Member of IEEE since 2009, SIGMA Xi Scientific Research Society
Governing Body / Council of Xavier Institute of Engineering
Member of Editorial Board, WHIOCE PUBLISHING PTE. LTE.
Member, Governing Board, St. Xavier’s College, Fort, Mumbai
Member, Governing Board, Boys Academy, Churchgate, Mumbai
Member, Governing Board, St. Xavier’s B.Ed College, Churchgate, Mumbai.
Advisory board IEEE-CSCITA 2014, 2017 and 2020 conferences, SFIT, Mumbai.
Member, Governing Board, Campion School, Fort, Mumbai – from 2020
Coordinator of Higher Education for the Bombay Jesuit Province since 2017
Fr.Dr. John Rose SJ, "Gray Counters for Non-Volatile Memories", Submitted to Memories - Materials, Devices, Circuits and Systems (Elsevier) on August 2nd 2022, and Accepted on Sep. 4, 2022., Manuscript Number: MEMORI-D-22-00012R1, Manuscript Number: M, Accepted on Sep. 4, 2022.
Fr.Dr. John Rose SJ, "John Rose Santiago, Krunal V. Patel, Md A Sattar, Norman G. Gunther and Mahmudur Rahman,, “Modeling and Experimental Verification of TIGBT Detailed Internal Electric Fields which Lead to Breakdown,” IEEE Trans. On Electron Devices, IEEE Transactions", Electron Devices, vol. 62, No. 8, pp. 2542-2548, ., August 2015.
Fr.Dr. John Rose SJ, "Santiago, J.R., Samuel, S.J., and Sawn, R. 2014. “, http://dx.doi.org/10.4108/casa.2.3.e2 EAI Endorsed Transactions on Context-aware Systems and Applications (E-ISSN: 2409-0026), EUDL, 15(3):e2.", ., ., ., ..
Fr.Dr. John Rose SJ, "John Rose Santiago, Krunal V. Patel, Norman G. Gunther and Mahmudur Rahman, “Modeling of Detailed Internal Electric Field in a Trench Insulated Gate Bipolar Transistor using Variational Thermodynamic Methodology,”", IEEE China Semiconductor Technology International Conference (CSTIC), , pp. 94-99, March 14-16, 2015..
Fr.Dr. John Rose SJ, "John Rose Santiago*, Krunal V. Patel, Norman G. Gunther and Mahmudur Rahman, “Modeling of Detailed Internal Electric Field in a Trench Insulated Gate Bipolar Transistor Using Variational Thermodynamic Methodology,”", SIGMA XI – The Scientific Research Society Poster Session, ., ., April 22, 2015.
Fr.Dr. John Rose SJ, "John R. Santiago, Krunal V. Patel, Md A Sattar, Norman G. Gunther and Mahmudur Rahman, “Variational thermodynamic and finite element analysis models of the Metal-Oxide- Semiconductor capacitor,”", IEEE International Conference on Circuits, Systems, Communication and Information Technology Applications (CSCITA), , pp. 168~172,, 2014.
Fr.Dr. John Rose SJ, "Using algebraic signatures to compress built-in self-test on a chip", 2nd International Conference on Communication Systems, Computing and IT Applications (CSCITA), IEEE,, , pp. 95-100, 2017, April.
Fr.Dr. John Rose SJ, "Combinatorial and Rectangular Layouts as Building Blocks for Local Reconstruction Codes.", 3rd International Conference on Communication System, Computing and IT Applications in 2020 (CSCITA), IEEE, , pp. 7-12, 2020, April.
Fr.Dr. John Rose SJ, "Needles in a Haystack: How pooling can limit error rates in tests", 2021 IEEE International Conference on Communications Workshops (ICC Workshops) COVI-COM, DOI: 10.1109/ICCWorkshops50388.2021.9473730, DOI: 10.1109/ICCWork, 2021.
Fr.Dr. John Rose SJ, "Santiago, J.R., Samuel, S.J., and Sawn, R. 2014. “Modified Virtual Air Guitar: A concept realized using Image Processing Techniques”.", the 3rd International Conference on Context-Aware Systems and Applications,, , ACM, 75 – 79., October 07 – 09, 2014.
Fr.Dr. John Rose SJ, "S J Thomas Schwarz, Ahmed Amer, John Rose, “RESAR: Reliable Storage at Exabyte Scale Reconsidered", International Conference on Communication Systems, Computing & IT Applications (CSCITA),, , pp. 84-89, 2017.
Fr.Dr. John Rose SJ, "John Rose, Norman Gunther, Md A. Sattar; Mahmudur Rahman, “A Variational Thermodynamic Methodology Applied to Model Critical Smart Grid Electronic Devices", IEEE International Conference on Communication Systems, Computing & IT Applications (CSCITA),, , pp. 116-12, 2017.
UG Level
Workshop / Seminar / STTP Conducted
Training Course
PhD Thesis: Modeling of Internal Electric Fields using the Variational Thermodynamic Methodology and Investigation of Gate-Emitter Breakdown Characteristics of Trench Insulated Gate Bipolar Power Transistor
Device Modeling, Variational Thermodynamic Methodology, Deep Learning, Machine Learning, IoT