OUR CORE R&D / These systems range from individual

autonomous robotic platforms to large-scale, multi-agent systems

for information management, command & control

OUR CORE R&D

These systems range from individual  autonomous robotic platforms to large-scale, multi-agent systems  for information management, command & control

User Interfaces & Human-Machine Teaming

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User Interfaces & Human-Machine Teaming

We enable users to achieve their goals by integrating advanced AI algorithms, decision-support tools, and training software within human-centered workflows in useful and efficient ways.

We employ novel user interface technologies, including speech and gesture recognition, computer vision, and multimodal interfaces, to provide natural and intuitive interaction across smart devices, desktop, and mixed-reality applications.

Related Projects:

SparkCare®

A healthcare informatics integration tool to optimize clinical workflow

VR tool to help trainers educate emergency medical responders who are exposed or potentially exposed to hazardous substances and must follow OSHA standards for HAZWOPER

VRT3

A VR interface designed for HAZWOPER instructors to enhance safety training

Two military personnel pointing at a screen.

READI

A risk-assessment tool for installation security decision-making

JET with task plan displayed

TITAN

An enhanced crewed–uncrewed team communication prototype for complex settings

Multiple-camera system that ensures safer operations using ML

ASIMOV

A multicamera system that ensures safer operations using machine learning

Illustration of the 3 technical areas of the DARPA EDGE program: Compose, Test & Explore, and Quantify

PERCEPTS

A tool to enable more robust AI model development

KWYN EFECTIVE

An AI virtual training system for medical and logistics personnel

HOPLITE

HOPLITE

An XR toolkit that lets Army instructors create realistic training scenarios

Photo of robotic combat vehicle (RCV) with and overlay illustrating the status of UAV, Lidar, Platform, and Right and Left Tracks. An inset in the foreground is a photo of operators inside the RCV

RAPS

An AI-based maintenance system that keeps robotic combat vehicles mission ready

JALAD

Using natural language processing for sentiment analysis

MSTAT

A mobile system for trauma assessment training

Image from SARA Project from Charles River Analytics

SARA

A social robotics system to help individuals with Alzheimer’s

JARVIS

JARVIS

A system for discovering novel solutions to cyber-physical systems design problems

VECTOR

a 3D conference room for mission planning

ARC3-I

ARC3-I

A tool to help medics monitor patients, diagnose injuries, and provide treatment

CLEAR

A system to enhance the performance of military analysts

ORION

Human-computer interfaces for US Army commanders

CAPTURE

Tools to help medical personnel input critical medical information

MANTA

A platform-independent, natural control and autonomy robot appliqué

Explainable AI from Charles River Analytics will enhance mission planning and operations for the Navy and Marine Corps.

EXTRA

Tools that make DRL agents understandable and trustable

PRESCRIPTION

A system for understanding risks and vulnerabilities in the pharmaceutical supply chain

CAMEL

Causal models to explain learning

SHEATH

A flexible, lightweight device dock that makes for safer operations and enhanced mobility

PICASSA

A system to better understand potential threats in space

FOLLOW-ME

A human-machine interface for unmanned ground vehicles

SHEPARD

Supervisory HMI enabling practical autonomous robot direction

GEMFIRE

Next generation, multirole fighter instruction and rehearsal environment​

VIRTUAL-C

An immersive and engaging VR training system for lab professionals

MultiMAST

MultiMAST

A modeling and simulation toolkit for megacity operations training

ST-MASTER

A system for sonar training, assessment, and remediation

COMPASS

A weather and climate forecasting tool for mission planning