Mission Computing

Application: Mission Computing
Mission Computing

Simplify your Mission Processing and Communication Systems with a Modular Open System Approach

Our Modular Open System Approach (MOSA) to Building Mission Processing Systems, Modules, and Secure Data and Communications Links Enables Them to Scale and Evolve at the Speed of Technology. MOSA Allows Proven Technology Blocks to be Reused for Scalability Across Platforms and Form Factors and Builds in a Versatile Security Framework Enabling Them to be Deployed Anywhere.

Command & Control Solutions

Our mission computing solutions are as varied as the domains they serve and feature the latest technology from partners including Intel, NVIDIA, Xilinx, and Cisco for their performance, expansive ecosystems of IP, and interoperability. To reduce your program complexity and risk, we simplify technology by using a MOSA to create a broad portfolio of scalable system building blocks that are easy to combine and use.

Embedded Computing Modules
Trusted and proven SBC, DSP, FPGA, GPGPU, networking, I/O and storage modules in various form factors.
Communications & Networking
Our field-proven solutions provide the core capabilities for secure mobile networks onboard land, sea, and airborne platforms.
Computing Systems
Ensure your command & control success with systems backed by modular open standards.
Tactical Data Link Processing
Enabling secure, interoperable tactical data link (TDL) communications with TCG TDL processing and management solutions.
Enclosures & Consoles
Design, analysis, integration, and qualification testing of integrated MIL-SPEC enclosures and consoles.
Data Storage & Recording Solutions
Innovative data recording and storage systems, modules, and drives with encryption.
Video Systems & Displays
Enhance situational awareness with video acquisition, management, recording and display solutions.

Deploy Better C2 Processing Systems Faster with MOSA

In the face of relentless competition, modern C2 processing systems are leveraging the latest commercially developed technology to stay ahead of rivals with greater capability and interoperability. Using the latest technology requires new approaches to system building. Curtiss-Wright uses a MOSA to design and build our C2 processing modules and systems. A MOSA speeds deployment, is easier to refresh after deployment, and enables application portability. Learn how MOSA can reduce your program schedule and cost while adding differentiating capabilities.

Secure Wireless for Tactical, Expeditionary, and Deployable Communications

The National Security Agency (NSA) Commercial Solutions for Classified (CSfC) program protects classified data by leveraging a two-layered approach using commercial security components. Compared to a traditional government-off-the-shelf (GOTS) Type 1 approach, a CSfC solution can be fielded in months instead of years and for a fraction of the investment.

 

Proven Built-In Security for the Most Contested Missions

Security is critical for modern aerospace missions and is increasingly mandated for new programs and technology refreshes. An effective security approach that spans software, firm, and hardware is most effective and less costly when a flexible security framework is built-in. Our enhanced TCOTS, CSfC, security-enabled data, and communication links create seamless layers of security to protect missions in the most contested environments.

Learn More

Integrated Data Links Made Simple

Current tactical data links (TDL) are typically comprised of a network of participants using different radios and computer systems attempting to exchange information with each other using a multitude of different, non-interoperable protocols and messaging systems. TCG TDL technology is a force-multiplier that translates each tactical protocol/language, enabling different data links to seamlessly communicate clearly and efficiently. Learn how the navy used TCG solutions to simplify their data links.

System Miniaturization Adds Mission Capability to Small Mobile Platforms

System integrators continuously seek more efficient SWaP and lower-cost sensor/vetronics/avionics processing systems for unmanned platforms. Our groundbreaking miniaturization of mission processor and network switch subsystems enables smaller ground, air, and sea platforms to expand their mission capabilities with rugged ultra-small form factor (USFF) processing systems.