Seat back head restrain for parachute assemblies

What is claimed is: 1. A parachute assembly for an ejection seat, comprising: a canopy; a first suspension line coupled to the canopy; a first riser coupled to the first suspension line; and a seat cushion head restraint coupled to the first riser and configured to limit reward head movement during deployment of the parachute assembly, wherein the first riser is coupled to a rearward surface of the seat cushion head restraint, and wherein the first riser being coupled to the rearward surface of the seat cushion head restraint causes the seat cushion head restraint to rotate 180° upon deployment of the parachute assembly. 2. The parachute assembly of claim 1 , wherein a distal portion of the first riser is coupled to a first portion of the rearward surface of the seat cushion head restraint, and wherein a proximal portion of the first riser is coupled to a second portion of the rearward surface of the seat cushion head restraint different from the first portion, the distal portion of the of the first riser be a greater distance, as measured along the first riser and the first suspension line, from the canopy as compared to the proximal portion of the first riser, and wherein the second portion of the rearward surface of the seat cushion head restraint is located closer to a seat pan of the ejection seat as compared to the first portion of the rearward surface of the seat cushion head restraint. 3. The parachute assembly of claim 1 , further comprising: a second suspension line coupled to the canopy; and a second riser coupled to the second suspension line, wherein the seat cushion head restraint is coupled to the second riser. 4. The parachute assembly of claim 3 , wherein the first riser comprises a first left shoulder riser and the second riser comprises a first right shoulder riser, and wherein the parachute assembly further comprises: a second left shoulder riser located forward of the first left shoulder riser; and a second right shoulder riser located forward of the first right shoulder riser. 5. The parachute assembly of claim 1 , further comprising a reefing line configured to restrict an expansion of the canopy, wherein the first suspension line is coupled to the reefing line. 6. An ejection system, comprising: an ejection seat including a seat pan and a seatback portion; a seat cushion located on the seatback portion of the ejection seat, the seat cushion including a seat cushion head restraint and a second cushion, the second cushion being located between the seat cushion head restraint and the seat pan, wherein the seat cushion head restraint is detachably coupled to the seatback portion of of the ejection seat; a parachute assembly located on the ejection seat, the parachute assembly comprising: a first riser coupled to the seat cushion head restraint; a first suspension line coupled to the first riser; and a canopy coupled to the first suspicion line, wherein a distal portion of the first riser is coupled to a first portion of the seat cushion head restraint, and wherein a proximal portion of the first riser is coupled to a second portion of the seat cushion head restraint different from the first portion, the distal portion of the of the first riser is a greater distance, as measured along the first riser and the first suspension line, from the canopy as compared to the proximal portion of the first riser, and wherein, prior to deployment of the parachute assembly, the second portion of the seat cushion head restraint is located closer to the seat pan of the ejection seat as compared to the first portion of the seat cushion head restraint, wherein the seat cushion head restraint limits reward head movement during deployment of the parachute assembly. 7. The ejection system of claim 6 , wherein the first riser is coupled to a rearward surface of the seat cushion head restraint, the rearward surface including the first portion and the second portion of the seat cushion head restraint. 8. The ejection system of claim 7 , wherein the seat cushion head restraint is configured to rotate 180° in response to deployment of the canopy. 9. The ejection system of claim 6 , wherein after the deployment of the canopy the second portion of the seat cushion head restraint is located closer to the canopy as compared to the first portion of the seat cushion head restraint. 10. The ejection system of claim 6 , wherein the parachute assembly further comprises a second riser coupled to the seat cushion head restraint. 11. The ejection system of claim 6 , wherein the parachute assembly further comprises: a reefing line configured to restrict an expansion of the canopy, wherein the first suspension line is coupled to the reefing line. 12. The ejection system of claim 11 , wherein the seat cushion head restraint is configured to translate away from the canopy in response to the reefing line being severed. 13. A parachute assembly, comprising: a canopy; a first riser coupled to the canopy; a second riser coupled to the canopy; a seat cushion head restraint coupled to the first riser and the second riser; and a reefing line configured to restrict an expansion of the canopy, wherein at least one of the first riser or the second riser is coupled to the reefing line such that the at least one of the first riser or the second riser decouples from the canopy in response to a severing of the reefing line. 14. The parachute assembly of claim 13 , wherein the first riser and the second riser are coupled to a rearward surface of the seat cushion head restraint. 15. The parachute assembly of claim 14 , wherein the seat cushion head restraint is configured to rotate 180° upon deployment of the parachute assembly. 16. The parachute assembly of claim 13 , further comprising: a plurality of first suspension lines coupling the first riser to the canopy; and a plurality of second suspension lines coupling the second riser to the canopy.