Nano Engineering This lecture provides an introduction to the procedures, techniques, problems, an difficulties of nano engineering and atomic-scale design. Discusses a fundamentals of device physics, synthesis, and design of molecular processing platforms and molecular integrated circuits. Learn the fabrication technologies used for today's applications and beyond. |
Bioelectronics Engineering This lecture introduces the basic manufacturing and fabrication processes and the current range of applications for the hybrid devices; biosensor, microarray, protein chip, cell chip, neuron chip and lab-on-a chip ; results of the emerging technologies of a bio-engineering and electronics. |
Nano Device Processing This lecture focuses on basic studies of phenomena and processes in NEMs and MEMs, synthesis of nano-and micro-scale devices and systems, designing components. Discusses the application and impact of these structures, devices, and systems to a variety of fields. |
Body Sensor Networks This lecture addresses the issues of rapidly changing field of new sensing and monitoring devices for healthcare and the use of wearable/wireless and implantable sensors ; discusses the latest technological developments and clinical applications of body-sensor networks. |
NanoBio Technology This lecture provides a comprehensive review of various nanotechnologies with a view to their biomedical applications. Reviews recent advances in various nanotechnologies based on polymers, biomaterials, and metals. Discusses biomedical nanotechnology in areas such as drug and gene delivery system. |
Bio Info-communication This lecture introduces the sensing and monitoring, communication devices for healthcare related to system integration, sensor miniaturization, low-power sensor interface circuitry design, wireless telemetric links and signal processing. Moreover, issues related to quality of service, security, multi-sensory data fusion, and decision support are active research topics. |
Nano-Electronic Semiconductor Devices This lecture provides a understanding of semiconductor structures on short length and short time scales for future electronic devices. Discusses a state-of-the-art overview of theoretical methods, results, and applications in the Semiconductor Nanostructures. |
BioMEMS This lecture introduces the design and application of BioMEMS : MEMS technologies for use in biological and medical areas. Major topics : fabrication technologies using non-silicon materials that are appropriate for medical/biological analyses ; microfluidic components and sensing technologies for sample preparation, delivery, and analysis ; various applications and systems at the leading edge of BioMEMS technology in a variety of areas. |
Biosensor and Instrumentation Engineering This lecture introduces the basic principle features of biosensors, discussing the types of biological materials used and the ways in which they can be connected with a variety of transducers to create the complete biosensor. Discusses their construction and their applications in a range of fields. |
Advanced BioMedical Instrument This lecture introduce the principles, applications and design of the medical instrumentation and measurements most commonly used in hospitals. Encompassing the sensors, nanoscience, biomedical Engineering, and Instruments features the latest developments, the broadest scope of coverage, and new material on multisensor data fusion and MEMS and NEMS. It will provide varied healthcare industry applications for each type of instrument. |