On this episode of Roid Rage, Principal Flight Science Engineer Loic joins the pod to break down how we use Monte Carlo simulations to navigate deep space - starting with how we avoid hitting the Moon. Loic walks us through how probabilistic modeling, error bounding, and trajectory optimization keep DeepSpace‑2 on target. This episode covers everything from solar pressure to thrust vector error, and why simulating failure is core to mission design.
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On this episode of Roid Rage, Principal Flight Science Engineer Loic joins the pod to break down how we use Monte Carlo simulations to navigate deep space - starting with how we avoid hitting the Moon. Loic walks us through how probabilistic modeling, error bounding, and trajectory optimization keep DeepSpace‑2 on target. This episode covers everything from solar pressure to thrust vector error, and why simulating failure is core to mission design.
Spacecraft comms aren’t guaranteed—and we design with that in mind. In this episode, Ashton, our Head of Space Systems, breaks down how we handle communications in deep space, what Vestri learned from Odin, and how we’re building spacecraft that stay operational even when the link goes dark. From RF architecture to pass planning to system-level autonomy, this is how we close the gap between signal and silence.
Roid Rage
On this episode of Roid Rage, Principal Flight Science Engineer Loic joins the pod to break down how we use Monte Carlo simulations to navigate deep space - starting with how we avoid hitting the Moon. Loic walks us through how probabilistic modeling, error bounding, and trajectory optimization keep DeepSpace‑2 on target. This episode covers everything from solar pressure to thrust vector error, and why simulating failure is core to mission design.
