We officially launched a partnership with Brazil’s National Institute of Telecommunications (Inatel) to develop next-generation 5G/6G technologies and connected devices. The collaboration will focus on designing an advanced 5G/6G Wi-Fi hotspot platform as well as wearable devices for athletes that enable immersive AR/VR fan experiences in live sporting events. This joint effort combines cutting-edge telecommunications research with real-world deployment expertise to accelerate innovative applications in connectivity, interactive media, and next-generation digital entertainment.

We presented our latest research, “Taking Cyber Warfare to the Airwaves: Virtualized EW and DEW Systems Using Sparse Arrays and Software Defined Radios,” at the 2025 International Conference on Computational Science and Computational Intelligence (ICCSCI). The presentation demonstrated how sparse array architectures combined with software-defined radios enable scalable, virtualized Electronic Warfare (EW) and Directed Energy Warfare (DEW) capabilities. The work highlighted advances in adaptive beamforming, distributed sensing, and software-driven deployment models that significantly reduce system cost and complexity while enabling rapid operational reconfiguration for modern defense environments.

Our Brazilian private 5G/6G ISP pilot project officially went live, marking a major milestone in delivering next-generation broadband services to residential communities. The deployment demonstrates how condominium-based private 5G/6G infrastructure can provide high-speed, low-latency connectivity while enabling smart community services, IoT integration, and advanced digital experiences. The pilot program serves as a foundation for scaling private network deployments across Brazil, supporting both residential and commercial developments with reliable, future-ready communications infrastructure.

We participated in the IEEE International Conference on Space Mission Challenges for Information Technology and the Space Computing Conference (SMC-IT/SCC 2025), presenting our latest work on advanced communications, computing, and software-defined systems for next-generation space missions. The event brought together leaders in space systems, flight and ground computing, and mission operations, providing an important forum to showcase technologies supporting resilient communications, scalable processing architectures, and future space mission capabilities.

We presented our research on next-generation 7G cognitive radio systems at the 2025 World Congress in Computer Science, Computer Engineering, and Applied Computing (CSCE). The work highlighted advances in AI-driven spectrum awareness, adaptive communications, and intelligent network optimization designed to support future ultra-high-capacity wireless systems. The presentation demonstrated how cognitive radio technologies will play a central role in enabling resilient, autonomous communications across commercial, smart city, and defense applications.

We conducted a private 5G network demonstration for a major condominium developer planning a new 65,000-resident community that will serve as both the initial commercial deployment and a large-scale technology testbed. The project will leverage our private 5G infrastructure and next-generation Wi-Fi hotspot platform to deliver high-speed connectivity, smart community services, and immersive AR/VR experiences. The developer’s partnerships with Brazilian athletes and major sporting event promoters also open opportunities to deploy next-generation fan engagement technologies and connected services throughout future residential and event-focused developments.

We successfully conducted demonstrations showcasing our advanced 5G NR SA infrastructure tailored specifically to meet Navy and Air Force tactical requirements. These demonstrations featured our innovative 5G/Any G IoT platform and provided deep insights into military applications of network slicing and Multi-Access Edge Computing (MEC). The event emphasized secure communications, real-time resource allocation, and robust network performance essential for modern military operations.

We demonstrated our 5G NR SA infrastructure meeting the U.S. Army Tactical Mobility Down-link Threshold requirements using a software-defined radio as the 5G NR RU and a tactical deployment of the RAN and Core Network on a 128-core next-gen ARM AI server. Additionally, we showcased a new 150-gram 5G/Any G IoT platform operating as a secure, multi-enclave 5G Wi-Fi hotspot, integrated into a quadcopter drone as part of a comprehensive multi-level AI demonstration.

We successfully presented our work, "A High-Performance 5G/6G Framework for Smart Cities Supporting Multi-Level Artificial Intelligence," at the IEEE-sponsored 2nd International Conference on Advanced Innovations in Smart Cities in Jeddah, Saudi Arabia. Our demonstration featured a fully integrated 5G/6G system, showcasing real-time AI-driven decision-making through our multi-level AI platform, supported by our LifeLine emergency response system and LL-MEC integration. The event provided an excellent opportunity to engage with industry leaders and explore future collaborations for advancing smart city technologies.

We conducted a demonstration for representatives of the Missile Defense Agency, showcasing how our advanced 5G waveform and software-defined radio technology can enhance radar capabilities for missile defense and countering modern threats such as drones. Our presentation highlighted the advantages of using 5G-based OFDM and OFTS radar for improved target detection, tracking, and electronic warfare resilience. This engagement provided valuable insights into integrating next-generation telecommunications and sensing technologies for national defense applications.

We conducted a demonstration of our 5G and software-defined radio technology for the Brazilian military strategic command. This showcase underlined our system’s potential for secure, high-performance communications in mission-critical environments and laid the groundwork for future collaborations.

We presented our article, "A Smart City Development and Deployment Platform using a High-Performance 5G/6G System," at the 2024 International Conference on Computational Science and Computational Intelligence in Las Vegas. The talk highlighted how 5G/6G technologies can accelerate smart city initiatives through improved network performance and advanced data analytics.

Our article, "A High-Performance 5G/6G Framework for Smart Cities Supporting Multi-Level Artificial Intelligence," has been accepted to the IEEE-sponsored 2nd International Conference on Advanced Innovations in Smart Cities in Jeddah, Saudi Arabia, to be held February 9–11, 2025. We look forward to sharing our insights on the role of 5G/6G and AI in developing smarter urban environments.

We have extended our user-programmable, secure Wi-Fi hotspot to support 5G/4G/3G/2G networks anywhere in the world. This expansion provides users with broader connectivity options while maintaining the robust security features and flexibility they have come to rely on.

Smaller than a tablet and a bit bigger than a smartphone, this new handset—running Linux or Android—is a fully programmable IoT device offering greater security and far more functionality than traditional cellular devices. It supports 5G/4G/3G/2G networks worldwide, giving users unparalleled control and flexibility.

We are thrilled to announce a significant advancement in our 5G Standalone (SA) system. Building on our foundation of innovation and security, we are now incorporating Post Quantum Cryptography (PQC) into our baseline 5G SA system. This enhancement makes our system the first Zero Trust 5G solution to offer quantum-resistant encryption, providing unprecedented levels of security for next-generation wireless communications.

Stay tuned for more updates as we continue to push the boundaries of secure communications technology.

We are excited to announce the upcoming release of our latest 5G Standalone (SA) system. This groundbreaking system delivers speeds over 1 Gbps to smartphones equipped with Qualcomm SoCs, featuring the only true Zero Trust wireless system available. It is the only end-to-end encrypted 5G SA system, deploying PKI certificates directly from the SIM card in accordance with 3GPP standards. Our cyber-attack strengthened Core Network has been subjected to extensive wargaming to ensure unmatched security.

We have released the first secure, user-programmable 5G Wi-Fi hotspot product. This innovative device supports FIPS/NIST encryption and is compatible with T-Mobile, Verizon, and AT&T wireless plans, ensuring secure and flexible connectivity for users.

We are now taking orders for our new Multi-Enclave Secure RISC-V product lines. These products feature advanced vector cryptography and a tagging system that supports isolated user containers, similar to virtual machines, ensuring unparalleled security. Our product lines cater to various computing needs, from IoT and notebook-class computing with 4 cores to enterprise-scale solutions with up to 32 cores.

We have successfully completed extensive field testing of our 5G SA system at a government facility under extreme environmental conditions. The system, which includes wireless backhauls from RAN to the Core Network, supports high-performance AR and VR applications and various user equipment types, demonstrating its robustness and versatility.

Field testing of our high-performance 5G SA system has commenced. This marks a significant milestone in our mission to deliver cutting-edge wireless technology with unparalleled performance and security features.

We have started lab testing AR/VR applications on our high-performance 5G SA system, achieving 200 frames per second to VR headsets and single-digit millisecond end-to-end system latencies. Our system supports multiple headsets simultaneously, each requiring over 60 Mbps of bandwidth, showcasing its capability to handle demanding applications.