SparkCare®
A healthcare informatics integration tool to optimize clinical workflow
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OUR CORE R&D / These systems range from individual
autonomous robotic platforms to large-scale, multi-agent systems
for information management, command & control
These systems range from individual autonomous robotic platforms to large-scale, multi-agent systems for information management, command & control
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.
A healthcare informatics integration tool to optimize clinical workflow
A VR interface designed for HAZWOPER instructors to enhance safety training
A risk-assessment tool for installation security decision-making
An enhanced crewed–uncrewed team communication prototype for complex settings
A multicamera system that ensures safer operations using machine learning
A tool to enable more robust AI model development
An AI virtual training system for medical and logistics personnel
An XR toolkit that lets Army instructors create realistic training scenarios
An AI-based maintenance system that keeps robotic combat vehicles mission ready
Using natural language processing for sentiment analysis
A mobile system for trauma assessment training
A social robotics system to help individuals with Alzheimer’s
A system for discovering novel solutions to cyber-physical systems design problems
a 3D conference room for mission planning
A tool to help medics monitor patients, diagnose injuries, and provide treatment
An immersive AR/VR space training platform
A system to enhance the performance of military analysts
Human-computer interfaces for US Army commanders
Hazard alert software for motorcyclists
Tools to help medical personnel input critical medical information
A platform-independent, natural control and autonomy robot appliqué
Tools that make DRL agents understandable and trustable
A system for understanding risks and vulnerabilities in the pharmaceutical supply chain
Causal models to explain learning
A flexible, lightweight device dock that makes for safer operations and enhanced mobility
A system to better understand potential threats in space
A human-machine interface for unmanned ground vehicles
Supervisory HMI enabling practical autonomous robot direction
Next generation, multirole fighter instruction and rehearsal environment
An immersive and engaging VR training system for lab professionals
A modeling and simulation toolkit for megacity operations training
Medical advancements on an individualized timeline
Safer cycling through connectivity
A system for sonar training, assessment, and remediation
A weather and climate forecasting tool for mission planning
