Announcement • May 15
Cyberlux Corporation Appoints Brigadier General Steven M. Anderson (Ret.) to Defense Board of Advisors Cyberlux Corporation announced the appointment of Brigadier General Steven M. Anderson (Ret.) to its Defense Board of Advisors. General Anderson will play a key role in guiding the company's Global Integrated Services (GIS) strategy, helping shape Cyberlux’s global logistics, sustainment, and infrastructure support capabilities. With over three decades of service in the U.S. Army, General Anderson is a widely respected expert in military logistics, operational readiness, and combat support. As Deputy Chief of Staff, Logistics for the Multi-National Force in Iraq under General David Petraeus, he led mission-critical supply chain operations during high-tempo combat conditions. A frequent CNN military contributor, General Anderson brings a public-facing perspective on national security, infrastructure readiness, and the future of defense logistics—insight that will be instrumental in expanding Cyberlux’s footprint across GIS and allied sustainment initiatives. General Anderson currently serves as Vice President, Global Support Services at the Bodwé Group, where he leads initiatives that deliver strategic infrastructure and logistics solutions for federal clients. He also sits on the board of VoteVets, advocating for strong national defense and veteran-focused policy. He is a graduate of the United States Military Academy at West Point and holds a Master of Science in Operations Research and Systems Analysis from the Naval Postgraduate School. As part of Cyberlux’s Defense Board of Advisors, General Anderson will advise on strategic logistics operations, sustainability programs, and GIS project execution, including critical support infrastructure for U.S. and allied military forces operating across forward-deployed and austere environments. Announcement • May 06
Cyberlux Corporation Unveils New Heavy Lift Group 1 Rotary Wing UAS for U.S. Special Operations Community Cyberlux Corporation announced the development of its new Group 1 rotary wing UAS, specifically tailored for the U.S. Special Operations community. This cutting-edge platform is engineered to carry heavier payload for longer durations, while maintaining optimal performance in dense electronic warfare (EW) environments. Leveraging recent advancements in low-latency, anti-jam communication capabilities, Cyberlux has embedded resilient waveform technology directly into the UAS architecture. These innovations allow for reliable First Person View (FPV) operations and seamless communication in highly contested environments, supporting critical mission execution in the most complex scenarios. The newly developed heavy lift UAS platform represents the culmination of Cyberlux's internal R&D efforts and real-world mission insights, delivering an unparalleled solution for military and defense applications that demand high performance, payload capacity, and operational flexibility. Announcement • Jan 31
Cyberlux Corporation Showcases Advanced Rotary Wing UAS at US SOCOM TE 25-1 / Arctic Warrior Experiment Cyberlux Corporation participate in the US Special Operations Command (SOCOM) TE 25-1 /Arctic Warrior Experiment. This pivotal event is focused on testing and demonstrating cutting-edge technologies at Technology Readiness Level (TRL) 3 or higher, designed to empower U.S. and NATO Special Operations Forces (SOF) in Arctic operational environments. Cyberlux is unveiling an innovative variant of its rotary wing UAS, engineered specifically for sustained operations in GPS- and radio frequency-denied environments. This platform integrates advanced capabilities developed in partnership with OKSI Inc., leveraging their proprietary "Omniscience" Artificial Intelligence model. The collaboration brings the following key enhancements to Cyberlux's UAS technology: Visual Inertial Odometry (VIO): Enables precise navigation and positioning without reliance on GPS, critical for Arctic and electronic warfare (EW) environments. Automated Target Recognition (ATR): Advanced machine learning algorithms for rapid identification and classification of targets. Machine Learning Integration: Ensures adaptive decision-making and autonomous operations in dynamic, high-threat environments. Held inena, Norway, the Arctic Warrior Experiment brings together multiple NATO SOF teams to evaluate next-generation solutions for Arctic deployment. The event allows participating forces to interface with industry leaders like Cyberlux, fostering collaboration that accelerates the development and adoption of mission-critical technologies. OKSI's Omniscience AI model plays a transformative role in ensuring Cyberlux's UAS can effectively navigate, identify, and engage targets even in heavily jam EW scenarios. This capability underscores Cyberlux's commitment to delivering resilient, state-of-the-art solutions tailored to the evolving needs of modern warfare. 
