Engagements - UAS Consulting Group

Partners

HETEROGENEOUS AIR VEHICLE PERFORMANCE MODELING

Description of Work

Detect and Avoid strategies for multiple Unmanned Aircraft Systems.
Manned-Unmanned Teaming (MUM-T).
Modeling and simulation testing to perfect and predict execution.
Provide operational context for integrating sense and avoid technologies into National Airspace and Tactical Airspace Applications.

Research Team

Air Force Research Lab (AFRL)
PC Krause and Associates (PCKA)
UAS Consulting Group

WARFIGHTER WORKING GROUP

Description of Work

Cross-Functional / Multi-Domain / Multi-Agency Collaboration Effort.
Terminal Area Operations (TAO).
Manned-Unmanned Contingency Management (MUMCM) Open Systems Architecture Study
Teaming Enables Architectures for Manned-Unmanned Systems (TEAMS).

Research Team

Air Force Research Lab (AFRL)
PC Krause and Associates (PCKA)
UAS Consulting Group (UAS-CG)

CONTROL AUTOMATION RESEARCH

Description of Work

Autonomous Control Technologies Research & Development
Manned-Unmanned Teaming (MUM-T)
User Interface (UI)
System Integrity and Health Management / Flight Safety
CONOPS

Research Team

Air Force Research Lab (AFRL)
Infoscitex (IST)
UAS Consulting Group (UAS-CG)

COMMON ENHANCED TACTICAL SITUATION (CE-TACSIT)

Description of Work

Fusion: Multi-Int Situational Awareness, Sensor Cueing, Multi-Ship Viewing, Moving Maps.
Advanced Tactical Situational Awareness
Flight Test

Research Team

Air Force Research Lab (AFRL)
Infoscitex (IST)
UAS Consulting Group (UAS-CG)

JOINT ARTIFICIAL INTELLIGENCE CENTER (JAIC) SMART SENSOR:
ENHANCE AUTONOMOUS SENSING CAPABILITIES OF UNMANNED AIRCRAFT SYSTEMS

Description of Work

Demonstrate Object Recognition Algorithms using UAS
Employ Onboard AI to Control the Aircraft’s Sensors
Employ Onboard AI to Direct Autonomous Flight

Research Team

Joint Artificial Intelligence Center (JAIC)
General Atomics Aeronautical Systems Inc. (GA-ASI)
UAS Consulting Group (UAS-CG)

PROJECT HERESY: MULTI-MISSION CONTROL (MMC)

Description of Work

Multi-Mission Control (MMC) via single operator station.
AI Assisted AutoPED.
Systems Requirements.
Customer specific use cases, CONOPS, and implementation strategies.

Research Team

General Atomics Aeronautical Systems, Inc. (GA-ASI)
UAS Consulting Group (UAS-CG)
Trideum

EPISODIC MEMORY RECONSTRUCTION FOR UNMANNED AIRCRAFT SYSTEMS (UAS) BEHAVIOR EXPLANATION (EPEX)

Description of Work

Adaptive Interface & Automation Transparency Displays for Autonomous Activity.
Mission Planning, Personalized Learning, and Performance-Based After Action Review for Human and Machine Interoperation.

Research Team

Air Force Research Lab (AFRL)
SoarTech
UAS Consulting Group (UAS-CG)
Embry Riddle
University of Toledo

ADAPTIVE INTERFACE FOR REMOTE OPERATIONS (SAVANT)

Description of Work

Situational awareness and team coordination during complex missions.
Dynamic task sharing across multiple operators.
Workload assessment and assignment of task with sufficient situational awareness during handoffs.

Research Team

Air Force Research Lab (AFRL)
SoarTech
UAS Consulting Group
Wright State Research Institute

CONTEXTUAL EXPLANATION AND REASONING (CLEAR): IMPROVING TRANSPARENCY OF OBJECT TRACKING TECHNOLOGY FOR REMOTELY PILOTED AIRCRAFT (RPA) SENSOR OPERATIONS

Description of Work

Improve sensor operator awareness of automated object tracking capabilities and limitations while processing Full Motion Video (FMV).
Design review and prototype validation.
Demonstration.

Research Team

Air Force Research Lab (AFRL)
SoarTech
UAS Consulting Group

REMOTELY PILOTED AIRCRAFT RAPID PROTOTYPE SYSTEM (RRPS)

Description of Work

Medium Altitude Long Endurance (MALE) UAS Model Development.
Modeling, Simulation, and Analysis.
System Capabilities Requirements.
Simulation Performance Validation.

Research Team

Air Force Research Lab (AFRL)
Clear Creek Applied Technologies (CCAT)
UAS Consulting Group

Contact Us

We are proud and eager to leverage leading expertise, strategic teaming and powerful network synergies to achieve your organization’s objectives. We look forward to hearing from you.

CONTACT UAS-CG

UAS CONSULTING GROUP IS CURRENTLY
SUPPORTING LEADING INNOVATORS ACROSS
MULTIPLE DOMAINS AT THE FOREFRONT
OF THE DEFENSE INDUSTRY.

SEE BELOW FOR RECENT AND ONGOING ENGAGEMENTS.

Partners

HETEROGENEOUS AIR VEHICLE PERFORMANCE MODELING

WARFIGHTER WORKING GROUP

CONTROL AUTOMATION RESEARCH

COMMON ENHANCED TACTICAL SITUATION (CE-TACSIT)

JOINT ARTIFICIAL INTELLIGENCE CENTER (JAIC) SMART SENSOR:
ENHANCE AUTONOMOUS SENSING CAPABILITIES OF UNMANNED AIRCRAFT SYSTEMS

PROJECT HERESY: MULTI-MISSION CONTROL (MMC)

EPISODIC MEMORY RECONSTRUCTION FOR UNMANNED AIRCRAFT SYSTEMS (UAS) BEHAVIOR EXPLANATION (EPEX)

ADAPTIVE INTERFACE FOR REMOTE OPERATIONS (SAVANT)

CONTEXTUAL EXPLANATION AND REASONING (CLEAR): IMPROVING TRANSPARENCY OF OBJECT TRACKING TECHNOLOGY FOR REMOTELY PILOTED AIRCRAFT (RPA) SENSOR OPERATIONS

REMOTELY PILOTED AIRCRAFT RAPID PROTOTYPE SYSTEM (RRPS)

Contact Us

UAS CONSULTING GROUP IS CURRENTLY SUPPORTING LEADING INNOVATORS ACROSS MULTIPLE DOMAINS AT THE FOREFRONT OF THE DEFENSE INDUSTRY.

SEE BELOW FOR RECENT AND ONGOING ENGAGEMENTS.

Partners

HETEROGENEOUS AIR VEHICLE PERFORMANCE MODELING

WARFIGHTER WORKING GROUP

CONTROL AUTOMATION RESEARCH

COMMON ENHANCED TACTICAL SITUATION (CE-TACSIT)

JOINT ARTIFICIAL INTELLIGENCE CENTER (JAIC) SMART SENSOR: ENHANCE AUTONOMOUS SENSING CAPABILITIES OF UNMANNED AIRCRAFT SYSTEMS

PROJECT HERESY: MULTI-MISSION CONTROL (MMC)

EPISODIC MEMORY RECONSTRUCTION FOR UNMANNED AIRCRAFT SYSTEMS (UAS) BEHAVIOR EXPLANATION (EPEX)

ADAPTIVE INTERFACE FOR REMOTE OPERATIONS (SAVANT)

CONTEXTUAL EXPLANATION AND REASONING (CLEAR): IMPROVING TRANSPARENCY OF OBJECT TRACKING TECHNOLOGY FOR REMOTELY PILOTED AIRCRAFT (RPA) SENSOR OPERATIONS

REMOTELY PILOTED AIRCRAFT RAPID PROTOTYPE SYSTEM (RRPS)

Contact Us

UAS CONSULTING GROUP IS CURRENTLY
SUPPORTING LEADING INNOVATORS ACROSS
MULTIPLE DOMAINS AT THE FOREFRONT
OF THE DEFENSE INDUSTRY.

JOINT ARTIFICIAL INTELLIGENCE CENTER (JAIC) SMART SENSOR:
ENHANCE AUTONOMOUS SENSING CAPABILITIES OF UNMANNED AIRCRAFT SYSTEMS