Lockheed Martin and NEC Corporation have signed a joint collaboration agreement to extend their partnership utilizing NEC’s System Invariant Analysis Technology (SIAT). The companies are also finalizing a licensing agreement with a multi-year option.
Across the space domain, Lockheed Martin is applying AI technology to provide proactive insights during production and for operational mission requirements
With a focus on driving speed and efficiency of system diagnostics, this partnership will continue to provide proven artificial intelligence (AI) and machine learning (ML) capabilities across product lifecycles. This positively impacts design and production phases of spacecraft development, including applications on NASA’s Orion vehicle for the Artemis mission.
“The power of AI is leveraged across our entire enterprise, and with a trusted partner like NEC, we gain the resources to expand its abilities at scale across our internal operations,” said Rick Ambrose, executive vice president of Lockheed Martin Space. “By proactively analyzing telemetry data we are able to deliver our systems even faster and streamline the work that our employees do every day.”
For several years, Lockheed Martin and NEC have been working together to evaluate the effectiveness of SIAT for early production testing and operational scenarios. As a result, Lockheed Martin has integrated SIAT into the Technology for Telemetry Analytics for Universal Artificial Intelligence (T-TAURI) AI service. This allows the organization to drive proactive anomaly detection during the design, development, production and test phase of spacecraft development – even before applications in mission operations.
NEC’s SIAT advanced analytics engine uses data collected from sensors to learn the behavior of systems, including computer systems, power plants, factories and buildings, enabling the system itself to automatically detect inconsistencies and prescribe resolutions. By integrating within Lockheed Martin’s T-TAURI platform, a comprehensive time series analysis framework, the team can gain an exhaustive, holistic understanding of a system, creating a foundational system for other advanced technologies like system-level digital twins. Since the initial partnership between NEC and Lockheed Martin, the teams have already seen applications for early pathfinding to detect production anomalies and software regression testing.
“We’re thrilled that the innovative SIAT developed by NEC provides value to Lockheed Martin as it addresses not only the development of complex systems, but also the uniqueness of deep space exploration,” said Motoo Nishihara, executive vice president, CTO and Member of the Board, NEC Corporation. “Together, we are committed to strengthening our solution and finding new ways to apply this technology.”
Proven AI Results
Lockheed Martin has already successfully applied this technology on several operations to date.
For example, the team used it to analyze the unprecedented amount of data that was produced by the Orion vehicle during testing. Within a four-hour period, T-TAURI and SIAT built a model of the vehicle’s normal operations from nearly 150,000 sensors to establish over 22 billion logical relationships for analysis. The resulting models can be used to monitor all future tests of subsequent vehicles to compare expected and irregular behavior to analyze consistency and aid in regression analysis. Without these advanced AI and ML tools, it would be impossible for a single engineer to analyze massive amounts of data manually at the speed needed to analyze the data in its entirety.
Going forward, AI will continue to be applied on future missions in several ways, including future ground station support for customer satellite operations as well as expanding the application for human-rated systems to demonstrate an increase in speed of anomaly detection and root cause analysis on mission.