The METEOR 1700S Weather Radar from Leonardo is a sophisticated weather monitoring system designed for high-performance meteorological applications. This advanced radar offers exceptional capabilities for detecting and analyzing precipitation, wind patterns, and severe weather phenomena, providing critical data to support decision-making in various sectors, including aviation and disaster management. Its compact and lightweight design allows for easy installation and mobility, making it suitable for both fixed and mobile operations. With user-friendly interfaces and real-time data processing, the METEOR 1700S ensures that operators can effectively track weather changes, enhancing safety and operational efficiency in challenging environments.
The METEOR 60DX Weather Radar from Leonardo is a compact and versatile weather surveillance system designed for effective meteorological monitoring in various environments. This advanced radar features high-resolution capabilities for detecting precipitation, wind patterns, and atmospheric phenomena, providing critical data for aviation, maritime operations, and environmental assessments. Its lightweight design allows for easy deployment in both stationary and mobile applications, while user-friendly interfaces ensure quick access to real-time data and analytics. The METEOR 60DX enhances situational awareness and supports informed decision-making, making it an essential tool for organizations needing reliable weather information in dynamic conditions.
The METEOR 700S Weather Radar from Leonardo is a high-performance weather surveillance system designed for comprehensive meteorological analysis and monitoring. This advanced radar features cutting-edge technology that provides accurate detection of precipitation, wind patterns, and severe weather events, making it an invaluable tool for aviation, maritime, and environmental applications. Its robust design ensures reliable operation in diverse conditions, while real-time data processing capabilities allow for immediate access to critical weather information. The METEOR 700S enhances situational awareness and supports effective decision-making, enabling users to respond swiftly to changing weather conditions and improve safety in operational environments.
Thesan by Leonardo is an advanced multi-sensor system designed for ground and aerial surveillance, providing comprehensive situational awareness in various operational environments. This cutting-edge system integrates high-resolution electro-optical and infrared sensors, enabling real-time monitoring and target detection under diverse conditions, including day and night. Thesan is particularly effective for military and security applications, offering enhanced capabilities for reconnaissance, intelligence gathering, and threat assessment. Its modular design allows for easy integration onto different platforms, ensuring operational flexibility and adaptability to mission-specific requirements. With its robust performance and reliability, Thesan is an essential tool for modern armed forces seeking to enhance their surveillance and reconnaissance capabilities.
The ARIEL family of Fibre Optic Towed RF Decoys, developed by Leonardo, has been in service with the Royal Air Force since 1990 and offers a robust electronic countermeasure solution against modern RF guided weapons. These decoys effectively counter threats utilizing advanced tracking techniques, including error cancelling monopulse tracking. Designed for reliability and operational effectiveness, the ARIEL decoys enhance the survivability of military assets in complex electronic warfare environments. Their proven track record and continuous evolution make them a critical component in modern defense strategies.
The Blackstone Body-Worn system by Leonardo is an advanced wearable technology designed for military and security personnel, providing enhanced situational awareness and communication capabilities in the field. This innovative system integrates various sensors and communication devices into a lightweight and ergonomic design, allowing users to monitor vital signs, environmental conditions, and tactical information in real-time. The Blackstone system supports seamless data sharing among team members, improving coordination and decision-making during operations. Its robust construction ensures reliability in demanding environments, making it an essential tool for modern forces seeking to enhance operational effectiveness and safety in complex scenarios.
The Blackstone Vehicle Mount Kit by Leonardo is a robust solution designed to securely integrate the Blackstone Body-Worn system into various military and tactical vehicles. This versatile mounting kit allows for easy installation and quick deployment of wearable technology, ensuring that personnel can maintain connectivity and situational awareness while on the move. Engineered for durability, the Blackstone Vehicle Mount Kit is compatible with a range of vehicle types and is built to withstand harsh operational environments. By facilitating seamless communication and data sharing between vehicle occupants and ground teams, this kit enhances operational effectiveness and safety during missions.
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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 Payloads and Sensor Solutions are designed to meet the advanced operational needs of the U.S. Navy, focusing on innovative concepts that minimize costs while maximizing performance. Our solutions integrate seamlessly with existing electrical systems and control software, ensuring optimal functionality in various maritime environments. Utilizing CAD and 3D modeling in SolidWorks, we provide comprehensive design and development services, complete with detailed drawing packages adhering to ANSI Y14.5 drafting standards. With extensive experience in detection and penetration technologies, including net-mitigation systems, towed array stabilization, sonar amplifiers, and tethered solutions, L3Harris is committed to delivering cutting-edge unmanned capabilities that enhance naval operations.
L3Harris Unmanned Vehicle Sensors deliver innovative and cost-effective solutions tailored to meet the sensor requirements of the U.S. Navy. Our technology is adaptable across a range of platforms, including low-power Unmanned Underwater Vehicles (UUVs) and Unmanned Surface Vehicles (USVs) such as the Slocum Glider, Remus, Carina, and Wave Glider. We provide advanced receivers, recorders, and high-frequency hull sensors that enhance operational capabilities in various maritime environments. With a proven track record in sensor technology, L3Harris is committed to supporting the U.S. Navy with reliable and efficient unmanned vehicle sensor solutions that improve mission effectiveness.
L3Harris Sensor Performance Modeling and Planning utilizes an internally developed signal processing engine that operates on a distributed real-time platform, significantly reducing the time required to implement new algorithms or performance enhancements. This advanced development group focuses on delivering innovative signal processing solutions tailored for the U.S. Navy, with a primary goal of improving automated detection and classification of sonar signals. By leveraging multi-disciplinary expertise in adaptive signal processing and physics-based modeling, L3Harris enhances the capabilities of sonar operators, enabling them to effectively detect, classify, and localize targets in complex underwater environments. This commitment to cutting-edge technology ensures that naval forces maintain a tactical advantage over adversaries.
L3Harris SensorXP™ is a cutting-edge maritime autonomous electro-optical/infrared (EO/IR) imaging system designed for surface ship applications, featuring state-of-the-art optronic sights and stabilized platforms. This innovative system offers automatic image processing and stitching capabilities, along with a networked client graphical user interface that allows for manual control and the display of 360-degree views. The SensorXP includes an above-deck sensor unit and below-deck interface electronics unit, providing comprehensive situational awareness in both visible and infrared spectrums. With its advanced technology, SensorXP enhances operational effectiveness by delivering real-time imagery and improving decision-making in complex maritime environments.
L3Harris Acoustic Processing Software and Sensor Enhancements are designed to empower sonar operators with advanced capabilities for detecting, classifying, and localizing underwater targets. By integrating state-of-the-art active sonar processing technology, these solutions provide exceptional flexibility and value to the U.S. Navy. The software leverages modern development methodologies, including generic programming and aspect-oriented programming, alongside traditional object-oriented techniques to optimize performance. The internally developed signal processing engine operates on a distributed real-time platform, significantly reducing the time required to implement new algorithms or performance enhancements in the field. This fast and efficient system is specifically tailored for low-power applications, showcasing L3Harris's multi-disciplinary expertise in adaptive signal processing and detection/estimation techniques, ultimately enhancing operational effectiveness in complex maritime environments.
The Large-Format Wide-Area Surveillance Sensor is an innovative imaging solution designed for users requiring high-quality, wide-area imagery while adhering to size, weight, and power (SWaP) constraints. This sensor delivers exceptional situational awareness through its wide field-of-view (WFOV) and maintains high resolution, enabling the tracking of ground vehicles and individuals while identifying their intent. It effectively eliminates the "soda straw" effect common in traditional Electro-Optical/Infrared systems, allowing for the tracking of multiple targets with enhanced digital zoom capabilities without image pixelation. Optimized for performance, this sensor supports operations up to 30 Hz for 2K x 2K resolutions and 15 Hz for 4K x 4K resolutions. Its applications span various missions including UAV ISR, persistent surveillance, maritime monitoring, border security, and reconnaissance operations, making it a versatile tool for modern surveillance needs.
