AiRANACULUS
AiRANACULUS is a leader in Intelligent RF and Networking Solutions, providing advanced technologies for applications from Space to Smart Cities. The company focuses on creating spectrum-aware technologies that optimize radio and sensor systems for performance in complex environments, leveraging expertise in signal processing, cybersecurity, and networking.
Industries
N/A
Nr. of Employees
small (1-50)
AiRANACULUS
145 South Bedford St, Suite 236, Burlington, Massachusetts, USA
Awards
Algorithm Development for Early Warning and Prediction of Chemical and Biological Threat Exposure Leveraging Artificial Intelligence and Machine Learning (AI/ML) Approaches
Biological and Chemical Threat Prediction and Reasoning System (BiCEPS)
Funding (ceiling)
$877,566.4
Award Year
2023
Products
Resilient 5G communications architecture for terrestrial and space
Architecture and software constructs to enable resilient 5G/6G deployments across terrestrial and non-terrestrial links, including cross-layer decisioning and NFV integration.
Interference detection, characterization and geolocation system
Software and signal-processing methods to detect RF anomalies, classify modulation types and geolocate interferers for ISR and spectrum protection use cases.
Dynamic spectrum management and sharing platform
Architectures and algorithms to enable coexistence between high-power radar and commercial cellular systems, and to coordinate multi-operator spectrum use.
Resilient 5G communications architecture for terrestrial and space
Architecture and software constructs to enable resilient 5G/6G deployments across terrestrial and non-terrestrial links, including cross-layer decisioning and NFV integration.
Interference detection, characterization and geolocation system
Software and signal-processing methods to detect RF anomalies, classify modulation types and geolocate interferers for ISR and spectrum protection use cases.
Dynamic spectrum management and sharing platform
Architectures and algorithms to enable coexistence between high-power radar and commercial cellular systems, and to coordinate multi-operator spectrum use.
Expertise Areas
- RF communications and signal processing
- Dynamic spectrum management and cognitive radio
- Electronic warfare and radar signal analysis
- AI/ML for signal, network and sensor analytics
Key Technologies
- Machine learning / neural networks
- Cognitive radio
- MIMO-OFDM signal processing
- Dynamic spectrum sharing
Key People
Rear Admiral (Ret.) David Simpson
Scientific Advisor (Wireless Comms)
Mike Griffin, Ph.D.
(Advisory Board)
Lisa Porter, Ph.D.
(Advisory Board)
Jim Dolan
Chief Operating Officer
Sunil Barot
Manager, Hardware Engineering
Rear Admiral (Ret.) David Simpson
Scientific Advisor (Wireless Comms)
Mike Griffin, Ph.D.
(Advisory Board)
Lisa Porter, Ph.D.
(Advisory Board)
Jim Dolan
Chief Operating Officer
Sunil Barot
Manager, Hardware Engineering
News & Updates
Cross-Layer Wide-Band Cognitive Communications Architecture Enabled by Intelligent Direct Digital Transceiver (CLAIRE)
Develops a cognitive communications architecture for NASA’s moon mission in 2024, using advanced sensing and machine learning technologies.
Waveform Agnostic Decision Engine (WADER)
Makes DoD radios resilient by optimizing the degrees of freedom using machine learning techniques.
NSC 5G Dynamic Spectrum Sharing
Technique to enable spectrum co-existence between high power airborne radar and commercial 5G systems.
Dynamic Spectrum Management
Dynamic Spectrum Management will provide architecture and technologies to enable spectrum sharing between Radars and 5G Systems.
Time and Frequency Synchronization in Multi-Input, Multi-Output (MIMO) Systems
US Patent No. 7,088,782, Filed April 24, 2002, Issued August 08, 2006.
Estimating Channel Parameters in Multi-Input Multi-Output Systems
US Patent No. 7310304, Filed April 24, 2002, Issued December 18, 2007.
Cross-Layer Wide-Band Cognitive Communications Architecture Enabled by Intelligent Direct Digital Transceiver (CLAIRE)
Develops a cognitive communications architecture for NASA’s moon mission in 2024, using advanced sensing and machine learning technologies.
Waveform Agnostic Decision Engine (WADER)
Makes DoD radios resilient by optimizing the degrees of freedom using machine learning techniques.
NSC 5G Dynamic Spectrum Sharing
Technique to enable spectrum co-existence between high power airborne radar and commercial 5G systems.
Dynamic Spectrum Management
Dynamic Spectrum Management will provide architecture and technologies to enable spectrum sharing between Radars and 5G Systems.
Time and Frequency Synchronization in Multi-Input, Multi-Output (MIMO) Systems
US Patent No. 7,088,782, Filed April 24, 2002, Issued August 08, 2006.
Estimating Channel Parameters in Multi-Input Multi-Output Systems
US Patent No. 7310304, Filed April 24, 2002, Issued December 18, 2007.