CAPABILITIES
Platform-Level Mission System Architecture
Platform-Level Mission System Architecture
Platform-Level Mission System Architecture
Aircraft‑level system‑of‑systems design for ISR, EW, autonomy, and multi‑domain effects.
- Avionics interfaces
- Mission computers
- Safety‑of‑flight boundaries
- Platform digital twins
Airborne ISR/EW Integration
Platform-Level Mission System Architecture
Platform-Level Mission System Architecture
Integration of sensors, apertures, processors, and RF payloads into reconfigurable airborne platforms.
- RF pathways
- Sensor fusion
- Power/cooling architecture
- Mission‑system racks
- Airworthiness‑aligned integration
Prime-Level Governance & Capability Design
Platform-Level Mission System Architecture
Prime-Level Governance & Capability Design
Frameworks that protect U.S. technical advantage and enable classified or export‑controlled development.
- Requirements decomposition
- Mission‑thread governance
- Export controls strategy
- Configuration management
Digital Engineering for Mission Systems
Aviation Domain Mastery Test, Certification, Operations
Prime-Level Governance & Capability Design
A complete digital backbone for airborne integration.
- MBSE
- Digital thread
- Digital twin
- Mission‑system modeling
- Configuration control
Aviation Domain Mastery Test, Certification, Operations
Aviation Domain Mastery Test, Certification, Operations
Aviation Domain Mastery Test, Certification, Operations
Operationally credible aviation expertise spanning test, certification, and flight operations.
- Airworthiness documentation
- Flight test planning
- Safety analysis
- Mission rehearsal
- Platform sustainment
Mission-Thread Engineering
Aviation Domain Mastery Test, Certification, Operations
Aviation Domain Mastery Test, Certification, Operations
End‑to‑end effects modeling for ISR, EW, autonomy, and multi‑domain kill webs.
- Sensor → processor → comms → operator
- Effects chains
- Multi‑INT integration
- Autonomy pathways
Electromagnetic Materials Science
Einstein Applied Sciences Laboratory
Einstein Applied Sciences Laboratory
- Broadband electromagnetic surface treatments
- Multilayer impedance‑conditioning architectures
- Radar‑absorbing and RF‑attenuating composites
- Magnetic‑loaded elastomer and ferrite‑based absorbers
- Sprayable lossy dielectric coatings for conformal surfaces
- Tunable permittivity and permeability materials
- Frequency‑selective and metamaterial structur
- Broadband electromagnetic surface treatments
- Multilayer impedance‑conditioning architectures
- Radar‑absorbing and RF‑attenuating composites
- Magnetic‑loaded elastomer and ferrite‑based absorbers
- Sprayable lossy dielectric coatings for conformal surfaces
- Tunable permittivity and permeability materials
- Frequency‑selective and metamaterial structures
- Conductive polymer and nanocomposite formulations
- Dielectric and magnetic property characterization (L/S/X/Ku bands)
- Thermal, mechanical, and environmental durability testing
- Electromagnetic interference (EMI/EMC) shielding integration
- Digital‑thread modeling of electromagnetic performance
- Co‑cured and bonded film development for aerospace substrates
- Adaptive materials for spectrum management and low observability
Einstein Applied Sciences Laboratory
Einstein Applied Sciences Laboratory
Einstein Applied Sciences Laboratory
Aerostar Defense is standing up a secure, CUI‑compliant RTD&E laboratory to support:
- Patent coatings research and expansion
- RF and ISR/EW payload testing
- Digital engineering workflows
- Mission‑system prototyping
- Sovereign‑capability development
This laboratory is the nucleus of Aerostar’s airborne testbed roadmap.
Adaptive Threat Surrogate Microjets
Einstein Applied Sciences Laboratory
Adaptive Threat Surrogate Microjets
Aerostar Defense developed the ATS Microjets to provide an adaptable threat surrogate capability that includes variable radar signatures:
- High‑performance microjet platforms
- Surrogate test articles for ISR/EW payloads
- Modular airframes for autonomy and effects testing
- Scalable flight demonstration capability
These platforms support Aerostar’s
Aerostar Defense developed the ATS Microjets to provide an adaptable threat surrogate capability that includes variable radar signatures:
- High‑performance microjet platforms
- Surrogate test articles for ISR/EW payloads
- Modular airframes for autonomy and effects testing
- Scalable flight demonstration capability
These platforms support Aerostar’s evolution into an Aerial Target Services and Launched Effects airborne testbed.
GSA Services
Airborne Testbed
Adaptive Threat Surrogate Microjets
Through a strategic partnership, Aerostar Defense provides GSA‑aligned services, including:
- Engineering & technical support
- Program management
- Digital engineering
- Mission‑system integration
- Advanced materials research
This partnership enables rapid contracting pathways for government customers.
Airborne Testbed
Airborne Testbed
Airborne Testbed
Aerostar Defense is developing the capability to serve as a reconfigurable airborne testbed supporting:
- MV‑75 mission‑system experimentation
- Launched Effects integration
- Autonomy and multi‑domain effects
- ISR/EW payload development
- Rapid prototyping and flight demonstration
This is the strategic apex of Aerostar as a platform integrator