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GeriAI Satellite Identifies Targets Autonomously in Orbit for First Time
AI Satellite Identifies Targets Autonomously in Orbit for First Time
Gelişiyor
TechCrunch15.06.2026Teknoloji3 dk okumaUnited States

AI Satellite Identifies Targets Autonomously in Orbit for First Time

Hızlı Bakış

  • An Earth observation satellite, Yam-9, has autonomously identified targets using a vision-language model (VLM) in orbit, a first for AI in space.
  • This demonstration by Loft Orbital and NASA JPL, powered by Google DeepMind's Gemma 3, could revolutionize space-based sensing by enabling on-orbit data triage and paving the way for larger AI infrastructure in space.

Yapay zekâ özeti

Neden Önemli?

For the first time, an Earth observation satellite has autonomously identified targets using a vision-language model (VLM) in orbit, a milestone achieved in April. This demonstration by Loft Orbital and NASA JPL showcases the potential of AI to transform space-based sensors.

Yazı boyutu

For the first time, an Earth observation satellite has found what it was looking for — on its own, without human analysts on the ground. The milestone, which occurred in April, marks the first reported use of a vision-language model in orbit, and offers a glimpse of how AI could fundamentally change what space-based sensors are capable of — and how much they’re worth.

Typically, satellites download large chunks of data to analysts on the Earth below, who use machine learning algorithms or their own eyes to figure out what’s going on. But onboard Yam-9, a spacecraft built by space infrastructure company Loft Orbital, a software package built by NASA’s Jet Propulsion Laboratory identified areas of interest in response to natural language queries.

Google DeepMind’s Gemma 3 — the vision-language model, or VLM, that powered the demonstration — is purpose-built for edge applications, meaning it is designed to run on limited hardware far from a data center. VLMs combine the contextual understanding of large language models with the ability to analyze imagery: researchers asked the model to classify sensor data where natural environment meets human development, for example, or to identify infrastructure around railway hubs — and it did.

The demonstration is significant for two reasons. In the near term, it could make space sensors far more useful by doing initial data triage on orbit, reducing the flood of raw data that analysts currently have to wade through. Longer term, it’s a proof point toward running larger-scale AI infrastructure in space.

“It opens the door to always-on, patrol layers in space,” Loft’s head of AI, Paul Lasserre, told TechCrunch. “If you have a VLM, you can have logic—like ‘monitor this border for me, and let me know when something is suspicious,’ and interact back and forth with the satellites.”

Loft’s spacecraft are designed as platforms for third-party customers. The business model is closer to infrastructure-as-a-service than traditional satellite manufacturing. One recent deal saw it build, launch and operate six new satellites for EarthDaily, which will analyze and market the data collected onboard the spacecraft. Yam-9 was launched in the fall of 2025 as a pathfinder for the company’s orbital AI projects, and includes a Nvidia Jetson Orrin AGX GPU, one of the leading chips used in space compute.

Juan Delfa Victoria, a technical leader in NASA JPL’s AI group, led the development of NAVI-Orbital, a software package that was effectively the harness for the Gemma 3 VLM. While Gemma 3 is off the shelf, software engineers had to streamline the software package to reduce the amount of libraries and memory it would require.

While this is the first reported use of a VLM on orbit, we can expect other companies to follow suit. Planet Labs flies satellites with Jetson Orin processors; for now, it is using them for simpler object detection tasks, but a spokesperson says research is underway on other AI applications, including VLMs.

Kepler Communications, which operates the largest group of GPUS in space, declined to say whether it had deployed VLMs in space due to NDA agreements with partners, but noted that there have been “several undisclosed use cases of our compute environment” since those spacecraft launched in January.

“Now that we’ve proven the concept, that’s really the direction of travel,” Lasserre said. The goal is to build out the constellation to ensure real-time coverage of anywhere on Earth, which which he says would take somewhere between 50 and 100 satellites like Yam-9. (Loft currently operates 12 spacecraft on orbit.)

Lessons learned deploying these smaller models on orbit will inform how companies attempt to deploy larger-scale compute infrastructure in space, particularly in the prosaic-but-vital areas of power and memory management.

They could also pave the way for new scientific tools. The idea for NAVI-Space began with JPL Researcher Taran Cyriac John, who was thinking about digital assistants for astronauts exploring the Moon or Mars.

“We’re thinking, okay, you have astronauts with pressurized suits, and you know they cannot be tapping on a keyboard, whatever they want to do is complex.” Delfa Victoria said. “So, how about we provide an assistant, like in video games and in movies, where you see an AI which is interactive?”

Just don’t call it HAL 9000.

Bundan Sonra Ne Olabilir?

Yapay zekâ öngörüsü — kesinlik taşımaz

  • Other companies will deploy VLMs on their satellites.

    Çok muhtemel · Aylar içinde

  • Constellations of 50-100 AI-enabled satellites will provide real-time global coverage.

    Muhtemel · Yıllar içinde

Açık Sorular

  • What are the specific security implications of autonomous AI in orbit?
  • How will regulatory frameworks adapt to AI-powered satellites?
  • What is the cost-benefit analysis for deploying VLMs on smaller satellites?

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