Aerospace & Defense Technology

Episoade

• Radiation-Tolerant Microcontrollers for Expanding LEO Satellite Network 29.05.2026 17min

  On this episode of the Aerospace & Defense Technology podcast, we speak with the CEO of Vorago Technologies about how radiation-tolerant and radiation-hardened semiconductor technologies are enabling the next generation of satellite constellations, autonomous defense systems, and resilient space infrastructure. The conversation explores how growing demand for AI-enabled edge computing, secure communications, and scalable space architectures is reshaping semiconductor requirements foraerospace and defense applications.Season 15, "Beyond Launch: Engineering Space andSatellite Technology Breakthroughs," of the podcast will featurefour episodes with a range of space engineering and manufacturing experts. If you have a suggested guest, email the podcast host, woodrow.bellamy@saemediagroup.com. Sponsored by Omnetics and New England Wire
• How Modular Computing Is Accelerating Modern Defense Technology 17.04.2026 13min

  Modern defense platforms are evolving rapidly, with modularcomputing emerging as a key enabler of that transformation.On this episode of the Aerospace & Defense Technology podcast, Shaun Fischer, Director ofDevelopment and Open Systems Solutions at Leonardo DRS, discusses the company’s newly launched THOR —Tactical, High‑Performance Embedded Computing, OpenArchitecture, Rugged — embedded computing chassis and the new military applications it is designed to enable. THORsupports a broad range of compute payloads, including Intel®, Arm®, and NVIDIA®‑based single‑board computers; high‑performance GPUs for AI and machine‑learninginference; and RF and digital signal‑processing modules for electronic warfare and secure communications.Fischer also explains how the chassis aligns with the Modular Open Systems Approach (MOSA), the open‑architecture initiative shaping the acquisition of next‑generation defense technologies.Sponsored by Smithers.
• How AI Acceleration Strategies Are Changing Embedded Computing Architectures 10.04.2026 12min

  On this episode of the Aerospace & Defense Technologypodcast, we continue our Season 14 focus on military embedded computing and networking, featuring keynote remarks from the 2026 AUSA Global Force Symposiumand an interview with Jeff Baldwin, Director of Engineering at Sealevel. To open the episode, we share an excerpt from a keynoteaddress by Under Secretary of the Army Michael Obadal delivered at the 2026 AUSA Global Force Symposium in Huntsville. In this segment, he describes real‑worldadoption of AI‑enabled tools and outlines one of five principles guiding technology integration, referencing the use of AI‑assisted systems in targeting system development and evaluation.Sealevel designs and manufactures rugged embedded computing platforms and I/O solutions used in mission‑critical military and commercial applications, supporting aerospace and defense OEMs, systems integrators, and service organizations. The company recently published an article analyzing the Department of War’s 2026 AI Acceleration Strategy and its impact on customer requirements for modular, scalable embedded computing architectures — particularly as AI workloads drive higher demands for processing performance,data movement, and system integration at the edge. During his interview, Baldwin discusses the impact of thisstrategy on companies that are designing and manufacturing AI-enabled embedded computing systems and networks.
• Arm’s Agentic AI CPU: Engineering the Next Generation of AI Data Centers 03.04.2026 23min

  On this episode of the Aerospace & Defense Technology podcast, we bring you highlights from Arm CEO Rene Haas’ keynote at the live‑streamed Arm is Everywhere event, wherehe outlines how agentic AI is reshaping the future of compute. The discussion centers on Arm’s landmark move into silicon with the launch of its Arm agentic AI central processing unit (CPU), purpose‑built for next‑generation AI data centers. We also connect those developments to growing U.S. militaryinterest in AI‑driven decision‑making, resilient computeinfrastructure, and energy‑efficient data centers that can operate at scale. It’s a timely look at how commercial AIhardware roadmaps are increasingly intersecting with defense and national security priorities.Recent Department of Defense announcements underscore acoordinated push toward agentic AI backed by hyperscale, cloud‑native infrastructure. From the rapid expansion of GenAI.mil with OpenAI integration, to the U.S. Army’s conditionalagreements for privately financed hyperscale data centers, and the Department of the Air Force’s exploration of data‑centerleasing in Alaska, the message is consistent: AI‑driven operations require massive, resilient, and energy‑aware compute at scale. Complementing that infrastructure build‑out, the Air Force’s Cloud Onemodernization awardto Oracle highlights how secure, multi‑classification cloud platforms are being adapted specifically to support agentic AI workflows in defense environments. Against this backdrop, Arm’s launch of its agentic AI‑focused AGI CPU is particularly relevant to aerospace and defense leaders. For the Aerospace & Defense Technology podcast audience, these developments illustrate how commercial silicon innovation and defense AI priorities are rapidly converging —reshaping the hardware foundations of future military operations.Sponsored by Smithers
• How the F 22 Is Getting Software Updates Faster Than Ever 30.03.2026 14min

  Defense Unicorns, a Colorado-based startup, recently  demonstrated a key enabler for continuoussoftware delivery to the F-22 Raptor. For the first time, software in the F-22 open mission system compute enclave was installed and upgraded on the aircraft in a matter of minutes. On this episode of the Aerospace & Defense Technologypodcast, the CEO of Defense Unicorns explains how their secure software delivery technology enables faster, repeatable updates to flight‑critical systems without changing the aircraft’s underlying hardware. He walks through the Air Force demonstration showcasing how new F‑22 mission capabilities can be packaged, deployed, and updated more rapidly than traditional methods allow. The conversation highlights what was delivered during the demo and why this approach represents a major shift in how legacy fighter platforms can receive software-driven upgrades at speed.Season 14 of the Aerospace & Defense Technology podcast is sponsored by Smithers.
• Sesame Solar’s Nanogrids Promise Major Gains in Drone Endurance 20.02.2026 12min

  Michigan-based renewable energy company Sesame Solar has introduced a new approach to powering and extending flight duration of uncrewed aerial vehicles for both commercialand military applications. The company’s mobile off-grid power solutions have already been used by the  U.S. Air Force, U.S. Army Corps ofEngineers and other defense organizations for a wide variety ofapplications, including extending drone flying times. On this episode of the Aerospace & Defense Technology podcast, Sesame Solar Co-founder and CEO Lauren Flanagan explains how the company’s new mobile hydrogen‑powered nanogrids are redefining what’s possible for long‑range drone operations.The conversation dives into how this closed‑loop system eliminates fuel‑supply logistics, supports autonomous drone missions for up to six months, and enhances operational resilience in contested or off‑grid environments. We also look ahead at how nanogrid technology may shape the future of UAVs by offering scalable, renewable, and self‑sustaining power for next‑generation drone fleets.
• How a New DHS Office Is Redefining Counter Drone Deployment 13.02.2026 14min

  In January, the U.S. Department of Homeland Security launched a new Program Executive Office to speed the procurement and deployment of drone and counter‑drone technologies — aimed at staying ahead of rapidly evolving threats. On this episode of the Aerospace & Defense Technology podcast, Jeffrey Starr, CMO of D‑Fend Solutions, breaks down what this new office means for advancing counter‑UAScapabilities in civilian airspace. We also explore DHS’s newly announced $115 million investment in counter‑drone systems to help secure America250 celebrations and FIFA World Cup 2026 venues. Subscribe to the Aerospace & Defense Technology podcast on Apple Podcasts or Spotify.
• SiPhog Technology: Enabling GPS‑Independent Flight for Uncrewed Aerial Vehicles 06.02.2026 18min

  Anello Photonics CEO joins us to explain how SiPhog silicon photonic gyroscope technology enables drones to maintain navigation in GPS‑denied and contested environments. This conversation reveals how photonic innovation is reshaping the future of uncrewed aircraft and autonomous flight.
• How Sift's Unified Observability Platform Accelerates Drone Innovation 31.01.2026 16min

  In December, the Defense Department issued a request forinformation to gauge the defense industry's ability to develop more than 300,000 drones "quickly and inexpensively" by 2027.Over the next year, the Department plans on spending up to$1 billion to fulfill their need to acquire a large number of the "very best of low-cost American-made drones," according to a December 2025 press release. On this episode of the Aerospace & Defense TechnologyPodcast, we learn about a new tool that could help manufacturers optimize the way they design and create new drones. Austin Spiegel, CTO of Sift, is the guest on this episode to explain how their "unified observability platform" to explain how drone manufacturers can leverage their platformto optimize their design, validation, manufacturing and overall engineering processes from prototype to operations.
• A New Approach to Manufacturing Machine Connectivity for the Air Force 12.12.2025 18min

  The U.S. Air Force Sustainment Center’s Warner Robins Air Logistics Complex (WR-ALC) has taken a major step toward modernizing depot operations: securely connecting manufacturing machines, robots, and digital analytics tools across previously isolated enclaves.This capability was driven by Corsha’s Machine Identity Provider (mIDP), a zero-trust platform that recently received an Authorization-to-Operate (ATO) within the 402nd Commodities Maintenance Group. With mIDP, WR-ALC can authenticate every machine-to-machine connection and enable real-time data sharing for robotic systems and shop-floor automation.On this episode of the Aerospace & Defense Technology podcast, Corsha CEO Anusha Iyer explains how machine identity, continuous authentication, and secure connectivity are accelerating digital sustainment for the U.S. Air Force — and what this means for the future of industrial manufacturing and depot modernization.
• How Packet Digital Is Scaling Domestic Drone Battery Manufacturing 05.12.2025 16min

  In this episode, Packet Digital CEO Terri Zimmerman breaks down the company’s push to expand U.S.-based production of advanced lithium-ion batteries for military unmanned aircraft systems. She discusses new investments, manufacturing plans at the Badland Batteries facility in North Dakota, and why domestic energy-storage capability is becoming a mission-critical requirement for future UAS operations. Zimmerman also offers insight into engineering challenges, supply-chain constraints, and the performance demands shaping the next generation of drone power systems.
• How Virtual Twins are Reshaping Aerospace Design and Manufacturing 26.11.2025 29min

  As aerospace companies race to deliver cutting-edgetechnologies faster and more efficiently, digital innovation is taking center stage. For decades, manufacturers have relied on digital twins for design and simulation. Today, the industry is entering a new era with virtual twins. According to Dassault Systèmes, a virtual twin is "an immersive scientific digital model that mirrors a real-world product, system, or process in meticulous detail." Virtual twins allow engineers to predict performance, eliminate errors, and optimize designs before production even begins. This breakthrough is helping aerospace and defense manufacturers reduce development cycles, improve quality, and accelerate time-to-market for next-generation technologies.On the latest episode of the Aerospace & Defense Technology podcast, we sit down with two experts from DassaultSystèmes:Mariah Otte, Aerospace and Defense Solution ArchitectJason Roberson, Aerospace and Defense Industry Value ExpertTogether, they explain how virtual twins are transformingaerospace design and manufacturing, and what this means for the future of innovation in the sector. From simulation-driven engineering to predictive performance modeling, this conversation dives deep into the tools and strategies shaping tomorrow’s aerospace solutions.
• A New Additive Manufacturing Accelerator for the US Navy in Guam 21.11.2025 31min

  This episode examines the technical and strategic foundations behind Guam’s new advanced manufacturing hub, developed through ASTRO America in coordination with the U.S. Navy’s Maritime Industrial Base Program. Neal Orringer of ASTRO America and Alex Benham of the Guam Additive Materials and Manufacturing Accelerator (GAMMA) provide an engineering-level discussion of the facility’s additive manufacturing capabilities, supply-chain objectives, and workforce development plans. The conversation outlines how the hub will support distributed sustainment, accelerate part production near the point of need, and bolster naval readiness across the Indo-Pacific.
• The Hidden Heroes of Hydrogen Flight: Sealing and Materials 14.11.2025 10min

  While hydrogen-powered flight promises zero emissions and high efficiency, it also brings some of the toughest engineering challenges: cryogenic storage, high-pressure systems, and the constant risk of leakage. At the heart of solving these challenges are sealing solutions and advanced materials — the hidden heroes that make safe, reliable hydrogen flight possible.On this sponsored interview episode of the Aerospace & Defense Technology podcast, Margauz Ningre-Corier, Aerospace Sales and Market Development Manager at Omniseal Solutions is the guest expert who will dive into how these technologies are being developed, what hurdles remain, and where the future of hydrogen-powered air mobility is headed.
• How Forterra is Enabling Modular Military Vehicle Autonomy 07.11.2025 17min

  During the 2025 Association of the United States Army(AUSA) annual meeting and exhibition, Forterra announced several major defense industry vehicle partnerships and introduced four new integrated modules designed to enable autonomy for military vehicles, communications and more. Headquartered in Clarksburg, Maryland, Forterra develops autonomous mission systems for specific defense applications, including robotics and self-driving vehicles. The company has a new partnership with BAE Systems that will rapidly prototype an autonomous Armored Multi-Purpose Vehicle (AMPV). Separately, Forterra has also collaborated with Oshkosh Defense and Raytheon to develop the "DeepFires" autonomous vehicle launcher technology. On this episode of the Aerospace & Defense Technology podcast, Patrick Acox, Forterra Vice President of Defense Growth, is the guest to explain how their company provides autonomy enabling modules for a wide variety of military applications.
• Autonomous Drones Harness Wind for ISR and Counter UAS 31.10.2025 12min

  Windlift, a North Carolina-based startup, recentlyannounced successful results from initial testing of a new autonomous tethered drone system that leverages winds aloft for intelligence, surveillance and reconnaissance (ISR) and counter-uncrewed aerial systems (C-UAS). Windlift's new "GUARD" system is a mobile platform that includes a launcher and a tethered drone equipped with a navigation system that autonomously leverages wind to maintain altitude and stability. "GUARD is set to deliver performance far beyond what's possible today. Where most tethered drones struggle or fail in high winds, GUARD excels. As the wind increases, the GUARD platform, originally designed to harness the wind through complex flight patterns for airborne power generation, thrives," said Rob Creighton, Windlift Founder & CEO. "This breakthrough has been in the making for years, with technical oversight from the Naval Research Laboratory every step of the way. Initial testing marks a pivotal moment."Creighton is the guest on this episode of the Aerospace& Defense Technology podcast to explain how Windlift's autonomous tethered drone system leverages wind to power a wide variety of defense applications.
• Autonomous Targeting Systems for a New Autonomous Ground Vehicle 24.10.2025 14min

  During the Association for the United States Army (AUSA)2025 annualmeeting and exhibition, AimLock announced a partnership with Overland AI that will integrate their autonomous targeting and engagement systems into Overland’s new ULTRA autonomous ground vehicle. The partnership announcement came following the U.S. Army’sselection of Overland AI for a vendor position in their UxS Autonomous Maneuver Program that will evaluate autonomous capabilities using upfits on their Infantry Squad Vehicle (ISV). “The evolution of autonomy on the battlefield is changingthe very nature of ground operations as we know it, and our systems are at the forefront of helping the warfighter prevail against the enemy,” said Bryan Bockmon, CEO of AimLock, commenting on their new partnership with Overland AI. Bockmon is the guest on this episode of the Aerospace &Defense Technology podcast to discuss their new partnership with Overland AI and the future of autonomous targeting systems in modern warfare.
• The Army's New Approach to Buying AI, Drones and Robotics 17.10.2025 20min

  During the Association for the United States Army (AUSA)2025 annual meeting and exhibition, Secretary of the Army Dan Driscoll's opening keynote presentation provided a reality check on the type of technologies their soldiers are using on a daily basis. While AUSA's annual exhibition featured some of the mostadvanced ground vehicles, drones and weapons systems available on the market, Driscoll said that most of the technologies the Army uses on a daily basis weredeveloped 30 years ago. According to Driscoll, "if small arms defined the 20th century, drones will define the 21st."Listen to this episode of the Aerospace & DefenseTechnology podcast to hear selected portions from Driscoll’s AUSA 2025 opening keynote. In his keynote, Driscoll discusses the Army’s transition to a drone-centric future and an acquisition paradigm reshaped by Silicon Valley principles. He details how the service will contract with startups, accelerate AI/robotics/Drone prototyping, and shift from multi-yearprocurements to lean, iterative delivery in months and thousands rather than years and billions.
• Designing Low Cost Long-Range Autonomous Strike Drones 10.10.2025 18min

  MGI Engineering recently unveiled their new long-rangeautonomous precision strike drone, TigerShark, at the 2025 Defense and Security Equipment International (DSEI) event in London. MGI is a U.K.-based engineering consultancy founded byformer Formula 1 (F1) Chief Designer Mike Gacoyne. The company developed TigerShark in response to the growth in demand from defense customers for the top of low cost drones, one way effectors and loitering munitions that havebeen effectively used on both sides of the war in Ukraine. Gascoyne is the guest on this episode of the Aerospace& Defense Technology podcast to explain how MGI is leveraging their history of collaborating with Formula 1 racing teams to design low cost precision strike drones that can be manufactured at scale.
• AI-Powered Military Communications at the Tactical Edge 03.10.2025 11min

  On this episode of the Aerospace & Defense Technology podcast, Fuse Integration CEO Sumner Lee is the guest to discuss how artificial intelligence (AI) is re-defining how military communications and networks are leveraged in contested environments. Lee is a former U.S. Navy helicopter pilot who founded FuseIntegration in 2010 with the goal of providing user-centric communications, networking and computing technologies for defense customers. Earlier this year, the company launched its new AI Radio Environment (AIRE) technology. AIRE provides an application interface for third-party AI developers to train onreal-time RF and network data models. By training on real-time data, third-party developers can create cutting-edge algorithms that learn better network routes, link prioritization or other key parameters to produce a more effective and resilient network.Listen to this episode to learn how Fuse Integration isusing AI to ensure warfighters are connected when it matters most.