How Can DOD Accelerate Space Technologies for JADC2?

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How Can DOD Accelerate Space Technologies for JADC2?

Enabling data integration, tech transformation, and AI

Digital satellite technologies are critical to collect, connect, analyze, and deliver data central to听Joint All-Domain Command and Control (JADC2). Yet the challenges are formidable, ranging from modernizing existing space-related assets to applying artificial intelligence and machine learning (AI/ML) at the edge鈥攁nd on to developing, integrating, and securing the satellite network that will serve as the backbone for JADC2 communications.听

As a premiere digital integrator for the federal government, we鈥檝e developed a holistic perspective to help accelerate the path to rapid, integrated decision making and fast action in the听digital battlespace.

As a听trusted space partner听to the U.S. government, 蘑菇视频 Allen helps clients modernize capabilities for today鈥檚 greatest space challenges:听

Weaponization of space:听The U.S. must stay ahead of adversaries threatening space systems critical to our nation鈥檚 security, commerce, and way of life.
Addressing climate change:听Space-based earth observation is essential to research.
Congestion:听Tracking and protecting space assets is critical as satellite constellations grow exponentially.

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Modeling the Mission

Our support includes technical work to help establish the big picture. 鈥淲e help with a lot of modeling and simulation activities for mission forecasting and planning,鈥� says Ron Bitten, who leads 蘑菇视频 Allen teams innovating with clients such as the Space Force and U.S. Space Command.听

Being able to test varied scenarios helps speed the process and ensure that technology is aligned with mission needs, whether for an operator at a forward location听or a senior leader who needs to make a decision at the speed of operational relevance. It also helps in implementing cybersecurity for听space鈥攐nce considered a pristine environment, but now a contested domain.

鈥淒ata Is Going to Reign鈥�: The Need for Open Data Platforms

鈥淭here's an extremely good chance that any future conflict is going to be much more steeped in nonkinetic activities than it is in a shooting war. Therefore, data is going to reign,鈥� Ron says. 鈥淲hoever has a resilient way to control that data, maintain that data, integrate that data, and apply that data鈥攖hey鈥檒l be on the victorious side of any conflict. And听the ability to move and manage that data is going to be heavily dependent on space.鈥澨�

Many of the foundational capabilities needed begin with the data itself. Our technologists move initiatives ahead to help achieve听information superiority, such as:

Data integration using听next-generation solutions听to enable a government-owned data platform听听听
Technical development for an听integrated data fabric听to make data secure, discoverable, and synchronizable
Cybersecurity to protect data听wherever it is, whether in a database or in transit across ground terrestrial networks and edge devices

A strategic way to ensure connectivity and agility is to build the network on听open data platforms, which allow for modular changes as mission needs evolve. Concepts can then be rapidly built, tested, refined, and scaled for operational use. Open data platforms also allow for more solutions providers to bring capabilities as technology evolves.

Agile Satellite Fleets for the JADC2 Network

One transformational change is the planned use of听听for the satellite network that will integrate JADC2 communications. 鈥淭here are multiple positive effects to using small satellites. One, we can build and launch them faster and cheaper. And with a fleet, you can build in redundancy. If one satellite is rendered inoperable, another can likely pick up its mission, adding improved resiliency,鈥� says Ron.

He emphasized the revolutionary benefits of faster development. 鈥淚n your traditional days of building satellites, it took 5 to 10 years on the low end to build a system and get it on orbit. In today鈥檚 environment, the threat鈥攅specially the cyber threat鈥攊s evolving so fast that by the time you launch it, it鈥檚 already vulnerable.鈥澨�

Digital engineering听allows the military to develop, test, and manage technologies with seamless data integration. Ron notes that adding flexibility to acquisition processes would accelerate innovation, as requirements could be changed to address new threats as a program is developed.听

Connecting Space Data Across Domains

In addition to building and implementing the network itself,听听with ground stations and devices as well as the command and control networks the services are building to connect with JADC2鈥攖he Air Force鈥檚 Advanced Battle Management System (ABMS), the Army鈥檚 Project Convergence, and the Navy鈥檚 Project Overmatch.听

Open data platforms running on truly open frameworks听provide a flexible solution for connectivity. Government-owned application programming interfaces (API) allow the Department of Defense (DOD) to plug in any technology to test it rather than integrating it into a proprietary interface, reducing a process that could take weeks or months to mere seconds.

See principles for building secure, adaptable space systems 鈥� Read now.

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Modernizing Legacy Satellite Systems

Relying on LEO satellite fleets is the path for the new network that will serve as the JADC2 satellite backbone, but modifying systems already on orbit is essential for the networks that will connect to that network.

鈥淲e鈥檙e moving to an era where a software-defined radio approach will essentially turn satellites into 鈥榮mart satellites鈥� and will enable timely updates to onboard cyber defenses to address new threats and other near-real-time configuration updates on orbit,鈥� Ron notes. As part of our digital engineering initiatives, 蘑菇视频 Allen is helping DOD innovate with technologies such as听digital twins, which allows the military to find and听听as well as test new ones in development.听

We also invest in research and development such as our听5G labs, helping clients customize strategies for their mission while mitigating cybersecurity risk.听

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AI Across the Mission

Although delivering data is essential for JADC2, analysis is just as important. 鈥淒ata is only effective if you can apply knowledge to it. The human brain just doesn't have the capacity to go through the plethora of data we collect and decide quickly enough to respond to an imminent threat,鈥� Ron says.听

Our technologists work to advance AI in a range of areas. Some projects are breakthroughs in human-machine teaming: We developed an algorithm for the U.S. Air Force to test as the听U.S. military鈥檚 first AI copilot. Others are defensive, for example, leading research in adversarial AI to prevent an attacker from tricking our algorithms. We also help defense organizations scale AI throughout the enterprise through听AI operations (AIOps).

Insights at the Edge

One of our most powerful AI capabilities is听deployment of AI at the tactical edge听to support low size, weight, and power scenarios. We integrate models into existing hardware and equip edge nodes to send pared-down outputs so a more robust computing environment can improve the models and upload them to cloud-based networks for broader situational awareness in addition to relaying information back to the warfighter.

We also听use AI to transform space missions: tracking objects in space, working with DOD to improve command and control, analyzing satellite data faster using computer vision, and advancing AI for more complex tasks such as predictive analytics.

Speed, Cybersecurity, and Resiliency: DevSecOps for Integrated Development

Security is DOD鈥檚 #1 priority. Yet with threats continually evolving, how can cyber protection be kept up-to-date? We secure clients鈥� systems by combining industry-leading cybersecurity innovation and automated processes into our听open-source DevSecOps听software development practices.

As a leader in听secure cloud development听for defense and intelligence organizations, we offer approaches and tools that help clients modernize faster. And with features like听advanced release strategies and automated compliance, we accelerate improvements to ensure systems can remain operational even after an attack.听

Resiliency is especially important for satellites. 鈥淎 lot of the data we鈥檙e most interested in is found in denied territory,鈥� Ron says. 鈥淓nsuring satellites can collect that data and that the military can download it is most important in areas where the stakes are the highest.鈥�

Explore Platform One, the federal government鈥檚 first DevSecOps enterprise-level service 鈥� See features.

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A Mission-Centric Partner for JADC2

Ron emphasizes that mission understanding needs to drive every solution鈥攖eams need a mindset not to develop 鈥渁nother widget,鈥� but rather to deliver on JADC2 goals in support of Combatant Commander objectives. Our decades of partnership with DOD and focus on hiring veterans allow us to couple strategy with technology. He notes, 鈥淲e鈥檙e helping in areas critically important for evolving the space capabilities and making them more joint鈥攁nd therefore more operationally relevant.鈥�