Transcript Chapter 24, Future Design Issues

Chapter 24, Future Design Issues
Paul King
Biomedical Engineering Handbook
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Bioelectric Phenomena
Biomaterials
Biomedical
Sensors/Instrumentation
Biomedical Imaging
Tissue & Cell engineering
Signal Analysis
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Gene Therapy
Prosthetics/Rehabilitation
Home monitoring
Clinical Engineering
Human Factors
AI
Physiological Modeling
R&D Support - US
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NSF Design, Manufacturing & Industrial
Innovation Division
Engineering Design Program
National Institute of Biomedical Imaging &
Bioengineering
National Institute of Science & Technology
DARPA
NIH
Private agencies
NSF SBIR/STTR solicitations
Genomics
 Proteonomics
 Bioinformatics
 Biochips
 Combinatory Biotechnology
 Computational Biotechnology
 Environmental biotechnology
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NSF SBIR/STTR solicitations
Ecological Engineering
 Agricultural and food biotechnology
 Marine biotechnology and aquaculture
 Industrial bioproducts
 Bioengineering for disabled
 Tissue engineering
 Metabolic engineering
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NSF SBIR/STTR solicitations
Biomaterials
 Pharmaceutical drug delivery
 Nanoscale biotechnology
 Other 
Engineering design - NSF
Design alternative generation – faster
 Design evaluation – speed up
 Design decision support
 Design optimization
 Design information systems
 Collaborative design
 Design education
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NIBIB (Bioimag & Bioeng)
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Research for –
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Microimaging
Novel in-vivo imaging
New & improved devices
New & improved methods
Improved software
Rapid dx for microbes & toxins
Nat. Inst. Of Science and
Technology
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Support of high risk, high payout proposals
from all areas…
DARPA
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Prototype development for multiple areas in
defense
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Microelectronics
Speech in noisy environments
Brain-machine interfaces
Bio-surveillance
Anything for security/defense …
Other
Cloning
 Robotic surgery
 Biomaterials
 Scaffolding for bone, organ growth
 Stem cell applications
 DNA profiling for disease and other
remediation
 … your best guesses…
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