The Wide Area Long-Range Surveillance Sensor (WALRSS) is a state-of-the-art cooled mid-wave infrared camera developed by L3Harris, specifically designed for long-range surveillance and security applications. This highly sensitive camera is available in two configurations, allowing for scalability to meet diverse user requirements. Featuring a 640 x 512 InSb mid-wave infrared sensor paired with a continuous zoom lens, WALRSS incorporates enhanced image processing capabilities that enable effective man-detection at extended distances. With its advanced technology and flexibility, the WALRSS provides reliable surveillance solutions for various operational environments, enhancing situational awareness and security for users.
L3Harris offers advanced Weapon Handling Systems (WHS) and Storage Systems specifically designed for surface combatants, drawing on extensive experience to deliver modular solutions that meet diverse customer requirements. Our WHS is tailored to accommodate the most exacting specifications, providing flexibility in operation modes—manual, remote, or automatic—ensuring efficient and rapid loading and unloading operations. With a focus on enhancing operational effectiveness and safety, L3Harris' weapon handling solutions are engineered to support a wide range of munitions and are adaptable to various naval platforms, making them a vital component of modern maritime warfare capabilities.
L3Harris specializes in Waveguide Design, Fabrication, and Installation, offering comprehensive support for new construction and ship repair projects. Our expertise extends to designing and installing advanced waveguide systems, including Super High Frequency (SHF) and Extremely High Frequency (EHF) SATCOM solutions. We maintain a full suite of machinery, tooling, and test equipment to fabricate, finish, and test all types of waveguides operating within the 2-46 GHz range. With proven processes in place to ensure critical flange and waveguide alignment during brazing, L3Harris delivers reliable and high-performance waveguide systems that meet the rigorous demands of modern naval operations.
L3Harris presents ZHIVAGO, a groundbreaking system that enables zero human intervention through automatic grasping operations, significantly enhancing the capabilities of unmanned systems. This innovative technology allows for precise and reliable handling of objects in various operational environments, reducing the need for human oversight and increasing efficiency in tasks such as logistics and maintenance. ZHIVAGO's advanced automation features ensure that operations can be conducted safely and effectively, even in challenging conditions. With its focus on enhancing operational autonomy, L3Harris is at the forefront of developing solutions that redefine the role of unmanned systems in modern maritime and defense applications.
L3Harris offers advanced Visual Landing Aids for helidecks and helipads, designed to enhance safety and operational efficiency during aircraft landings. These aids are NVG-compatible and NVG-friendly, allowing for use with both the unaided eye and night vision goggles. The fully integrated solution features a display control panel and software-programmable LED technology, enabling precise dimming from 0 to 100% for optimal performance in both day and night conditions. Additionally, the Shine GSI incorporates an adaptive light engine that adapts to various night vision goggles versions, ensuring reliable visibility and guidance for helicopter operations in diverse environments. This innovative technology significantly improves landing accuracy and safety for aviation operations on maritime platforms.
L3Harris introduces the Vigilant™ family of digital radar Electronic Support Measures (ESM) solutions, representing over 60 years of expertise in detecting, protecting, and projecting naval power globally. As a leader in maritime ESM technology, L3Harris provides advanced solutions for allied naval surface and subsurface vessels, with systems installed in more than 20 maritime fleets worldwide. The Vigilant™ family leverages our extensive experience to deliver digital, software-defined radar ESM capabilities that enhance situational awareness and operational effectiveness. These innovative solutions are designed to meet the evolving needs of modern naval operations, ensuring that allied forces maintain a strategic advantage in any environment.
The Symphony® Communications Manager by L3Harris is an advanced solution that enables a single operator to effectively manage complex communications from a mission perspective, significantly enhancing vessel performance while reducing costs. This innovative system features multiple high-level views accessible from anywhere on the network, ensuring critical mission-support functionality. With a secure, platform-independent design and modern open architecture software, Symphony® allows deployed vessels to import communications plans seamlessly from shore facilities. This capability not only streamlines operations but also ensures that naval forces can maintain optimal communication effectiveness in dynamic maritime environments.
L3Harris TYR4™ is an advanced operational tool designed to empower operators in executing complex missions with enhanced initiative. Utilizing field-proven software, TYR4 operates within a flexible and secure hardware architecture, providing essential capabilities for mission success. Key features include the management of local sensor and data link tracks through auto-correlation, track search, and track purge functionalities. Additionally, TYR4 facilitates the vectoring of a ship’s rigid-hulled inflatable boat (RHIB), helicopter, and coordinating units by employing a comprehensive set of graphical decision aids. This innovative system enhances situational awareness and operational effectiveness, making it an invaluable asset for modern maritime operations.
L3Harris Unmanned Conversions leverage the ASView™ Control System to transform existing vessels into autonomous or unmanned platforms, offering a cost-effective solution for organizations seeking to enhance their operational capabilities. This innovative approach allows for the exploration of unmanned system functionalities tailored to specific tasks while maximizing the utility of current assets. The ASView system has successfully been implemented in the conversion of various vessels, including Rigid Inflatable Boats (RIBs), survey vessels, and powerboats, enabling them to operate autonomously. By integrating advanced control technologies, L3Harris facilitates the transition to unmanned operations, ensuring increased efficiency and flexibility in maritime missions.
L3Harris Visualization Framework (VF) is an open architecture display application environment designed to facilitate the collaborative development of geographic-based displays and decision aids. This innovative framework abstracts the complexities of map implementation, allowing content developers to focus on higher-level functionalities through a simplified application programming interface. The VF employs a plug-in architecture, enabling seamless integration of various modules and tools that enhance situational awareness and decision-making capabilities. By providing a flexible and user-friendly platform, L3Harris ensures that organizations can effectively visualize data and support command and control operations in dynamic environments, ultimately improving operational efficiency and response times.
L3Harris, in collaboration with prime contractor General Dynamics, delivers the Submarine Total Ship Monitoring System (TSMS), a critical solution for the U.S. Navy. This advanced monitoring system integrates telemetry and interface electronics, serving as the core of the TSMS to provide comprehensive oversight of submarine operations. The system includes features such as self-noise monitoring, which enhances situational awareness and operational effectiveness by ensuring optimal performance of submarine systems. By leveraging cutting-edge technology, L3Harris supports the Navy's mission to maintain the highest standards of safety and efficiency in submarine operations.
L3Harris specializes in the development and production of advanced Submarine Towed Arrays, including programs such as the Compact Towed Array (CTA) and the Towed Array Integrated Product Team (TAIPT) telemetry. Our offerings encompass the production and support of the TB-34A and TB-29 lightweight tow cables, ensuring optimal performance for naval operations. As a key team member of the Naval Array Technical Support Center, L3Harris also provides comprehensive support for fleet-towed systems. Our TAIPT telemetry sets the standard for submarine, surface ship, and surveillance towed arrays, reflecting our commitment to delivering innovative solutions that enhance maritime capabilities and operational effectiveness.
The TB-37(U) Multi-Function Towed Array is a vital sensor system that enhances surface ships' capabilities to detect, localize, and engage undersea threats effectively. Developed in collaboration with prime contractor Lockheed Martin, L3Harris plays a key role in the production of the TB-37(U) by providing Towed Array Integrated Product Team Telemetry and other essential subcomponents. This advanced system is also transitioning to Compact Towed Array Telemetry, ensuring improved performance and adaptability in various operational scenarios. With its cutting-edge technology, the TB-37(U) significantly contributes to maritime security and the operational readiness of naval forces.
L3Harris SPATIAL is an advanced shipborne system that leverages the ONR/NRL CESARS and SPECSS NC investments to enhance the U.S. Navy's Shipboard Passive Electro-Optical Infrared (SPEIR) program. This innovative solution features an open architecture design that integrates shipboard-installed electro-optical (EO) and infrared (IR) sensors to deliver comprehensive visual surveillance capabilities. SPATIAL provides passive surveillance, detection, and cueing, significantly improving situational awareness and operational effectiveness for naval vessels. By utilizing mature technology, L3Harris ensures that the SPATIAL system meets the demanding requirements of modern maritime operations, enhancing the Navy's ability to monitor and respond to potential threats in real-time.
