Research and Development Park
AERTC
CEWIT
Bio Medical
Technology
Mezzanine
CEWIT
AERTC
CEWIT
Bio Medical
Technology
Mezzanine
AERTC
AERTC
CEWIT
Bio Medical
Technology
Mezzanine
CEWIT Mission
 Conduct first-class interdisciplinary

research and development in wireless
and information technology
 F...
R&D Divisions
 Network Technologies
 Software Systems
 Communications and Devices
 Systems and Infrastructure
 Medica...
Facility
 100,000 square-foot, state-of-the-

art building
 40 new research laboratories
 7,000 square-foot incubator s...
Facility

 State-of-the-art Data Center
 Direct 500Mbps Internet Connection with





redundancy
20Gbps backbone ove...
Interdisciplinary R&D
Computer
Science Electrical &
Applied
Mathematics &
Computer
Statistics
Engineering
Mechanical
Medic...
Strategic Focus Areas

Imaging and visual computing
Intelligent information systems
Sensor networks and mobile computing
C...
Worldwide Partnerships

 Industry – large, medium and small scale enterprises
 National research laboratories
 Domestic...
Advisory Boards
 Industry Advisory Board
 Medical Advisory Board
 Scientific Council
 Technology Council
Accomplishments
 Over $160 million in industry commitments matching $50






million state capital award
More than ...


CEWIT Korea

Sister organization in Songdo, Incheon Free
Economic Zone (IFEZ)



Established to commercialize technolo...
Advanced Energy Center (AEC)
 Broad based interdisciplinary research programs
 State-of-the-art laboratories to develop ...
Virtual Colonoscopy

 Volume rendering to generate view of colon wall
 Virtual view similar to optical colonoscopy view
...
Immersive Gigapixel Display –
The Reality Deck







Massive Immersive Visualization Environment.
308 LCD Displays – ...
GigaPixel Image

 President Barack Obama’s Inaugural Address
 Shanghai, 272 Gigapixels
 London
 Paris
 Prague, Straho...
Designing Architecture and Fastest
Superconductor Chips @ SBU
 Prof. Mikhail Dorojevets: Ultra High Speed Computing Lab, ...
Computer-Aided Remote Diagnosis
of Acute Chest Pain
Computer Augmented
Rehabilitation a person’s
 Games are likely to engage
attention


Traditional training/exercises are ...
CEWIT Biostatistics &
Bioinformatics Labs
 Collaboration with BNL, CSHL, NYU, Albert Einstein,

UCLA, WUSTL, and Univ. of...
Biostatistics/Bioinformatic

s Genome-wide association studies of single nucleotide

polymorphism (SNP) on nicotine addic...
Prevention of Lost Personal
Items in Long Term Care
Facilities



Primary points of loss





On food trays after meal...
Specimen Tracking
Send
Print tag
and label

Permanents
collection

Enter specimen
details

Fresh and Frozen,
Hand Carried
...
Home of the Future
 Apartment in CEWIT

building with sensors and
RFID readers
 Modeling and recognizing
human activity ...
Large-Scale News/Blog
Analysis scale text analysis system which tracks
Lydia is a large
millions of entities in the news a...
Energy Efficient Utility
Monitoring/Metering
Internet

System Architecture

Broadband connection
DSL/Cable

WiFi router

Z...
Minimizing “Light Pollution” from
Windmill Farm Using WiFi Mesh
Network
 Cyber-Security
 Regulatory Compliance
 Privacy and Data Confidentiality
 Interoperability and Standards
 Transparent...
Smart Grid
 Fundamental technologies

that will drive the Smart Grid
 Integrated communications
 Sensing and measuremen...
Smart Transit
 Real-time Tracking of Buses
 Wi-Fi access
 Real-time Content Delivery
Visit Us Online at
www.cewit.org
Overview: The Center of Excellence in Wireless & Information Technology
Overview: The Center of Excellence in Wireless & Information Technology
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Overview: The Center of Excellence in Wireless & Information Technology

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A general overview of the Center; our mission, research areas, commercialization, facts, and figures. Learn more by visiting www.cewit.org, or joining our mailing list. CEWIT is pleased to share news & events, upcoming conferences, and opportunities for partnership.

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Overview: The Center of Excellence in Wireless & Information Technology

  1. 1. Research and Development Park AERTC CEWIT Bio Medical Technology Mezzanine
  2. 2. CEWIT AERTC CEWIT Bio Medical Technology Mezzanine
  3. 3. AERTC AERTC CEWIT Bio Medical Technology Mezzanine
  4. 4. CEWIT Mission  Conduct first-class interdisciplinary research and development in wireless and information technology  Foster new enterprise development  Address skilled technology worker shortage
  5. 5. R&D Divisions  Network Technologies  Software Systems  Communications and Devices  Systems and Infrastructure  Medical Devices and Technologies  Smart Energy
  6. 6. Facility  100,000 square-foot, state-of-the- art building  40 new research laboratories  7,000 square-foot incubator space  First building in Stony Brook University Research and Development Park
  7. 7. Facility  State-of-the-art Data Center  Direct 500Mbps Internet Connection with     redundancy 20Gbps backbone over CAT7a & fiber optical network cabling 100% WiFi, WiMax Coverage VoIP Unified Communication Private Enterprise Computing Cloud and Storage Cloud
  8. 8. Interdisciplinary R&D Computer Science Electrical & Applied Mathematics & Computer Statistics Engineering Mechanical Medicine Engineering Health Technology Management CEWIT Material Science & Engineering Biomedical Psychology Technology & Engineering Society
  9. 9. Strategic Focus Areas Imaging and visual computing Intelligent information systems Sensor networks and mobile computing Cyber security Cloud computing High performance computing Homeland security  Smart grid  Wireless medicine  Biomedical informatics       
  10. 10. Worldwide Partnerships  Industry – large, medium and small scale enterprises  National research laboratories  Domestic and foreign academic institutions  High-tech startups  CEWIT Korea
  11. 11. Advisory Boards  Industry Advisory Board  Medical Advisory Board  Scientific Council  Technology Council
  12. 12. Accomplishments  Over $160 million in industry commitments matching $50      million state capital award More than 320 projects completed with industry partners More than 210 projects completed with federal agencies 123 invention disclosures, 36 US patents issued, 12 licenses More than 680 research publications 4 new startups companies based on CEWIT innovations
  13. 13.  CEWIT Korea Sister organization in Songdo, Incheon Free Economic Zone (IFEZ)  Established to commercialize technologies and spur economic growth  Collaborations between US and Korean academic and industrial organizations  Focus on smart energy, transportation, collaborative networking, transparent computing, visual computing, and healthcare  Emphasize fast design, agile development, and short time-to-market
  14. 14. Advanced Energy Center (AEC)  Broad based interdisciplinary research programs  State-of-the-art laboratories to develop advanced energy technologies  Full scale demonstration, benchmarking and testing facilities for smart grid development  Leadership in Energy and Environmental Design (LEED) Platinum building
  15. 15. Virtual Colonoscopy  Volume rendering to generate view of colon wall  Virtual view similar to optical colonoscopy view Virtual Optical Virtual Optical  “CT virtual colonoscopy … is an accurate screening method … and compares favorably with optical”  New England Journal of Medicine, 2003
  16. 16. Immersive Gigapixel Display – The Reality Deck     Massive Immersive Visualization Environment. 308 LCD Displays – a total of 1.2 billion pixels worth of resolution, rivaling the acuity of the human ocular system. 85 high end workstations with multiple Graphics Processing Units (GPUs) drive the displays and offer massive computational and visualization capabilities. Development of novel interaction techniques via Motion Tracking, Gestures, etc.
  17. 17. GigaPixel Image  President Barack Obama’s Inaugural Address  Shanghai, 272 Gigapixels  London  Paris  Prague, Strahov Library
  18. 18. Designing Architecture and Fastest Superconductor Chips @ SBU  Prof. Mikhail Dorojevets: Ultra High Speed Computing Lab, ECE Dept.  Developing architecture and new design techniques for 20-50 GHz superconductor processors  Designing experimental superconductor chips in collaboration with the U.S. companies and Japanese Universities and foundries The first-ever 20 GHz 8-bit superconductor IC designed, fabricated and demonstrated operation in a joint SBU-Hypres, Inc. project (April 2011)  20 GHz 8-bit processor datapath chip:  Development of an architecture and cell-level design @SBU  A joint project with Hypres, Inc. (Elmsford, NY)  30 GHz 16-bit processor (international project):  Development of an architecture and complete chip design @SBU  A joint project with Japanese Universities at Yokohama and Nagoya, and superconductor foundry at Tsukuba (Japan)  Successful experimental demonstrations in 2011  20 GHz 8-bit processing unit
  19. 19. Computer-Aided Remote Diagnosis of Acute Chest Pain
  20. 20. Computer Augmented Rehabilitation a person’s  Games are likely to engage attention  Traditional training/exercises are often boring and repetitive  Games can challenge the player to achieve sustained success  Progression to increasingly difficult levels  Games can aid the management of pain  Cognitive tasks and attention distractions can block the perception of pain  “Wiihabilitation”
  21. 21. CEWIT Biostatistics & Bioinformatics Labs  Collaboration with BNL, CSHL, NYU, Albert Einstein, UCLA, WUSTL, and Univ. of Colorado.  Collaboration with Computer Sciences, Anesthesiology, Biomedical Engineering, Hematology, Medicine, Pathology, Pharmacology, Psychology, Psychiatry, and Radiology.  Imaging Informatics, Biostatistics & Bioinformatics, Geo-statistics
  22. 22. Biostatistics/Bioinformatic  s Genome-wide association studies of single nucleotide polymorphism (SNP) on nicotine addiction (BNL/WUSTL)  Network analysis of SNPs and risk analysis of SNPs on nicotine addiction. Below are the SNP networks of controls, nicotine addicted subjects and the combined groups. 24
  23. 23. Prevention of Lost Personal Items in Long Term Care Facilities  Primary points of loss    On food trays after meals -> Equip dining hall attendants with wearable reader modules In sheets and clothes going to laundry -> Install RFID enabled portals in laundry path Additional readers at strategic points such as garbage disposal
  24. 24. Specimen Tracking Send Print tag and label Permanents collection Enter specimen details Fresh and Frozen, Hand Carried Receive Reconcile Read Specimen details Send the specimen to destination Track at all times over Wifi.
  25. 25. Home of the Future  Apartment in CEWIT building with sensors and RFID readers  Modeling and recognizing human activity from sensor data  Responding to the environment  Applications: assisted living, home care, chronic disease management, preventive care
  26. 26. Large-Scale News/Blog Analysis scale text analysis system which tracks Lydia is a large millions of entities in the news across newspapers and blogs on an ongoing daily basis.
  27. 27. Energy Efficient Utility Monitoring/Metering Internet System Architecture Broadband connection DSL/Cable WiFi router ZigBee-based water meter WiFi ZigBee-based electric meter Control Box ZigBee ZigBee-based gas meter Water utility Company servers Electrical utility Gas utility Company Company servers servers
  28. 28. Minimizing “Light Pollution” from Windmill Farm Using WiFi Mesh Network
  29. 29.  Cyber-Security  Regulatory Compliance  Privacy and Data Confidentiality  Interoperability and Standards  Transparent Infrastructure Scalability  New Energy Efficient Designs  Application Deployment Mechanisms  Economic Modeling of new Market  Portability for Legacy IT in Clouds
  30. 30. Smart Grid  Fundamental technologies that will drive the Smart Grid  Integrated communications  Sensing and measurement  Cybersecurity  Data management and visualization
  31. 31. Smart Transit  Real-time Tracking of Buses  Wi-Fi access  Real-time Content Delivery
  32. 32. Visit Us Online at www.cewit.org

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