SODA uses differential algebra and adaptive Gaussian mixtures to solve chance-constrained nonlinear trajectory optimization problems for space missions with non-Gaussian uncertainties.
DirectandIndirectThrustMeasurementsofIonic-LiquidElectrosprayThrusterson a Magnetically-Levitated Testbed,
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Smaller capillary emitters enable stable low-flow-rate cone-jet electrospray operation, achieving I_sp up to 3000 s and >50% efficiency with ionic liquids, roughly doubling prior values.
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Non-linear stochastic trajectory optimisation
SODA uses differential algebra and adaptive Gaussian mixtures to solve chance-constrained nonlinear trajectory optimization problems for space missions with non-Gaussian uncertainties.
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High specific impulse electrospray propulsion with small capillary emitters
Smaller capillary emitters enable stable low-flow-rate cone-jet electrospray operation, achieving I_sp up to 3000 s and >50% efficiency with ionic liquids, roughly doubling prior values.