Aspirating airbag assemblies

The invention claimed is: 1. An airbag cushion assembly, comprising: an airbag cushion; an inflation module, comprising: an inflator; a plurality of high-velocity nozzles fluidly coupled with the inflator, wherein the plurality of high-velocity nozzles is configured to deliver inflation gas from the inflator into the airbag cushion; an inflator conduit, wherein the inflator conduit is fluidly coupled with the inflator and fluidly coupled with the plurality of high-velocity nozzles; and a housing coupled to the airbag cushion, wherein the housing comprises an aspiration inlet configured to allow for receipt of ambient air into the airbag cushion during inflation of the airbag cushion, and wherein the plurality of high-velocity nozzles is configured to, upon actuation of the inflator, draw ambient air into the airbag cushion along with the inflation gas from the inflator; and a valve configured to open upon actuation of the inflator, wherein the valve is configured to close during inflation of the airbag cushion to prevent air and inflation gas from exiting through the aspiration inlet. 2. The airbag cushion assembly of claim 1 , wherein the valve is configured to automatically close at a predetermined stage during inflation of the airbag cushion. 3. The airbag cushion assembly of claim 2 , wherein the valve is biased towards a closed position. 4. The airbag cushion assembly of claim 1 , wherein the inflator conduit comprises a cross-sectional dimension that decreases in size as the inflator conduit extends away from a portion of the inflator through which inflation gas is delivered. 5. The airbag cushion assembly of claim 1 , further comprising a second inflator conduit fluidly coupled with the inflator, wherein the second inflator conduit comprises a second plurality of high-velocity nozzles configured to deliver inflation gas from the inflator into the airbag cushion. 6. An airbag cushion assembly, comprising: an airbag cushion; an inflation module, comprising: an inflator; a housing coupled to the airbag cushion, wherein the housing comprises an aspiration inlet configured to allow for receipt of ambient air into the airbag cushion during inflation of the airbag cushion; an inflator conduit coupled with the housing and fluidly coupled with the inflator; and a plurality of high-velocity nozzles fluidly coupled with the inflator conduit, wherein each of the plurality of high-velocity nozzles is configured to deliver inflation gas from the inflator into the airbag cushion, and wherein each of the plurality of high-velocity nozzles is configured to, upon actuation of the inflator, draw ambient air into the airbag cushion along with the inflation gas from the inflator; and a valve comprising: a flap comprising a plurality of openings; wherein each of the plurality of high-velocity nozzles extends through a corresponding opening of the plurality of openings formed in the flap; and a support member coupled to the flap, wherein the support member is biased towards a closed position in which the flap blocks the aspiration inlet, wherein the flap is configured to open upon actuation of the inflator, and wherein the valve is configured to close during inflation of the airbag cushion to prevent air and inflation gas from exiting through the aspiration inlet following inflation of the airbag cushion. 7. The airbag cushion assembly of claim 6 , wherein the valve further comprises a hinge configured to bias the support member towards the closed position. 8. The airbag cushion assembly of claim 6 , wherein the flap is formed from a portion of the airbag cushion. 9. The airbag cushion assembly of claim 6 , wherein the inflator conduit comprises a cross-sectional dimension that decreases in size as the inflator conduit extends away from a portion of the inflator through which inflation gas is delivered. 10. An airbag cushion assembly, comprising: an airbag cushion; an inflation module, comprising: a compressed gas chamber fluidly coupled with the airbag cushion, wherein the compressed gas chamber comprises a gas mixture comprising a flammable gas and an inert gas; and a housing coupled to the airbag cushion, wherein the housing comprises an aspiration inlet configured to allow for receipt of ambient air into the airbag cushion during inflation of the airbag cushion, and wherein, upon actuation, the compressed gas chamber is configured to force the gas mixture into the airbag cushion, and wherein the gas mixture is configured to draw ambient air into the airbag cushion while being forced into the airbag cushion; and an initiator extending into the airbag cushion, wherein the initiator is configured to ignite a flammable gas inside the airbag cushion upon actuation, and wherein the flammable gas comprises the gas mixture and ambient air. 11. The airbag cushion assembly of claim 10 , wherein the inflation module further comprises at least one nozzle fluidly coupled with the compressed gas chamber, wherein the at least one nozzle is configured to deliver the gas mixture from the compressed gas chamber into the airbag cushion. 12. The airbag cushion assembly of claim 11 , wherein the at least one nozzle comprises a plurality of high-velocity nozzles, wherein the plurality of high-velocity nozzles are configured to draw ambient air into the airbag cushion along with the gas mixture from the compressed gas chamber. 13. The airbag cushion assembly of claim 10 , wherein the airbag cushion comprises a pedestrian airbag cushion configured to be deployed from an exterior surface of a vehicle during an impact so as to cushion a pedestrian during the impact. 14. The airbag cushion assembly of claim 10 , wherein the compressed gas chamber lacks an oxidizing gas, and wherein the airbag cushion assembly is configured such that oxygen obtained from the ambient air is used as an oxidizing gas during ignition of the flammable gas. 15. The airbag cushion assembly of claim 14 , wherein the flammable gas comprises at least one of hydrogen and methane, and wherein the inert gas comprises at least one of nitrogen and argon. 16. The airbag cushion assembly of claim 15 , wherein the gas mixture comprises hydrogen in an amount between about 30 mol % and about 40 mol %, and wherein the gas mixture further comprises argon in an amount between about 60 mol % and about 70 mol %. 17. The airbag cushion assembly of claim 10 , further comprising a second initiator coupled with the compressed gas chamber, wherein the second initiator is configured to, upon actuation, force the gas mixture into the airbag cushion with sufficient force to draw ambient air into the airbag cushion with the gas mixture. 18. The airbag cushion assembly of claim 10 , further comprising a valve configured to open upon actuation of the inflator, wherein the valve is configured to close during inflation of the airbag cushion. 19. An airbag inflation module, comprising: a housing configured to be coupled with an airbag cushion, wherein the housing comprises an aspiration inlet configured to allow for receipt of ambient air into the airbag cushion during inflation of the airbag cushion; an inflator configured to generate an inflation gas to facilitate inflation of the airbag cushion; an inflator conduit coupled with the housing and fluidly coupled with the inflator; a valve assembly comprising: a first panel; and a second panel, wherein the valve assembly is configured to be positioned in an open position in which ambient air is allowed to pass through the aspiration inlet and a closed po