 |
Future Force WarriorThe FFW program is developing an individual warrior / small combat team system of systems to complement the Future Combat System (FCS) program to achieve Army transformation objectives. |
 |
Automating Exception Handing with Dynamic, Collaborative SchedulingThis project will integrate flight scheduling, execution management, and distributed coordination capabilities to provide an integrated basis for generating and updating flight schedules in response to new requirements, negotiating adjustments to resource assignments, immediately detecting schedule deviations during execution and alerting users about them, and dynamically reoptimizing flight schedules. Joint work with Carnegie Mellon University on problems at the Air Mobility Command. |
 |
Task Management for Dynamic Tactical TargetingProvide task refinement, management and reasoning capabilities to support the Dynamic Sensor Management system being developed by Alphatech |
 |
Centibots very large-scale robot teamsThis is a joint project with Stanford, University of Washington, and ActiveMedia Robotics, to design, implement and demonstrate a computational framework for the coordination of very large robot teams, consisting of at least 100 small, resource limited robots, on an indoor reconnaissance task. |
 |
Cognitive Assistant that Learns and OrganizesAs part of DARPAs Personalized Assistant that Learns (PAL) program, SRI and team members are working on developing a next-generation "Cognitive Agent that Learns and Organizes" (CALO). |
 |
Aquaint: From Question-Answering to Information Seeking DialogsFrom question-answering to information-seeking dialogs. |
 |
Teambots: Video games and simulations that model teamsOur project is to build artificial team player for computer games. Our goal is to design and build virtual player that understand the notion of team objectives, the notion of roles (defender, supporter, attacker) and also understand the implications of their actions on the goal. |
 |
The Link Analysis WorkbenchThe goal of this project is to develop the Link Analysis Workbench (LAW), a Web-accessible tool where analysts and machines collaboratively perform link analysis by defining hierarchical and temporal patterns, that include uncertain and qualitative elements, and by defining search strategies for pattern application, through a graphical user interface that supports direct graphical browsing and editing of patterns, search strategies, and summaries and details of resulting matches. |
|
Mixed-Initiative Planning and Scheduling for Science MissionsWe are developing mixed-initiative planning and scheduling technology that will enable NASA scientists to construct high quality mission plans that achieve as many of their science goals as possible, while satisfying all operations constraints. Our research will explore fundamental issues in how to reason about decisions and preferences from multiple sources, how to specify and utilize user preferences, and how to automate trade-off analysis. (With Ari Jonsson and John Bresina from NASA Ames) |
 |
Deductive Composition of Multiple Data SourcesA framework is being developed for composing answers to queries, using automated deduction and multi-agent information brokering, based on multiple information sources. The technology is being applied to answering geographical queries for ecological modeling, based on NASA EOSDIS satellite imagery, map data, and gazetteer information. |
This website does not contain information on all
of our past or present projects.
For further information
please contact us.
