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Multiple Media Multiple Sources Multiple Languages. English- speaker. Speech-to-Text. EARS. Text + Speech. Text. Critical Information (in English). Streaming, Changing Huge Volumes. TIDES. Translingual Information Detection, Extraction And Summarization. Synchronized
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Multiple Media Multiple Sources Multiple Languages English- speaker Speech-to-Text EARS Text + Speech Text Critical Information (in English) Streaming, Changing Huge Volumes TIDES Translingual Information Detection, Extraction And Summarization
Synchronized English and Arabic Transcripts Video Playback TIDES TIDES - E-ViTAP (Enhanced Video Text and Audio Processing) Search Results
Terrorism Interactions Nation - State Group A Group N Time Politics THREAT ANALYSIS • Prediction • Group & Nation State specific predictive models • Influence • Group & Nation State specific influence models • Technology • Define a predictive methodology • Optimize the predictive models • Automate the operation of the predictive models • Develop tools to automate the modeling process 2
CONTEXTUAL INFORMATION • Document search for specific behaviors • Recreate the information space preceding the behavior • 79 attacks • Over 750 documents • Identify context issues related to behavior 5
SCATTERABLE MEDIA“Talking Leaflet” Electronic Book Using Electronic Ink from E Ink would be programmed with military relevant content
Provides Ad Hoc, Self Healing Nets for faster planning, collaboration, coordination, synchronization and execution Maintains “push/pull, client/server” service for IPB, CROP, BDA, COAA, sustainment and other non-intrusive input needs Enables high bandwidth connectivity for strategic/theater/tactical sensors to create information from data Focuses on planning, configuring, dynamically reconfiguring, and maintaining the sensor network under battlespace conditions Maintains Enterprise connections Optimizes use of available spectrum Manages interoperability/security Architecture for Joint Battle Command Operational View System View
JOINT BATTLE CENTER • Common Operating Picture Mission Planning Show Actual Movements Alternative Strategies Alternative Deployments Fusion of Data SAR / LIDAR Satellite Imagery C4/SIR information Dynamic Battlespace Superimposed Force Movements Natural or Urban Terrain • Target Acquisition UAV 3-D Imaging Shorten Sensor to Shooter Time Kill the Right Target and only the Right Target
ISIS Vision High Capacity AMTI Track Wide Area AMTI Search AMTI Fire Control Wide Area GMTI Search GMTI Track Dismounts Wideband Comms
A-160 HUMMINGBIRD • Develop two reduced capability rotary wing systems (Mavericks) and two full up A-160 prototypes (Hummingbirds). • Develop and evaluate a transportable command and control system. • Develop and evaluate SOF mission payloads • (C3, ISR, Resupply). • Evaluate military utility of rotary wing UAV.
SOCOM UAV REQUIREMENTS Color Key: Finalized ORD/CDD, Conceptual/Planned ORD/CDD SA (Situational Awareness), FP (Force Protection), DA1 (Direct Action 1 Includes Targeting and Tagging for Targeting), DA2 (Direct Action 2 Includes Weapons Delivery, Targeting, Etc.), ISR (Intelligence Special Reconnaissance), SIGINT (Signals Intelligence), COMMS RELAY (Communications Relay), PR (Personnel Recovery)
REAL-TIME AND NEAR REAL-TIME HOLOGRAMS Flexible, Large Area, Hi-Res Low Power, Emissive Imaging
Special Reconnaissance Simulator (SRS) Description • Objective – Design, develop, and deliver a SOF specific reconnaissance simulator. The initial prototype will allow up to three SOF personnel to do active SR training and mission rehearsals in a virtual immersive environment. The device will enable users to use newly obtained imagery and video clips to rapidly (within 1 hour) render realistic graphic representations of specific areas or regions. Contractor: TBD Amount on Contract ($M) Schedule FY04 FY05 FY06 FY07 FY08 Phase I Award (15 Jan 04) Demonstration Period (15 Jan 04-15 Jun 05)
Nanotechnology for the Future Warrior • Underlayer Capabilities Using • Nanotechnology Approaches • Physiological Status Monitoring (PSM) – Nanosensors (5-10 yrs) • Conductive Fiber Network – Fibers with CNTs/conducting polymers (< 5 years) • Microclimate Control – Smart nanoporous materials that respond to temperature (5-10 yrs) • Anti-microbial – Nanoscale processing for optimum orientation and permanent binding to material (< 5 yrs) • Therapeutics – Health maintenance and restoration via chronic/acute nanotechnology drug delivery systems (5-10 yrs) • Outerlayer Capabilities Using Nanotechnology Approaches • Active CB Decontamination –Nanoparticles and nanofibers for maximum reactivity rate (< 5 yrs) • Portable, Renewable Power- • Lightweight, flexible, nanocomposite solar cells (< 5 yrs) • Textile Embedded Sensors – Nanosensors for enhanced sensitivity to hazards (5-10 yrs) • Conductive Fiber Network -Fibers with CNTs/conducting polymers (< 5 years) • Soft/hard Personnel Armor – Nanocomposite fibers and plates (<5 yrs) • Agile Laser Eye Protection – Nanoiris or nanoscale arrays/dye configurations (5-10 yrs)
MULTIPLE MINIATURE SEARCH & RESCUE PROBES (MMSRP) • Small ball-like “robotic” sensor • Penetrates hard to maneuver areas by jumping or rolling • Sensors are active when stable and quite – then activate jumping or rolling mechanism for further reconnaissance • RF or acoustic links map out room, cave, building and report findings
MANTIS Concept Multispectral Sensor Suite with On-Board Processor Network-Enabled Collaborative Visualization • Digitally fused, multispectral imagery (NIR/SWIR/LWIR) • Helmet mounted display/visor • Video Record/Playback and image stitching • Augmented Reality • Real-time video and image sharing (soldier-to-soldier) • Access to remote sensors • “Point, Click and Kill” for off-board weapons MANTIS will replace current Night Vision Goggles to regain the nighttime advantage for the Individual Warfighter and provide unprecedented Situational Awareness
Payoff:Warfighter has improved situation awareness and increased lethality Collaborative Visualization & Target Handoff • Network information sharing • Soldier-to-soldier sharing of video, images, text, and graphics • Access to remote imaging sensors • Real-time target handoff “Point, Click, and Kill” Handoff to Netfires