Prof. Charles G Sodini
Professor of Electrical Engineering
Co-Director, Medical Electronic Device Realization Center (MEDRC)
Primary DLC
Department of Electrical Engineering and Computer Science
MIT Room:
39-527B
Areas of Interest and Expertise
Technology Intensive Integrated Circuit and Systems Design
Application Toward Sensory Interface Electronics Emphasizing Analog Signal Processing and RF Communications
Design of Technology-Intensive Microsystems, Emphasizing Integrated Circuit and System Design for Medical Electronic Devices
Wearable and Minimally Invasive Monitoring and Imaging
Application Toward Sensory Interface Electronics Emphasizing Analog Signal Processing and RF Communications
Design of Technology-Intensive Microsystems, Emphasizing Integrated Circuit and System Design for Medical Electronic Devices
Wearable and Minimally Invasive Monitoring and Imaging
Research Summary
Professor Sodini’s principal fields of interest are electronics and integrated circuit design and technology. More specifically, technology intensive integrated circuit and systems design, with application toward medical electronic devices for personal monitoring of clinically relevant physiological signals.
Professor Sodini’s group is exploring novel integrated technology, device physics, and circuit design, and its application to specific microsystems including medical electronic systems for monitoring and imaging. The requirements of the systems dictate the areas in which innovation must take place. This approach allows students to understand and play a role in the big picture while simultaneously concentrating on specific innovation in a tightly focused project. The program is a fertile ground for students to learn and appreciate the importance of breadth across many disciplines for systems optimization as well as depth in their particular project. These students will be prepared for the broad challenges that microelectronic technology will face in the 21st century.
Professor Sodini’s group is exploring novel integrated technology, device physics, and circuit design, and its application to specific microsystems including medical electronic systems for monitoring and imaging. The requirements of the systems dictate the areas in which innovation must take place. This approach allows students to understand and play a role in the big picture while simultaneously concentrating on specific innovation in a tightly focused project. The program is a fertile ground for students to learn and appreciate the importance of breadth across many disciplines for systems optimization as well as depth in their particular project. These students will be prepared for the broad challenges that microelectronic technology will face in the 21st century.
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Projects
January 22, 2019Department of Electrical Engineering and Computer Science
The AutoScope: An Automated Point-of-Care Urinalysis System
Principal Investigator Charles Sodini
January 22, 2019Department of Electrical Engineering and Computer ScienceCardiac Output Measurement Using Ballistocardiography and Electrocardiography
Principal Investigator Charles Sodini
December 16, 2015Department of Electrical Engineering and Computer ScienceLong-Term, Subdermal Implantable EEG Recorder and Seizure Detector
Principal Investigator Charles Sodini
December 16, 2015Department of Electrical Engineering and Computer ScienceA Wearable Long-Term Cardiac Monitor
Principal Investigator Charles Sodini
December 16, 2015Department of Electrical Engineering and Computer ScienceA Portable Bioimpedance Measurement System for Congestive Heart Failure Management
Principal Investigator Charles Sodini
December 16, 2015Department of Electrical Engineering and Computer ScienceNon-Invasive Arterial Pressure Waveform Monitoring
Principal Investigator Charles Sodini
December 16, 2015Department of Electrical Engineering and Computer ScienceAn Electronically Steered, Wearable Transcranial Doppler (TCD) Ultrasound
Principal Investigator Charles Sodini
December 15, 2010Department of Electrical Engineering and Computer ScienceMIT Medical Electronic Device Realization Center (MEDRC)
Principal Investigator Charles Sodini
September 26, 2007Department of Electrical Engineering and Computer ScienceNear-Room-Temperature Processed Metal Oxide Field Effect Transistors for Large-Area Electronics
Principal Investigator Charles Sodini
September 26, 2007Department of Electrical Engineering and Computer ScienceIntegrated Organic Circuits and Technology for Large Area Optoelectronic Applications
Principal Investigator Charles Sodini