physical-chemical processes / transportation / intelligent and multi-functional products / micro and nano systems / in-vivo surgical systems / manufacturing technologies / e-factory automation Internet / biological systems / energy conversion systems / data storage systems / machine tools / manufacturing technology / µ-process chip / prevalent technologies / electrical and chemical engineering / railroad networks / microelectromechanical systems / hand-held mobile telephone / biomedical and aerospace applications / predicted industrial products / micro manufacturing / Health technologies / intelligent and multifunctional devices / fiber optical networks / Nuclear technology* / inter-planet travel / marvelous biological systems / plastics / assembly technologies / these future products / electricity / family car / refrigeration systems / read/write devices / petrochemical technologies / subsequent chemical synthesis / drug delivery systems / listed future industrial products / multi-functional consumer products / nano electronics / metal needle tip / manufacturing techniques / finished products / post-secondary education systems / scientific management / technology communities / manufacturing / industrial products / parts manufacturing / chemicals / fabrication technologies / larger systems / /
Organization
Pentagon / US Academy of Engineering / Rice University / Packaging Laboratory Department of Mechanical and Aerospace Engineering San Jose / Repulsive Force / US Defense Department / /
Person
Tai-Ran Hsu / Henry Ford / Richard Smalley / Jack Kilby / Richard Feynman / /
Product
Fusion / Packaged / /
Technology
biosensors / fabrication technologies / microsystems technology / two prevalent technologies / electrophoresis / antibodies / Microfluidics / process control / Laser / drug delivery / microelectromechanical systems / drug discovery / MST technology / µ-process chip / Health technologies / petrochemical technologies / CAD/CAM / IC technology / two technologies / assembly technologies / medical diagnostic / /