Systems Integration
We deliver Systems Integration as a clear, three-phase service that starts with a proven blueprint.
ResilienX Products
Our products and integrations are behind many of the most advanced BVLOS projects in the U.S. and beyond.
The ResilienX Process
Design
Integrate
Assure
1
Design
MBSE blueprinting of requirements, interfaces, hazards, mitigation, validation & verification
2
Integrate
AAM OptiX® provides a vendor neutral data exchange and brokering layer with documented, versioned APIs and schema mediation, giving partners a practical single integration path and business model flexibility
3
Assure
FRAIHMWORK® monitors health, integrity, and performance, detects off nominal conditions, triggers mitigations, and manages maintenance workflows. Evidence is created during operations
Why this approach?
- Faster time to operations
- Preserved vendor choice
- Lower total cost through reuse
- Future proof design
- Security first
- Identity and access control
- Full audit logging
The ResilienX Products
Model-Based Systems Engineering (MBSE) Model Creation and Maintenance
Complex system of systems need to be intentionally conceptualized, designed, and architected, not simply integrated from the bottom-up. It takes mastery of a diverse set of systems engineering proficiencies to blend formal methods and enabling technology into a safe, resilient solution. We provide an MBSE approach to the design of AAM ecosystems for our customers and provide the digital infrastructure for implementation.
Customers across the AAM industry are leveraging our deep background and expertise (INCOSE Certified) in complex and safety critical system of systems design and implementation, to design scalable AAM ecosystems which meet stakeholder requirements. The result is a repeatable, maintainable, and understandable system, with curated engineering documents available to stakeholders, including regulators. Our approach avoids vendor lock and creates a completely “open” system that is fully extensible and scalable.
Benefits
Standards Based Agility
Doing things right the first time, on time, requires mastery. ResilienX leverages its mastery of safety critical systems engineering, leveraging experience with high design assurance software products (via RTCA DO-178C), formal training in System Safety Assessment (via MIL-STD-882E), and certification in Systems Engineering from INCOSE (Certified Systems Engineering Professional).
With these approaches to formal system conceptualization, design, and implementation, and decades of experience as practitioners, ResilienX delivers systems that work the first time to customers in defense and commercial industries. ResilienX applies object-oriented systems engineering methods (OOSEM), tailored to enable contract agility with full lifecycle maintainability throughout the process.
Open Architecture
Regardless of the problem domain, experience has taught us that systems typically break at the interfaces. The cost of latent changes gets overwhelming the further in the lifecycle you go.
While it’s often quicker and easier to design a system to integrate with technology that’s accessible today, change is inevitable. ResilienX products and designs are always geared towards adaptability and robustness. By abstracting appropriate portions of our system designs, we enable minimized costs due to system rework in terms of integration, redesign, and all of the “gotchas” that go along with a complex system of systems through the operations and maintenance phases. Our architectures reflect encapsulation to protect you from factors that inevitably change over time.
Requirements Driven
ResilienX is dedicated to requirements driven engineering. Some companies do this late in the game to satisfy their customers or stakeholders. We do it from day 1, because we know it works. How do you know if you’re done? In a burgeoning industry like advanced air mobility, ResilienX is a beacon of clarity. Requirements are how we say what we will do, and then we do it. Our FRAIHMWORK product is made from a well-managed constellation of hundreds of requirements. When we make a code change, we know precisely whether it breaks any single requirement. When we deploy our products to your application, you can count on a level of continuous integration that ranks amongst the best in the world. ResilienX takes its requirements driven approach to product development, and infuses it into system of systems design. The result is full traceability from top-to-bottom.
Full Traceability
ResilienX products and designs are traceable. Needs are traced to features, features trace to requirements, requirements trace to verification cases, verification cases trace to products (and their elements). This tracing enables rapid identification of the effects of any change in the system. This protects our customers from the classic paradigm of a change in one part of the system breaking another part of the system.
SysML
Our systems engineering services result in SysML models, which describe the solutions we design for our customers, so that they can live on, with minimal waste due to tribal knowledge, lack of traceability, missed steps, and forgotten items yet “to-be-determined”. Modelling languages can be cryptic, and intimidating. We work hand-in-hand with our customers, because we know that without continuous engagement with our customers and stakeholders, the models are of no value.
The MBSE process answers the mail for regulators. The FAA Near Term Approval Process (NTAP), for example, requires a solid handle on how the various enabling systems and components work together safely, from their requirements, functions, and performance, as related to the system of system or services that are to be put into operation.
Advance Air Mobility (AAM) Operations Center
AAM OptiX® provides the core digital infrastructure needed for safe, secure, and scalable AAM operations. AAM OptiX® has been funded by NASA and AFWERX to address the “integration and test tax” needed for a true aviation-grade system of systems solution.
AAM OptiX® represents a collaborative ecosystem approach underpinned by the idea that no one can do it alone.
AAM OptiX® is a web-based digital infrastructure that can be integrated in physical infrastructure, sensors, and data feeds to holistically address air risk and enable safe UAS and eVTOL integration into the National Airspace System (NAS).
Benefits
Common Air Picture
Cooperative surveillance, non-cooperative surveillance, and telemetry data are fused and displayed with a single icon representing each object in the airspace.
Uncrewed Traffic Management
Uncrewed traffic is strategically deconflicted and monitored for conformance with its intended flight plan or operational area.
In-time Aviation Safety Management
Ecosystem component’s health, integrity, and performance is monitored
at all times and mitigations are applied to assist with managing contingencies,
as they arise.
Low Altitude Weather
Low altitude, micro-scale weather modeling and forecasting for craft-specific and route-specific weather risk identification.
Active Cyber Security Monitoring
Proactively monitoring the ecosystem for cyber risks and vulnerabilities and applying mitigations to address active attacks or to close detected vulnerabilities.
Standards Based Interoperability
Open, standards-based architecture and data interfaces are used to promote extensibility and interoperability.
MBSE Model, V&V Results, and Safety Case
Aviation grade design and verification & validation (V&V) of the AAM OptiX® solution, complete with a documented safety case addressing how AAM OptiX® minimizes air risk for uncrewed operations.
Human Factors Considerations
Stakeholder engagement, display heuristics analysis, workload analysis, and end user engagement enable a fit for purpose solution.
Data Brokering
Single integration point enabling data brokering and translation to simplify and accelerate the integration process into future deployment.
Dynamic Constraints
Low altitude airspace contains many risks and they may be dynamic. We automate the process of turning these dynamic risks into constraints which can be utilized for route planning and traffic management.
AAM OptiX® supports numerous applications
The AAM OptiX® digital infrastructure can be integrated with various systems and data feeds to support a variety of use cases and applications across the UAS and AAM landscape.
- Vertiport Networks and
- Vertiport Automation Systems
- Drone-in-a-box Networks
- Autonomy Testbeds
- Regional BVLOS Systems
- Counter UAS Systems
- Disaster Response
In-Time Aviation Safety Management System (IASMS)
FRAIHMWORK® is the industry leading IASMS enterprise SaaS platform which provides the required monitoring, mitigation, and maintenance capabilities for autonomous ecosystems.
These capabilities make up a critical layer in the technology stack for complex system of systems where there is a safety or criticality factor, such as advanced mobility and defense systems. Our solutions ensure your autonomous ecosystems run safely, smoothly, and efficiently at all times.
FRAIHMWORK is a configurable rules engine that works on the data layer and does not require installation of hardware or software on the systems it is monitoring. This architecture allows the software to scale, extend, evolve, and adapt – traits that historic one-off design/development efforts lack.
Functions
Monitoring
Monitors the health, integrity, and performance of systems and data feeds supporting autonomous operations and use cases.
Assessment
Assesses system data to identify adverse or off-nominal conditions and events.
Mitigation
Mitigates issues, automatically or with a human in the loop, to help manage contingencies as they arise.
Maintenance
Maintenance workflows, calendar, and tracking to enable efficient system operations and maintenance (O&M).
Benefits
Increased Safety
Monitor, assess, and mitigate system issues in real time to prevent incidents from happening in the first place.
Maximize Uptime and Availability
Understanding and bounding systems issues lets us work around problems as they are fixed to maximize operational uptime and availability.
Extensible
System agnostic rules engine enables adding new systems and learning from collected data to evolve and extend IASMS capabilities without code changes.
Scalable
Web-native solution is elastic and deployable globally.
Design Principles
- Open by design
- Standards aligned
- Versioned APIs
- Documented schemas
- Vendor choice preserved
- Future proof by policy
- Security first
- AI Ready
Industry Leading Systems Integrator
Why ResilienX
One accountable partner for design, integration, assurance
Security first, hardened interfaces, access control, full audit logging
Open by design, standards-aligned, vendor choice preserved
Built to scale pilot projects statewide, without rebuilds
Future proof, versioned APIs, documented schemas, clear deprecation
AI ready, human oversight, traceable models or rules
Demonstrable safety – evidence created and documented during operations
Faster and cheaper each time as the proven pattern is adopted across regions and grows FAA familiarity
Featured Case Study
Tulsa SAFE-T program: a BVLOS ecosystem built for scale
We delivered a practical single integration path • weeks to onboarding • evidence during operations • security and audit logs in one place
ResilienX used the AAM OptiX® platform to stand up a vendor-neutral data exchange and brokering layer so radar, UTM, weather, and C2 providers could connect with one practical path. FRAIHMWORK® provided in-time assurance and audit-ready logs to advance the program toward persistent operations.
