overview of electrical and computer engineering at purdue mark j. t. smith, phd professor and head...
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Overview of Electrical and Computer Engineering at Purdue
Mark J. T. Smith, PhDProfessor and Head
Electrical and Computer Engineering
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Purdue University
30,000+ undergraduates 6000+ graduate students 2300+ faculty
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Electrical & Computer Engineering
One of the nation’s largest schools:– 28% of graduate degrees in SoE at Purdue– 27% of Engineering Baccalaureate degrees– Ranked in the top 10 ECE graduate programs
79 Faculty
1127 Undergraduate Students 200 Masters Students 320 Ph.D. Students
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ECE’s Faculty is Distinguished 8 Distinguished/Named Professors (S’03) 21 Fellows of the IEEE; 5 IEEE Millennium Medals 9 NSF Career Awardees Many best paper awards including: 2001 IEEE Communications Society
Leonard G. Abraham Prize Best Paper Award in the Field of Communications Systems, Best Paper Award at the IEEE International Symposium on Spread Spectrum Techniques and Applications (ISSSTA 2000)
Been granted or have filed a large number of patents in the domain of wireless technologies.
Recipients of many awards including: 2001 IBM Faculty Partnership Award, 2002 IEEE Microwave Theory & Techniques Society Distinguished Educator Award, 1999 IEEE Lasers & Electgro-optics Society William Streifer Scientific Achievement Award,1997 AT&T/Lucent Foundation Award, 2000 IEEE Education Society/Hewlett-Packard Outstanding Woman Engineering Educator Award, NSF Director’s Award for Distinguished Teaching Scholars.
Historical Milestones
•Creation of Electrical Engineering •Addition of Computer Engineering•Ascension to being nationally recognized•2003-07 Rise to preeminence
The Time Is Now!
•New president•New provost•New engineering dean•New resources identified• 300 new faculty•$1.3B campaign
• facilities, scholarships, chairsPreeminence in Learning, Discovery, Engagement
Learning
Now available in new flavorsResearch experiences-hands onVISE (Video and Image Syst. Eng)Technology enhanced education
Aware Classroom
Traditional Classroom
Single-UserAware Classroom
ComputerPDA
DistributedClassroomPlatform
Aware Classroom
Compute Enhanced Learning
Portable Reception Devices
Discovery
•Computer engineering•Communications and Signal Proc.•Fields and Optics•VLSI and Circuits•Biomedical •Solid State•Automatic Controls •Energy Sources and Systems
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ECE Research
Future growth in areas of strategic initiatives:– Wireless– Nanotechnology– Photonics– Signal and Information Processing – Dependable computing– Biomedical applications
– …
What does it mean for our students to be educated in an environment of Discovery?
Exposure to next gen technologyExposure to industry and industry needsOpportunity for commercializationConnections to international community
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Discovery Park Master PlanBirckBirckNanotechnologyNanotechnologyCenterCenter
BindleyBindleyBioscienceBioscienceCenterCenter
Burton MorganBurton MorganEntrepreneurshipEntrepreneurshipCenterCenter
The Birck Nanotechnology Centerin Purdue’s Discovery Park
James A. Cooper, Co-Director
Richard J. Schwartz, Co-Director
NSF, NASA Center Awards
Mark Lunstrom
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Nano Technology Center
Unique Facility
Excitement of nanoscale technology
100 nm and below (Nano)30-80 nm - viruses 10 nm – proteins2 nm and below – carbon nanotubes (30 atom circ) --molecular electronicsNano structuresNeuron interfaces5 terabyte drives by 2007
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Micro-Electro Mechanical Systems MEMS and NEMS
Micro machines Micro-fluidics Scanning probe
technology Sensors
Microscopic Flow Sensor Microscopic Flow Sensor
250 µm250 µm
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Micro-Biotechnology
Marriage of nanotechnology and biotechnology
Highly interdisciplinary
Exploits Purdue’s strengths in engineering and the life sciences (biology, biomedical engineering, and veterinary medicine)
8800 µµmm
IInnppuutt ppoorrtt
CCaavviittiieessPPtt eelleeccttrrooddeess
2200µµmm wwiiddeecchhaannnneell
From R. Bashir, PurdueFrom R. Bashir, Purdue
Bio-Chip for DetectionBio-Chip for Detection
of Pathogens in Foodof Pathogens in Food
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Low Power CircuitsKaushik Roy
Subthreshold Leakage Control– Transistor stacking technique
– Multiple threshold Voltage
– Dynamic threshold Voltage
Gate Leakage– Transistor stacking
– Multiple Tox
Band-To-Band-Tunneling– Optimized devices
Low Power Memory
– Dynamic threshold voltage
Borkar: IntelWavelet circuit analysis
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Audio Processing
SSM: analysis, synthesis • Enables time scale modification• Enables pitch scale modification• Enables time-varying pitch and TSM.• Computer synthesis of speech, singing and music.
Voice recognition
Image Processing
Suppression of Atmospheric Turbulence
Security-encryption, TransmissionCompression, Enhancement,Detection and Recognition
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• computer aided diagnosis/treatment• computer aided surgical planning • telemedicine• the virtual hospital
Fig. 14. Tetrahedral multi-zone mesh of patient reconstruction shown in Fig. 13.
Biomedical Signal Processing
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Telemedicine
Engagement
Who will hear?
Engagement on Campus
Broadband Diversity – Student-faculty diversityCultural diversityTechnical diversity
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1995-2002: 1500 Purdue students to date Over 120 projects deployed 300+ students, 20 departments, 24 teams 11 industry advisors $10+M total from grants, industry, Purdue, and
alumni
EPICS: Engineering Projects in Community Service
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Opportunities for Global Partnerships
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Industry Engagement
Corporation ECE Alumni Purdue Alumni
General Motors 350 2617
Motorola 342 673
IBM 330 1414
Boeing 257 1440
Raytheon 222 807
General Electric 217 1647
Intel 180 455
Lockheed Martin 176 860
Lucent 161 492
Delphi Automotive Sys. 161 657
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Alumni Engagement
Research collaborations Student-alum networking Feedback to ECE Commercialization Keep in touch
ECE’s Advancement Professionals
Margarita ContreniAmy NoahDeborah Starewich