Ian Costanzo received his B.Sc. degree in Mechanical Engineering, with a minor in Electrical Engineering from Worcester Polytechnic Institute (WPI), Worcester, Massachusetts in 2015. He received his M.S. degree in Electrical Engineering in 2017, also from WPI. He is currently a Ph.D. candidate in the New England Center for Analog and Mixed Signal IC Design (NECAMSID) and the Integrated Circuits and Systems Lab (ICAS).
Ian’s research interests cover a broad range of circuits and systems, from kilowatt RF subsystems to microwatt data converters. During his Master’s, Ian worked on solid-state, high-power RF matching networks and RF amplifiers for semiconductor processing applications. His Ph.D. research focuses analog and mixed-signal design for a wearable wireless sensor patch for monitoring of respiratory functions in premature infants.
JOURNAL PAPERS
- I. Costanzo, D. Sen, L. Rhein, and U. Guler, “Respiratory Monitoring Devices and Technologies: A Case for Wearables,” under review 2020.
- A. Alqudsi, I. Costanzo, A. Mavretic, and R. Ludwig, “Developing a High-Power Multilayer Ceramic Capacitor Qualification Test Setup for RF Subsystems,” in IEEE Transactions on Instrumentation and Measurement, vol. 68, no. 9, pp. 3396-3404, Sept. 2019.
CONFERENCE PAPERS
- I. Costanzo, D. Sen, and U. Guler, “ An Integrated Readout Circuit for a Transcutaneous Oxygen Sensing Wearable Device,” in IEEE Custom Integrated Circuits Conference, (CICC), March 2020.
- I. Costanzo, D. Sen, N. Pratt, B. Giri, P. M. Rao, and U. Guler, ”Fluorescent Intensity and Decay Measurement of Pt-Porphyrin Film for Determining the Sensitivity of Transcutaneous Oxygen Sensor,” in IEEE International Circuits and Systems Conference, (ISCAS), May 2020
- I. Costanzo, D. Sen, and U. Guler, “A Prototype towards a Transcutaneous Oxygen Sensing Wearable,” in IEEE Biomedical Circuits and Systems Conference, (BIOCAS), October 2019, pp.1-4