• 2017
  • This work is described in the article, "Unsupervised Transfer Learning via Multi-Scale Convolutional Sparse Coding for Biomedical Applications," published January 2017, in the IEEE Transactions on Pattern Analysis and Machine Intelligence journal. (qualitydigest.com)
  • 2016
  • Here he also characterized an engineered strain of S. typhimurium for the sustained release of cancer therapeutics, which was published in Nature in 2016. (wikipedia.org)
  • molecular
  • Example applications include the design of new biomolecules, directing cellular pathways, and designing new therapeutics through approaches such as artificial amino and nucleic acids, DNA nanotechnology, genome and protein engineering, synthetic gene circuits, directed molecular evolution, and recombinant antibody technologies. (ufl.edu)
  • This may eventually include the possibility of biologically engineering machines and 3D printing that re-order matter at a molecular scale. (wikipedia.org)
  • Industrial bio-engineering extends from the creation of artificial organs by technical means or finds ways of growing organs and tissues through the methods of regenerative medicine to compensate reduced or lost physiological functions (Biomedical Engineering) and to develop genetically modified organisms, i.e., agricultural plants and animals as well as the molecular designs of compounds with desired properties (protein engineering, engineering enzymology). (wikipedia.org)
  • protein
  • For biomedical applications, rational design and combinatorial methods are used to create designer protein therapeutics and diagnostic agents for applications such as regenerative medicine and cancer imaging and therapy. (stanford.edu)
  • For biomedical applications, we are combining rational design and combinatorial methods to create designer protein therapeutics and diagnostic agents. (stanford.edu)
  • High-throughput analysis and protein engineering using microcapillary arrays. (stanford.edu)
  • applications
  • Our main goals are to develop new technologies for basic science and biomedical applications. (stanford.edu)
  • This field of study is based on the fundamentals of fluid mechanics and their broad range of applications in the biomedical and engineering arenas. (ucdavis.edu)
  • It involves aspects of genetic engineering, particularly regarding the agricultural applications. (wikipedia.org)
  • This remarkable contributed work examines the art, engineering, technology, and applications of the field. (wiley.com)
  • Dr. Sheu studies complex biological systems, knowledge-based medicine, semantic software engineering, proactive Web technologies, and large real-time knowledge systems for defense applications. (wiley.com)
  • He has authored two books and published more than 100 papers investigating object-relational data and knowledge engineering and their applications and biomedical computations. (wiley.com)
  • Biomedical Systems-Microelectromechanical systems (MEMS), microfluidic applications of medical technology, and miniaturized smart medical devices. (wikipedia.org)
  • Regardless of the various titles, these professionals offer services within and outside of healthcare settings to enhance the safety, utilization, and performance on medical devices, applications, and systems. (wikipedia.org)
  • They are a fundamental part of managing, maintaining, and/or designing medical devices, applications, and systems for use in various healthcare settings, from the home and the field to the doctor's office and the hospital. (wikipedia.org)
  • Equipment control and asset management involves the management of medical devices within a facility and may be supported by automated information systems (e.g., enterprise resource planning (ERP) systems are often found in U.S. hospitals, and the U.S. military health system uses an advanced automated system known as the Defense Medical Logistics Standard Support (DMLSS) suite of applications). (wikipedia.org)
  • Most applications of biological interface engineering are related (but not limited to) material, structural and geometric configurations of: vasculature devices, orthopedic devices, neurological devices and organ replacement devices. (wikipedia.org)
  • It represents an evolution of the agricultural engineering discipline applied to all living organisms (but generally not including biomedical applications, which is the realm of biomedical engineering). (wikipedia.org)
  • design
  • The combination of expertise in engineering and biology can be used in many professional fields, whether to develop new MRI technology, design computer software, or find new materials to improve prosthetics. (gradschools.com)
  • Mechanical engineers are often heavily involved with the design of combustion systems (internal combustion engines, gas turbines, furnaces, etc.) and deal with aspects of combustion ranging from increasing efficiencies to reducing pollutant emissions. (ucdavis.edu)
  • An aspect of mechanical engineering is the design of surface vehicles. (ucdavis.edu)
  • This area of interest emphasizes the fundamentals of heat transfer and thermodynamics and their application to the design of advanced engineering systems. (ucdavis.edu)
  • An understanding of heat transfer and thermodynamics is required for the design of efficient, cost-effective systems for power generation (including advanced energy conversion systems), propulsion (including combustion engines and gas turbines), heat exchangers, industrial processes, refining, and chemical processing. (ucdavis.edu)
  • A major activity of mechanical engineers is studying and working with various production methods and techniques, integrating creative design activities into actual fabricated products. (ucdavis.edu)
  • Semantic Computing is ideal for industrial managers, researchers, and engineers seeking to design the next generation of computing systems in order to better meet user needs. (wiley.com)
  • He runs the Synthetic Biological Systems Laboratory at Columbia University, focuses on treating cancer with probiotic bacteria, in addition to dynamic gene circuit design of spatiotemporal behaviors. (wikipedia.org)
  • The laboratory's achievements includes the design and development of accurate and reliable guidance systems for undersea-launched ballistic missiles as well as the Apollo Guidance Computer that guided the Apollo astronauts to the Moon and back safely to Earth, every time. (wikipedia.org)
  • Play media Play media Play media Bionics is the application of biological methods and systems found in nature to the study and design of engineering systems and modern technology. (wikipedia.org)
  • broadly
  • The discipline focuses broadly on environmentally sound and sustainable engineering solutions to meet societies' ecologically-related needs. (wikipedia.org)
  • defense
  • Tactical Systems-Development of: maritime intelligence, surveillance, and reconnaissance (ISR) platforms, miniaturized munitions guidance, guided aerial delivery systems for materiel, soldier-centered physical and decision support systems, secure electronics and communications, and early intercept guidance for missile defense engagement. (wikipedia.org)
  • mathematical
  • Latif began working in May's lab in early 2014, though they first met when he took her Quantitative Systems Biology class, a complex course that introduces students to computational and mathematical techniques for modeling biological systems. (uh.edu)
  • Laboratory
  • For his PhD thesis, he worked in Jeff Hasty's laboratory at UCSD, where he created synchronized oscillations in bacterial populations through synthetic biological circuits that combined positive and negative feedback with a fluorescent reporter. (wikipedia.org)
  • The laboratory contributed to the development of inertial sensors, software, and other systems for the GN&C of commercial and military aircraft, submarines, strategic and tactical missiles, spacecraft, and unmanned vehicles. (wikipedia.org)
  • professor
  • At the Sandia National Labs, Latif will be working with Bert Debussecher, a highly regarded computational scientist and former colleague of Latif's faculty advisor Elebeoba May, biomedical engineering professor and director of the MIDAS Lab. (uh.edu)
  • C. V. RAMAMOORTHY , PhD, is Professor Emeritus of Electrical Engineering and Computer Science at the University of California, Berkeley. (wiley.com)
  • Tal Danino is a synthetic biologist and assistant professor of biomedical engineering at Columbia University. (wikipedia.org)
  • In 1987, he joined the faculty at Duke University as an assistant professor of Biomedical Engineering. (wikipedia.org)
  • field
  • Innovations in this field require competence in vehicle dynamics, propulsion and engine concepts, control of power transmission, and construction of lightweight manufacturable structures and systems. (ucdavis.edu)
  • Special Programs-Concept development, prototyping, low-rate production, and field support for first-of-a-kind systems, connected with the other technical areas. (wikipedia.org)
  • This allowed mechanical engineering to develop as a separate field within engineering. (wikipedia.org)
  • As BME is an emerging field, professional certifications are not as standard and uniform as they are for other engineering fields. (wikipedia.org)
  • Often, the tracks also coincide with a particular engineering or science field. (wikipedia.org)
  • Although almost all engineering could be said to be a form of biomimicry, the modern origins of this field are usually attributed to Buckminster Fuller and its later codification as a house or field of study to Janine Benyus. (wikipedia.org)
  • Doctoral
  • Virginia Tech College of Engineering Graduate Students may choose from 16 Doctoral and 19 Masters programs available in 17 areas of study. (wikipedia.org)
  • complex
  • Atherosclerosis is a very important and complex disease,' said Han Wei Hou, a biomedical engineer at Nanyang Technological University in Singapore. (meddeviceonline.com)
  • The objective of this program of study is to introduce the fundamental processes of heat transfer and thermodynamics in complex engineering systems to enable more efficient, cost effective, and reliable designs with less environmental pollution and impact. (ucdavis.edu)
  • Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences have developed a simple device that mimics complex birdsongs. (phys.org)
  • Energy Solutions-Managing the reliability, efficiency, and performance of equipment throughout complex energy generation and consumption systems, including coal-fired power plants or the International Space Station. (wikipedia.org)
  • Systems biology, on the other hand, seeks to exploit the engineer's familiarity with complex artificial systems, and perhaps the concepts used in "reverse engineering", to facilitate the difficult process of recognition of the structure, function, and precise method of operation of complex biological systems. (wikipedia.org)
  • medical
  • A biological systems engineer has a background in what both environmental engineers and biologists do, thus bridging the gap between engineering and the (non-medical) biological sciences - although this is variable across academic institutions. (wikipedia.org)
  • He is an elected fellow of the American Physiological Society, the American Institute for Medical and Biological Engineering, and the Biomedical Engineering Society. (pitt.edu)
  • Healthcare Technology Management (sometimes referred to as clinical engineering, clinical engineering management, clinical technology management, healthcare technology management, medical equipment management, biomedical maintenance, biomedical equipment management, and biomedical engineering) is a term for the professionals who manage operations, analyze and improve utilization and safety, and support servicing healthcare technology. (wikipedia.org)
  • Medical equipment managers are also responsible for technology assessment, planning and management in all areas within a medical treatment facility (e.g. developing policies and procedures for the medical equipment management plan, identifying trends and the need for staff education, resolution of defective biomedical equipment issues). (wikipedia.org)
  • Physicist Richard Feynman theorized about the idea of a medical use for these biological machines, introduced into the body, to repair or detect damages and infections. (wikipedia.org)
  • Science
  • Berkeley Biomedical Data Science Center. (qualitydigest.com)
  • Space Systems-As "NASA's technology development partner and transition agent for planetary exploration", development of GN&C and high-performance science instruments. (wikipedia.org)
  • In addition, because it is an engineering discipline, biological engineering is fundamentally concerned with not just the basic science, but its practical application of the scientific knowledge to solve real-world problems in a cost-effective way. (wikipedia.org)