that contact the rails. 19. The crash cushion of claim 18 , further comprising springs that urge the pieces of metal into contact with the rails. 20. The crash cushion of claim 16 , wherein the brakes comprise brake calipers that are configured to pinch the rails in response to the measurements.