Stanford center focuses on spacecraft autonomy

Stanford center focuses on spacecraft autonomy


PALO ALTO, Calif. – The Center for AEroSpace Autonomy Research (CAESAR) at Stanford University held a kickoff event May 22 to highlight the industry, academia and government collaboration it seeks to foster.

“We founded CAESAR with the objective to tackle and solve the problem of spacecraft autonomy through the judicious incorporation of artificial intelligent components,” said Simone D’Amico, CAESAR co-director and founding director of Stanford’s Space Rendezvous Laboratory. “We want to develop novel algorithms at the intersection of artificial intelligence and guidance, navigation and control.”

In addition, CAESAR researchers are developing a space foundation model, a machine-learning model trained on space data and fine-tuned for space-related tasks. The space foundation model “will process diverse input and sensor modalities, both the standard ones like language and video and space-specific ones like lidar, remote-sensing data, space object catalogs,” said Marco Pavone, CAESAR co-director and director of Stanford’s Autonomous Systems Laboratory.

Students at the Center for AEroSpace Autonomy Research at Stanford University. Credit: Andrew Brodhead

Out of Stealth

Although CAESAR was officially launched May 22, the organization has been operating in stealth mode for approximately nine months. During that time, students conducted research projects backed by NASA, SpaceWERX, the National Science Foundation and CAESAR’s founding corporate sponsors Blue Origin and Redwire.

“The outcomes of AI and space operations research will be tremendously valuable to our technology roadmap and advance our products, including space domain awareness capabilities for a range of customers,” Al Tadros, Redwire chief technology officer, said in a statement. “AI-enhanced capabilities could be transformative for in-space servicing, guidance, navigation and control and rendezvous and proximity operations autonomy, and a range of complex mission requirements that Redwire is supporting for current and future missions.”

Early CAESAR projects focused on autonomous rendezvous, proximity operations and docking, as well as rapid characterization of space objects.

In the past, characterizing an unknown space object was a time-consuming and data-intensive task, D’Amico said. CAESAR researchers demonstrated that a convolutional neural network, a type of deep learning algorithm, trained on an extensive array of 3D spacecraft models and imagery can approximate the 3D model of an unknown spacecraft from a single image.

Stanford, NASA, U.S. Space Force, Aerospace Corp. and industry speakers at the CAESAR launch event underscored the potential for AI to streamline space mission planning, enhance space situational awareness and enable spacecraft and rover autonomy.

“AI enabled autonomy can transform the way we do space operations for the Department of Defense and the intelligence community,” said Mike Nemerouf, Aerospace Corp. innovation, science and technology director in the Space Systems Architecture Division. Onboard processors could fuse datasets and downlink information to operators rather than relaying disparate data streams that operators must decipher to make decisions.

Data Scarcity

Speakers also cited the challenge of applying AI to space missions. State-of-the-art AI components are not designed for the harsh space environment. Power on spacecraft tends to be limited. And data needed to train space-related AI models often are not available.

CAESAR researchers are addressing some of the challenges by “using the most recent advances in robotics and virtual reality to increase the technology readiness level of new methods and algorithms,” D’Amico said.

The movements of autonomous spacecraft, for instance, are simulated in CAESAR’s robotic testbed. “These testbeds are informed by experience, by lessons learned, by the results that we gain from actual flight missions,” D’Amico said.

D’Amico leads the Starling Formation-Flying Optical Experiment, known as StarFOX, a distributed optical navigation system for satellite swarms.



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