Modelpoint is an advanced analytics platform designed to accelerate mission impact by leveraging scalable data science and innovative technologies. Operating through a secure and interoperable multicloud architecture, Modelpoint integrates seamlessly with industry partners and government tools via an open application programming interface (API), all while adhering to stringent zero trust cybersecurity protocols. Its massively scalable design supports distributed storage and processing, utilizing powerful graphics processing unit (GPU) caching for enhanced computational efficiency. The platform orchestrates the collection and automated exploitation of diverse data through dynamic model stacks, incorporating advanced algorithms such as computer vision, spatial statistics, and machine learning techniques. Additionally, Modelpoint enables the integration of both unclassified and classified data sources, ensuring comprehensive support for critical missions across various domains.
C4KISR is an advanced system developed by CETC, a state-owned enterprise specializing in C4ISR (Command, Control, Communications, Computers, Intelligence, Surveillance, and Reconnaissance) solutions. This innovative platform offers comprehensive power information support for various military branches, enhancing national security and operational effectiveness in local conflicts and counter-terrorism efforts. The system's modular design allows for seamless configuration across strategic, tactical, and operational levels, ensuring a unified and transparent battlefield environment. By integrating command and control with information sensing, processing, countermeasures, and guarantees, C4KISR significantly improves command efficiency, reduces feedback time, and strengthens decision-making capabilities across land, sea, and air operations.
HII Integrated Digital Shipbuilding (iDS) revolutionizes the shipbuilding process by employing cutting-edge technologies such as laser scanning, augmented reality, modeling and simulation, and additive manufacturing. This innovative approach transitions traditional two-dimensional paper-based instructions to advanced digital formats, significantly enhancing efficiency, safety, and affordability in ship construction. Currently, iDS is being utilized in the construction of the aircraft carrier Enterprise (CVN 80), marking it as the first ship to be built entirely paperless, alongside its application in the Columbia-class submarine construction.
HII Integrated Digital Shipbuilding (iDS) revolutionizes the shipbuilding process by employing advanced technologies such as laser scanning, augmented reality, modeling and simulation, and additive manufacturing. This innovative approach enables a transition from traditional two-dimensional paper-based instructions to fully digital formats, significantly enhancing efficiency, safety, and cost-effectiveness. Currently, iDS is being utilized in the construction of the aircraft carrier Enterprise (CVN 80), marking it as the first ship to be built entirely paperless, as well as in the submarine construction of the Columbia-class.
HII Nuclear-Powered Aircraft Carriers represent the pinnacle of naval engineering, designed to meet the evolving demands of modern warfare. As the sole designer and builder of these advanced vessels in the United States, HII is currently focused on the Gerald R. Ford-class carriers, which incorporate cutting-edge technologies for enhanced flexibility and survivability. These nuclear-powered giants are not only capable of launching and retrieving aircraft with precision but also function as self-sustaining cities at sea, equipped with power plants, medical facilities, and waste management systems. With a commitment to innovation and excellence, Newport News Shipbuilding is dedicated to constructing the next generation of aircraft carriers that will serve the U.S. Navy for decades to come.
HII Sustainment of C5I Systems Afloat provides comprehensive support for the modernization and installation of integrated C5I systems on naval platforms, including carriers, surface ships, submarines, and special purpose craft. Our Alteration Installation Teams (AITs) are dedicated to rapid technology insertion, ensuring that existing shipboard systems meet emergent mission requirements. With certified experts operating under ISO registered procedures, we deliver extensive design, engineering, and Integrated Logistics Support (ILS) services tailored to surface ship modernization programs. Our strategically located infrastructure across major fleet concentration areas facilitates efficient manufacturing, fabrication, and repair for C5I platform projects, enabling seamless turnkey installations of critical systems such as Flight Control, Tactical Networks, Surveillance, Navigation, and Communications.
HII Sustainment of C5I Systems Ashore provides comprehensive solutions for the integration and lifecycle sustainment of complex Command, Control, Communications, Computers, Combat Systems, and Intelligence (C5I) systems at shore facilities. Our services include system integration across network infrastructure, command and control systems, communications systems, and physical security systems, ensuring seamless operation and modernization. Our Alteration Installation Teams (AITs) support both the modernization of existing facilities and the design and installation of new integrated C5I systems. We deliver total lifecycle sustainment services that encompass design, engineering, and Integrated Logistics Support, ensuring that warfighters have fully operational and sustainable C5I systems to meet their mission needs.
Airbus is playing a crucial role in NASA's Artemis program through the development of the European Service Module (ESM) for the Orion spacecraft, which is set to enable human exploration of the Moon. As the "powerhouse" of Orion, the ESM provides essential services such as propulsion, power generation, and life support, including water and breathable air for astronauts. This significant achievement marks Airbus as the first non-U.S. provider to deliver a mission-critical component for an American human spaceflight mission. The ESM is integral to upcoming Artemis missions, particularly Artemis III, which aims to land astronauts on the lunar surface and expand our understanding of the Moon and its resources. Through this partnership, Airbus is contributing to a new era of lunar exploration and international collaboration in space.
Airbus is at the forefront of Mars exploration, leveraging its extensive experience from past interplanetary missions, including the Mars Express launched in 2003. The company is currently developing the ExoMars rover, set for launch in 2028, which aims to search for signs of life and investigate the history of water on Mars. Named after British scientist Rosalind Franklin, this six-wheeled rover features an advanced autonomous navigation system that allows it to traverse the Martian surface more efficiently than traditional remote control methods. Equipped with a drill capable of sampling up to two meters deep and a 3D panoramic camera for detailed imaging, the rover will analyze samples onboard and transmit data back to Earth, contributing significantly to our understanding of the Red Planet. Additionally, Airbus is involved in the Mars Sample Return mission, further solidifying its role in humanity's quest to explore Mars.
The Space Data Highway is an innovative satellite communication network developed by Airbus, designed to facilitate ultra-fast data transfer between space and ground stations. This cutting-edge system leverages laser communication technology to provide high-capacity connectivity for various applications, including Earth observation, scientific research, and disaster management. By enabling real-time data transmission at speeds significantly faster than traditional radio frequency systems, the Space Data Highway enhances operational efficiency and supports critical missions in space. With its ability to connect multiple satellites and ground infrastructures seamlessly, this advanced network represents a significant advancement in space communications, ensuring that vital information can be shared quickly and securely across the globe.
Airbus has introduced the High Performance Radiator technology (HiPeR) to enhance thermal control in space applications. HiPeR Flexlinks are advanced thermal straps designed to efficiently conduct heat on-board spacecraft, boasting a conductance-to-mass ratio that is three to five times greater than traditional solutions. These highly flexible straps provide a versatile approach to thermal management while ensuring mechanical decoupling. With a Technology Readiness Level (TRL) of 9, HiPeR Flexlinks are already operational in various missions, including Telecom, Science, Earth Observation, and megaconstellations. Available as catalogue items, they have an average lead time of approximately four months and are accessible to commercial customers worldwide.
Airbus has introduced its High Performance Radiator technology (HiPeR) to enhance thermal control in space applications. HiPeR Flexlinks are innovative thermal straps designed to conduct heat efficiently aboard spacecraft, featuring an exceptional conductance-to-mass ratio that is three to five times greater than traditional solutions. These extremely flexible straps provide a versatile approach to thermal management while ensuring mechanical decoupling. With a Technology Readiness Level of 9, HiPeR Flexlinks are already deployed in various missions, including Telecom, Science, Earth Observation, and megaconstellations. Available as catalogue items with an average lead time of approximately four months, these thermal straps cater to commercial customers worldwide, ensuring optimal performance in demanding space environments.
Airbus has pioneered the development of High Performance Radiator technology (HiPeR) to enhance thermal control in space applications. The HiPeR Flexlinks are innovative thermal straps that offer exceptional heat conduction capabilities, boasting a conductance-to-mass ratio three to five times greater than traditional solutions. Designed for flexibility and mechanical decoupling, these thermal straps meet diverse thermal control requirements for spacecraft. Currently at Technology Readiness Level 9 (TRL9), they are utilized in various missions, including Telecom, Science, Earth Observation, and megaconstellations. Available as catalogue items with an average lead time of four months, HiPeR Flexlinks are accessible to commercial customers globally.
The NORINCO Fire Strike is a cutting-edge firearm designed for precision and reliability in various operational environments. Engineered with advanced materials and technology, this weapon offers exceptional performance, ensuring accuracy and durability under demanding conditions. With a user-friendly interface and customizable features, the Fire Strike caters to both professional users and enthusiasts alike. Its robust design is complemented by a sleek aesthetic, making it not only functional but also visually appealing. Whether for tactical applications or recreational shooting, the NORINCO Fire Strike stands out as a top choice for those seeking quality and performance in their firearms.
NORINCO Fire Strike is an innovative product designed for outdoor enthusiasts and tactical professionals, offering a reliable and efficient solution for various scenarios. With a sleek design and advanced features, it ensures optimal performance in challenging conditions. The Fire Strike is built with high-quality materials, emphasizing durability and ease of use. Its user-friendly interface allows for quick deployment, making it an essential tool for camping, survival situations, or emergency preparedness. Whether you're an adventurer or a first responder, NORINCO Fire Strike delivers the reliability and functionality you need to succeed in the field.
