SRI is developing technology that will enable warfighters to easily maneuver a robot, precisely map an environment, and have 3D situational awareness.
DARPA taps SRI to deliver usable video and analytics to U.S. Armed Forces when and where they need it.
SRI is developing a novel search technology to quickly find events of interest in very large video collections.
SRI’s mixed reality training system provides comprehensive mission rehearsal tools to improve warfighter training.
SRI is developing a "Digital Aristotle" — a computerized system that uses artificial intelligence to answer novel questions and solve advanced problems in a broad range of scientific disciplines.
SRI and partners are developing highly dexterous low-cost robotic hands for military applications and other real-world uses.
By playing a game, citizen scientists can help increase reliability of mission-critical software systems.
A comprehensive website for sharing fundamental information about biochemical pathways and genomes with researchers around the world.
SRI and partners developed human-instructable computing technology to let users change software in ways that traditionally require skilled programmers.
SRI is creating technology to translate multiple foreign languages in all genres, retrieve information from translated material, and enable bilingual communication via speech or text.
SRI’s analysis suggests that the CMG program significantly increased the interdisciplinarity of geoscientists and mathematical scientists it has supported.
SRI and the University of Cambridge are designing, prototyping, and analyzing trustworthy computer systems that can be gradually adopted with high reliability, resilience, and assurance, effectively letting system and application developers ‘wipe the slate clean' in incremental steps.
SRI provides technical, management, and subject matter expert support for the wide range of research, development, testing, evaluation, and transition activities conducted through the Center.
Harnessing formalized expert knowledge to construct sophisticated deep learning architectures
SRI and partners are developing new tools to extract better meaning and actionable analysis from data sources.
EcoCyc is SRI's bioinformatics database that describes the genome and the biochemical machinery of Escherichia coli.
SRI is developing an automated reading system that makes the information in textbooks accessible to a range of formal reasoning systems.
SRI is developing a system for the semi-automated geolocalization of metadata-free images and videos to find a location of interest.
SRI is researching the inferential validity, reliability, and effectiveness of formative assessments embedded within games.
The Center conducts research and development aimed at providing IoT developers, integrators, and users with effective tools and methods for building and managing secure, privacy-preserving and maintainable IoT systems.
SRI is developing software that can uniquely identify a system’s users from spoken and written inputs, rather than using passwords.
SRI is applying artificial intelligence principles to predict the emergence and spread of memes—ideas that spread from individual to individual, shaping social institutions and inspiring cultural movements.
MetaCyc is a curated database of experimentally elucidated metabolic pathways from all domains of life. MetaCyc contains 2500 pathways from 2800 organisms.
SRI’s vision-based systems enable safe operations of moving unmanned ground vehicles around stationary and moving people in urban or cluttered environments.
Using advanced privacy technologies to enable informed and controlled information sharing.
SRI is developing a decision support tool to help analysts forecast and understand the plausible effects of actions taken within complex socio-cultural environments.
SRI, Stanford University, and PARC co-developed an intelligent system for answering English questions about HIV treatment.
SRI is improving the robustness of speech processing technologies and transitioning them to government partners for use in highly noisy operational audio conditions.
The SAVE framework supports training in virtual environments through automated assessment of learner performance and tools for content authoring.
SRI is investigating whether and how students’ speech can be used to determine how well they collaborate during interactive learning activities.
SRI is finding new ways to detect altered and tampered video.
SRI is developing an advanced system that would quickly help detect APTs and other increasingly sophisticated attacks.
SRI is developing a prototype system to automatically detect and track multiple individuals in a crowd.
SRI International uses virtual gaming environments to research online behavior across cultures.
SRI’s visual intelligence system could enable a new era in unmanned robotic surveillance.
Researchers have created a computer game that could transform the problem of proving software correctness.