Titus-CV
`
`
`Curriculum vitae
`Albert H. Titus
`
`
`
`
`
`
`
`332 Bonner Hall
`University at Buffalo, The State University of New York
`Buffalo, NY 14260
`716-645-1019
`
`
`
`
`
`
`
`
`
`
`52 Tillinghast Place
`Buffalo, NY 14216
`
`
`
`
`
`EMAIL: ahtitus@buffalo.edu
`
`
`I. Research Interests
`
`Analog integrated circuit design, bio-inspired visual systems on a chip, focal-plane arrays,
`integrated sensors, biomedical electronic devices and systems, optoelectronics, nanoelectronics,
`neural networks.
`
`II. Education
`
`1997
`
`
`1991
`
`
`1989
`
`
`
`
`
`Ph.D. Electrical and Computer Engineering, Minor in Mathematics
`Georgia Institute of Technology, Atlanta, GA
`Thesis: “Biologically Inspired Models of Stereopsis: Theories and VLSI
`Implementation”
`Advisor: Timothy J. Drabik
`
`M. S. Electrical and Computer Engineering
`State University of New York at Buffalo, Buffalo, NY
`Thesis: “Optical Pulse Compression”
`Advisor: Pao-Lo Liu
`
`B. S. Electrical and Computer Engineering, Minor in Mathematics
`(summa cum laude)
`State University of New York at Buffalo, Buffalo, NY
`
`III. Employment
`A. Faculty Appointments:
`August 2012- Professor
`Present Department of Biomedical Engineering
` University at Buffalo (UB)
`
`August 2007-
`August 2012
`
`
`
`
`
`July1 2001-
`August 2007
`
`Associate Professor
`Department of Electrical Engineering
`University at Buffalo
`
`Assistant Professor
`Department of Electrical Engineering
`
`
`
`1
`
`Page 1
`
`VALENCELL EXHIBIT 2008
`IPR2017-00317
`
`

`

`
`
`
`
`Titus-CV
`
`
`
`December 1996-
`June 2001
`
`
`
`
`
`
`University at Buffalo
`
`Assistant Professor
`Department of Electrical Engineering
`Rochester Institute of Technology
`
`B. University at Buffalo Administrative Positions:
`July 2012-Present:
`
`Chair, Department of Biomedical Engineering
`
`June 2010- July 2012:
`
`June 2009 - June 2010:
`
`May 2008- June 2009:
`
`Co-Chair, Department of Biomedical Engineering
`
`Associate Chair, Department of Biomedical Engineering
`
`
`
`Associate Dean for Program Development, School of Engineering and
`Applied Sciences
`
`Associate Chair, Department of Electrical Engineering
`
`
`
`
`
`Aug 2008- June 2009 :
`
`
`C. Teaching/Research Assistantships and Other Work Experience
`Spring 1996:
`
`Teaching Assistant, School of Electrical and Computer Engineering
`Georgia Institute of Technology
`
`
`Summer-Fall 1995:
`
`
`1991-1996:
`
`
`1989-1991:
`
`
`1989-1990:
`
`
`1990-1991:
`
`
`
`
`
`
`
`
`
`
`Summer 1988:
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Research Assistant, School of Electrical and Computer Engineering
`Packaging Research Center
`Georgia Institute of Technology
`
`Research Assistant, School of Electrical and Computer Engineering
`Microelectronics Research Center
`Georgia Institute of Technology
`
`Research Assistant, Dept. of Electrical and Computer Engineering
`State University of New York at Buffalo
`
`Teaching Assistant, Dept. of Electrical and Computer Engineering
`State University of New York at Buffalo
`
`Research Engineer
`Wilson Greatbatch Ltd. Clarence, NY
`
`Student Engineer
`General Electric, Co. Utica, NY
`
`2
`
`Page 2
`
`

`

`Titus-CV
`
`IV. Honors and Awards
`• NSF CAREER Award (2000)
`• 2011 Popular Science Top Ten Inventions Award – “Dynamically Glare-Blocking Glasses”
`(contribution through U.S. Patent Number 7,586,079)
`• Elevated to Senior Member status in IEEE (2011)
`• Exceptional Scholar Program: Young Investigator Award, University at Buffalo (2006)
`• Teaching Innovation Award, University at Buffalo (2010)
`• Western NY Inventor of the Year Award: First Place in the Physical Sciences, Niagara
`Frontier Intellectual Property Law Association (NFIPLA) (2010)
`• Rieffler Award (2002)
`• Selected as First Scientists Helping America Conference sponsored by US Special
`Operations Command (USSCOM), DARPA and the Naval Research Lab (2002)
`• Selected as a participant in the Upstate Alliance for Innovation funded by the National
`Science Foundation (2001)
`• Presidential Graduate Fellowship, Georgia Institute of Technology (1991-95)
`• Presidential Graduate Fellowship, SUNY at Buffalo (1989-1991)
`
`• Presidential Honors Student, SUNY at Buffalo (1985-1989)
`
`V. Sponsored Research
`
`A. Externally Funded Research Grants (Total Value: >$6.4M)
`1.
`(co-PI), Garwood Medical Devices, “Therapeutic Electrical Stimulation Technology and
`Device Development,” (PI: E. Furlani, other Co-PIs: A. Campagnari, M. Ehrensberger, T.
`Furlani, and J. Jornet), October 2016-October 2021.
`(co-PI), US Navy Office of Naval Research, “An Electrochemical Sense and Respond
`Osseointegrated Prosthesis,” (PI: M. Ehrensberger, other Co-PIs: A. Campagnari), July
`2016-June 2017.
`(PI), PEEVA LLC, “Universal RFID Scanner Project - Phase 2,” July 2016-December 2016.
`(PI), UB Center for Advanced Biomedical and Bioengineering Technology (UB CAT with
`Heads Up Display, Inc.), “UB CAT: Heads Up Safe Platform Extension,” August 2016-June
`2017.
`(PI), PEEVA LLC, “Universal RFID Scanner Project - Phase 1,” December 2015-March
`2016.
`(PI), UB Center for Advanced Biomedical and Bioengineering Technology (UB CAT with
`NE Innovations), “Comprehensive Real-time BioSensing Headwear,” August 2015-June
`2016.
`(PI), UB Center for Advanced Biomedical and Bioengineering Technology (UB CAT with
`Heads Up Display, Inc.), “Heads Up Phase 2: Software Interface Optimization,
`Commercialization, and Platform Extension,” August 2015-June 2016.
`(PI), UB Center for Advanced Biomedical and Bioengineering Technology (UB CAT with
`Sentient, Inc.), “BioFuSenS development,” March 2015-June 2015.
`(PI), Sentient, Inc., “BioFuSenS Integrated Circuit Design and Fabrication,” December
`2014-March 2015.
`10. (PI), UB Center for Advanced Biomedical and Bioengineering Technology (UB CAT with
`New Era), “Biosensing Systems,” August 2014-June 2015.
`
`2.
`
`3.
`4.
`
`5.
`
`6.
`
`7.
`
`8.
`
`9.
`
`
`
`3
`
`Page 3
`
`

`

`Titus-CV
`
`
`11. (PI), Sentient, Inc (Navy SBIR/STTR Subcontract), “STTR: Development of a Sensor Chip
`for the BioFuSenS: Bioelectronic Fusion Sensor System,” August 2014-June 2015.
`12. (PI), Dylix, Inc., “Sensor Electronics Redesign and Digital Control Development,” February
`2014-August 2014.
`13. (PI), Rover Collars, “Prototype Development of Rover Collar Phase 2,” January 2014-July
`2014.
`14. (PI) Bird Technology Group, “Development of a Micro-fabricated, DC-substitution RF
`Calorimeter: Phase 3,” August 2012-August 2014.
`15. (PI) Bird Technology Group, “Development of a Micro-fabricated, DC-substitution RF
`Calorimeter: Phase 2,” August 2011-August 2012.
`16. (PI) Bird Technology Group, “Development of a Micro-fabricated, DC-substitution RF
`Calorimeter,” August 2010-August 2011.
`17. (PI), National Science Foundation, “NUE: Nanophotonics Modules for Diverse Curricular
`Incorporation,” (A. Cartwright and V. Mitin are co-PIs), September 2009-August 2012.
`18. (PI), Siemens AG, “Stand-Alone System for Fully-Integrated Monitoring of Gas-Insulated
`Power Transmission and Distribution Components,” (J. Bird and J. Zirnheld are co-PIs),
`Jan 1, 2009-July 2010.
`(NIH/NIBIB),
`Health
`of
`Institutes
`19. (co-PI),
`National
`“Solid State X-ray Image Intensifier Development,” (PI: S. Rudin, CoPIs: D. Bednarek, A.N.
`Cartwright, D. Dashkoff, A. DelBalso, K. Hoffmann, L.N. Hopkins, C. Ionita, E. Levy, A.
`Siddiqui), April 1, 2008 – December 31, 2013.
`20. (PI), DynamicEye, Inc, through TCIE, “Improved Glare Sensor Chip,” Jan 1 2007- Dec 31,
`2007.
`21. (PI), Sterbutzel Research Fund, “Development of a Modular Multi-Analyte Sensor System,”
`(F. Bright is co-PI (10%)), June 1, 2006-May 31, 2007.
`22. (Co-PI), John R. Oishei Foundation, “Unobtrusive Disease Detection by Odor Typing,” (F.
`Bright is PI, A. Cartwright, V. Govindaraju, and W.L. Hicks are co-PIs), May 2006-May
`2008.
`23. (PI), Dynamic Eye (TCIE-SPIR), “Toward an Improved Glare Sensor Array,” July 2004-
`March 2005.
`24. (PI), Johnson & Johnson Inc. Focused Giving Program, “A Biologically Inspired Smart
`Sensor System (BIS3) for Health Monitoring,” (A. Cartwright is co-PI), June 2004-June
`2007.
`25. (PI), Michael Swiader-Knowna, “Novel Mouse Design,” August 2004-October 2004.
`26. (PI), UB Biomedical and Bioengineering CAT, “Unobtrusive Biometric Sense, Transmit,
`Assess and Respond System (UB-STARS),” (F. Bright, V. Govindaraju, A. Cartwright are
`co-PIs), Oct 2003-June 2004.
`27. (PI), National Science Foundation, “SENSORS: Solid-State Imprinted Xerogel Arrays
`Integrated with Smart CMOS Detectors for Biological Agents,” (F. Bright and A.
`Cartwright are co-PIs), September 15, 2003 - August 31, 2006.
`28. (PI), Intel Corp., “Continuation of the Routing/Packaging Study,” (A. Cartwright is co-PI),
`Sept 1, 2003-August 31, 2004.
`29. (PI), Ultrascan, Inc., “Toward a Single-Chip, Digitally Controlled High Gain and Peak-
`Detector Circuit,” May 2003-Aug 2003.
`30. (PI), UB-IRCAF, “Integration of Xerogels and CMOS Smart Pixel Arrays for Biosensor
`Systems” (F. Bright Co-PI), November 1, 2002 – October 31, 2003.
`
`
`
`4
`
`Page 4
`
`

`

`Titus-CV
`
`
`2.
`
`3.
`
`4.
`
`5.
`
`6.
`
`31. (Co-PI), NSF-MRI, “Acquisition of a Nanostructure Fabrication and Characterization
`System for Research and Education,” (PI is B. McCombe, P. Prasad, A. Cartwright and H.
`Luo are co-PIs), August 2002 – August 2005.
`32. (PI), National Science Foundation, REU supplement, Supplement to CAREER award,
`supporting an undergraduate student as a research assistant, July 2002-June 2003.
`33. (PI), Intel through the Electronics Packaging Laboratory, “Analysis of Electronic
`Packaging Problems,” (A. Cartwright co-PI), January 2002-December 2002.
`34. (PI), National Science Foundation, CAREER Award,
`“Modularized Silicon-based
`Neuromorphic Visual Processing Systems Implemented in Analog VLSI,” Sept 2000-Aug
`2005.
`
`B. Institutional Grants - University at Buffalo (Total Value: $470K)
`1.
`(co-PI), UB Innovative Micro-Programs Accelerating Collaboration in Themes (IMPACT),
`“Developing the methodology to measure food reward in young infants,” (PI: L. Epstein,
`other Co-PI is K.-L. Kong), March 2016-March 2017.
`(co-PI), UB HomeBASE, “Asthma Medical Device for Decision-Support and Symptom
`Control,” (J. Castner co-PI), August 2013-June 2017.
`(co-PI) UB IRDF, “Development of a Small Animal Single Photon Emission Computed
`Tomography (SPECT) and Computed Tomography (CT) Dual Function Imager with an X-
`ray Detector,” (R. Yao is PI, S. Rudin, M. Sajjad, R. Miletich, and J. Balthasar are co-PIs),
`March 2010-March 2011.
`(Co-PI) UB-IRCAF, “Equipment: Optical Mask Aligner for Nanotechnology Research” (J.
`Bird is PI; A. Markelz is co-PI), November 1, 2004 – October 31, 2005.
` (Co-PI), UB-IRCAF, “Highly Selective Solid State Multianalyte Biosensors” (T. Connell is
`PI; F. Bright and A. Cartwright are co-PIs), November 1, 2004 – October 31, 2005.
`(PI), UB Start-up funds, August 2001 – August 2003).
`
`C. Institutional Grants - Rochester Institute of Technology (Total Value: $1,128,214)
`1.
`(Co-PI), Rochester Institute of Technology, Kate Gleason College of Engineering,
`Laboratory for Autonomous Collaborative Microsystems (LACOMS), (1 of 9 co-PIs), Start
`date: Nov. 2000.
`(PI), Rochester Institute of Technology, Kate Gleason College of Engineering Research
`Development Program, “Telepresence for Real Time Remote Control of a Specialized
`Integrated Circuit Test Facility,” (E.C. Chung co-PI), Award received Sept. 1, 1999,
`completed Aug. 31, 2000.
` (PI), Rochester Institute of Technology, Provosts Productivity Grant, “A Problem Based
`Learning Approach to EE 352, Circuit Analysis II,” Funding for salary recovery, Award
`received June 1999, Completed Aug. 2000.
` (PI), Rochester Institute of Technology Faculty Enhancement and Development Award.
`$10595 (direct costs) Development of a Research Program in Analog Integrated Circuit
`Design. (P.R. Mukund co-PI), Funding for equipment purchases and IC fabrication. Award
`received April 1999.
`(PI), Rochester Institute of Technology Faculty Enhancement and Development Award,
`“Development of an Integrated Circuit Component Library for Use in an Analog/Mixed
`Signal Integrated Circuit Design Course.” Funding for IC design software purchase, Award
`received April 1998, completed Sept. 1998.
`
`2.
`
`3.
`
`4.
`
`5.
`
`
`
`5
`
`Page 5
`
`

`

`Titus-CV
`
`
`6.
`
`(PI), Texas Instruments/Douglass Harvey Faculty Development Award, “Study of noise in
`analog VLSI amplifiers for use in CMOS detectors,” Funding for summer salary and IC
`fabrication, Award received May 1998, completed March 1999
`
`
`VI. Patents Awarded
`(NOTE: In the following sections, my students are indicated in bold, * indicates co-advisee with Prof. Alexander
`Cartwright)
`1. “Temporally Addressable Detection Array,” A. H. Titus, A.N. Cartwright, F.V. Bright, U.S.
`Patent Number 8,501,098, August 6, 2013.
`2. “Sensor and Method of sensing Having an Energy source and Detector on the same Side of
`a Sensor Substance,” A. H. Titus, A.N. Cartwright, and F.V. Bright, U.S. Patent Number
`7,897,108, March 1, 2011.
`3. “pH-change sensor and method,” V.P. Chodavarapu*, A. N. Cartwright, A.H. Titus; R.M.
`Bukowski, and F.V. Bright, U.S. Patent Number 7,794,584, September 14, 2010.
`4. “Low Power Glare Sensor,” C. S. Mullin, A. H. Titus, and K. Bhagavathula, U.S. Patent
`Number 7,586,079, September 8, 2009 (Key component in the Popular Science top
`inventions of 2011, http://www.popsci.com/diy/article/2011-05/2011-invention-
`awards-glare-killer).
`5. “A Method and Apparatus for Correcting a Phase Shift Between a Transmitter and
`Receiver,” D.P. Phinney and A. H. Titus, U.S. Patent No. 6,868,135, March 15, 2005.
`6. “A Method and Apparatus for Multiple Document Detection Using Ultrasonic Phase Shift
`and Amplitude,” D.P. Phinney, D.M. Pultorak, and A. H. Titus, U.S. Patent No. 6,511,064,
`Jan 28, 2003.
`
`VII. Patents and Inventions Disclosed
`1. “Wireless implantable potentiostat for constant cathodic stimulation of orthopedic implant,”
`K. Weeks, M. Ehrensberger, and A.H. Titus, disclosure submitted to UB Technology
`Transfer Office, January 2017.
`2. “Microfabricated Calorimeter for RF Power Measurements,” J. Meltzer, A.H. Titus, B. Neji
`and J. Xu, Patent Application 14/185,298, April 2014 (pending).
`3. “A Method for predicting patient outcomes from physiological measurements,” Disclosure
`submitted to STOR (R-6484), A.H. Titus, A. Phadke, J. Canty, and J. Fallavolitta, January
`2010.
`4. “Non-Invasive Screening Device for Upper Aero-Digestive Tract Neoplasia,” F.V. Bright,
`A.N. Cartwright, V. Govindaraju, W.L. Hicks Jr. and A. H. Titus, Disclosed: March 24,
`2006.
`(Provisional Patent App. 60/615,473)
`ISFET Based pH Sensor,”
`5. “CMOS
`Chodavarapu*, A. H. Titus, A.N. Cartwright,) filed October 1, 2004.
`6. “Detection Device and Method Using Modulated Energy,” (Patent App. 10/948,062) (A. H.
`Titus and F.V. Bright) filed September 23, 2004.
`
`VIII. Publications
`Google Scholar: citation count: 687, h-index: 15, i-10 index: 21.
`A. Refereed Journals (Submitted or in Preparation)
`1. P. Dharmavaram, K.L. Kong, S. Anzman-Frasca, L. Epstein, and A.H. Titus, “Intra-Oral
`Pressure Measurement Device for Infants, “ to be submitted to IEEE Trans. On Biomedical
`Circuits and Systems.
`
`(V.
`
`
`
`6
`
`Page 6
`
`

`

`Titus-CV
`
`
`2. K. Weeks, M. Ehrensberger, and A.H. Titus, “Implantable Voltage-Controlled Stimulation
`Device for Biofilm Eradication,” to be submitted to IEEE Trans. On Biomedical Circuits
`and Systems.
`3. M.L. DeMarie and A.H. Titus, "Low Power CMOS Dynamical Oscillator Circuit,” to be
`submitted to IEEE Transactions on Circuits and Systems II.
`B. Refereed Journals (Published or in Press)
`1. S. Natarajan, J. Castner, and A. H. Titus, "Smart phone-based peak expiratory flow
`meter," Electronics Letters, vol. 52, pp. 904-905, 2016.
`2. J. Castner, S. Sullivan, A. Titus, and K. Klingman, “Strengthening the role of nurses in
`medical device development,” Journal of Professional Nursing, vol. 32, pp. 300-305, 2016.
`3. K. Klingman, J. Castner, A. Titus, “A review of worldwide patents: Innovations in peak
`flow meters for asthma,” Nursing Research, vol. 65, pp. 238-24, 2016.
`4. J. Castner, K. Klingman, S. Sullivan, W. Xu, and A. Titus, “Hitting home with technology
`development for asthma,” The Lancet Respiratory Medicine, vol. 4, pp. 102-103.
`5. K.Y. Yung, Z. Zhan, G.A. Baker, A.H. Titus, F.V. Bright, “Ratiometric, Filter-free Optical
`Sensor Based on a Complementary Metal Oxide Semiconductor Buried Double Junction
`Photodiode,” Analytica Chimica Acta, vol. 884, pp. 77-82, 2015.
`6. E. Tehan, R. Bukowski, V. Chodavarapu, A. Titus, A. Cartwright, and F. Bright,
`"Creating Diversified Response Profiles from a Single Quenchometric Sensor Element by
`Using Phase-Resolved Luminescence," Sensors, vol. 15, pp. 760-768, 2015.
`7. B. Neji, J. Xu, A.H. Titus, and J. Meltzer, “Micro-Fabricated DC Comparison Calorimeter
`for RF Power Measurement,” Sensors, vol. 14, no. 11, pp. 20245-20261, 2014.
`8. Y. Huang, A.H. Titus, D.R. Bednarek, A.N. Cartwright, and S. Rudin, “High Resolution
`Solid State X-ray Image Intensifier (SSXII) for a Modular Array - Design and Evaluation,”
`IEEE Transactions on Nuclear Science, vol. 60, pp. 20-29, 2013.
`9. Z. Zhan, B. Zhou, Z. Fu, F.V. Bright, A.N. Cartwright, C. M. Bartsch, A. H. Titus,”
`Filterless Optical Oxygen Sensor Based on a CMOS Buried Double Junction Photodiode,”
`Sensors and Actuators B: Chemical, v. 176, pp.729-735, 2013.
`10. A. H. Titus, L. Tu, and C. S. Mullin, “Autonomous low-power glare sensing chip,”
`Electronics Letters, vol. 47, pp. 508-509, 2011 (featured article).
`11. B. Jaiswal and A.H. Titus, “Escape Routing in Modern Area Array Packaging: An Analysis
`of Need, Trend and Capability,” IEEE Transactions on Advanced Packaging, vol 33, no. 1,
`pp. 13-18, 2010.
`12. Z.H. Fu, C.P. Joshi, and A.H. Titus, “CMOS-based colour-change pH measurement
`system,” Electronics Letters, vol. 45, pp. 1138-1140, 2009.
`13. Z.H. Fu and A.H. Titus, “CMOS Neuromorphic Optical Sensor Chip with Color Change-
`Intensity Change Disambiguation (CCICD),” IEEE Sensors Journal, vol. 9, no. 6, pp. 689 –
`696, 2009.
`14. C. P. Joshi and A. H. Titus, "Towards an autonomous integrated sensor system," Sensors
`and Actuators B: Chemical, vol. 139, pp. 110-117, 2009.
`15. F. Yang and A. H. Titus, "Integrated colour detectors in 0.18 um CMOS technology,"
`Electronics Letters, vol. 43, pp. 1279-1281, 2007.
`16. V. P. Chodavarapu*, R. M. Bukowski, A. H. Titus, A. N. Cartwright, and F. V. Bright,
`“CMOS integrated luminescence oxygen multi-sensor system,” Electronics Letters, vol. 43,
`pp. 688-689, 2007.
`
`
`
`7
`
`Page 7
`
`

`

`Titus-CV
`
`
`17. R. M. Bukowski, V. P. Chodavarapu*, A. H. Titus, A. N. Cartwright, and F. V. Bright,
`“Phase fluorometric glucose biosensor using oxygen as transducer and enzyme-doped
`xerogels,” Electronics Letters, vol. 43, pp. 202-204, 2007.
`18. K. Bhagavathula, A. H. Titus, and C. S. Mullin, "An Extremely Low-Power CMOS Glare
`Sensor," IEEE Sensors Journal, vol. 7, pp. 1145-1151, 2007.
`19. V. P. Chodavarapu*, R. M. Bukowski, D. O. Shubin, A. H. Titus, A. N. Cartwright, and
`F.V. Bright, “CMOS-based Phase Fluorometric Oxygen Sensor System,” IEEE Transactions
`on Circuits and Systems I, vol. 54, no. 1, pp. 111-118, 2007.
`20. Y. Tang, Z. Tao, R. M. Bukowski, E. C. Tehan, S. Karri, A. H. Titus and F. V. Bright,
`“Tailored Xerogel-Based Sensor Arrays and Artificial Neural Networks Yield Improved
`Accuracy and Precision,” The Analyst, vol. 131, no. 10, pp. 1129-1136, 2006.
`21. R. M. Bukowski, M. D. Davenport, A. H. Titus and F. V. Bright, “O2-Responsive Chemical
`Sensors Based on Hybrid Xerogels that Contain Fluorinated Precursors,” Applied
`Spectroscopy, vol. 60, no. 9, pp. 951-957, 2006.
`22. S. Karri and A. H. Titus, "An Analog VLSI Velocity Sensor System for Depth Perception,"
`IEEE Sensors Journal, vol. 6, pp. 1287-1297, 2006.
`23. B. Jaiswal and A. H. Titus, “A Visualization Based Approach for Bump-pad/IO-ball
`Placement and Routing in Flip-chip/BGA Technology,” IEEE Transactions on Advanced
`Packaging, vol. 29, no. 2, pp. 576-586, August 2006.
`24. Z. Tao, E. C. Tehan, R. M. Bukowski, Y. Tang, E. L. Shughart, W. G. Holthoff, A. N.
`Cartwright, A. H. Titus, and F. V. Bright, "Templated xerogels as platforms for
`biomolecule-less biomolecule sensors," Analytica Chimica Acta, vol. 564, pp. 59-65, 2006.
`25. X. Fang, V. K. S. Hsiao, V. P. Chodavarapu*, A. H. Titus, and A. N. Cartwright,
`“Colorimetric Porous Photonic Bandgap Sensors with Integrated CMOS Color Detectors,”
`IEEE Sensors Journal, vol. 6, no. 3, pp. 661 – 667, 2006.
`26. M. Massoud and A. H. Titus, “An Analog VLSI Chip Emulating Polarization Vision of
`Octopus Retina," IEEE Transactions on Neural Networks, vol. 17, pp. 222-232, January
`2006.
`27. V. P. Chodavarapu*, R. M. Bukowski, S. J. Kim, A. H. Titus, A. N. Cartwright, and F. V.
`Bright, “Multi-sensor system based on phase detection, an LED array, and luminophore-
`doped xerogels,” Electronics Letters, vol. 41, pp. 1031-1033, 2005.
`28. V.P. Chodavarapu*, A. H. Titus and A.N. Cartwright , “Differential read-out architecture
`for CMOS ISFET Microsystems,” Electronics Letters, vol. 41, no. 12, pp. 35-56, 2005.
`29. S. Karri and A. H. Titus, “Toward an Analog VLSI System for Perceiving Depth Through
`Motion Parallax,” Optical Engineering, vol. 44, no. 6, 006402, 2005.
`30. A. H. Titus, B. Jaiswal, T. J. Dishongh, and A. N. Cartwright, "Innovative circuit board
`level routing designs for BGA packages," IEEE Transactions on Advanced Packaging, vol.
`27, pp. 630-639, 2004.
`31. M. Davenport, A. H. Titus, E. C. Tehan, Z. Tao, Y. Tang, R. M. Bukowski, and F. V.
`Bright, "Chemical Sensing Systems Using Xerogel-Based Sensor Elements and CMOS
`Photodetectors," IEEE Sensors Journal, vol. 4, pp. 180 – 188, 2004.
`32. M. Davenport and A. H. Titus, “Adaptive Resonance Theory Neural Network and its
`Application to Hierarchical Pattern Clustering,” IEEE Transactions on Neural Networks,
`vol. 15, no. 1, pp. 145 – 158, 2004.
`33. A. Gopalan and A. H. Titus, “A New Wide Range Euclidean Distance Circuit for Neural
`Network Hardware Implementations,” IEEE Transactions on Neural Networks (Special
`Issue on Neural Networks Hardware Implementations), vol. 14, pp. 1176-1186, 2003.
`
`
`
`8
`
`Page 8
`
`

`

`Titus-CV
`
`
`34. A. H. Titus and T.J. Drabik, “Optical Output Silicon Retina Chip,” Optical Engineering, vol.
`42, no. 8, pp. 2416-2426, 2003.
`35. A. H. Titus and T.J. Drabik, “Analog VLSI Implementation of the Help If Needed Algorithm
`(HINA),” IEEE Transactions on Circuits and Systems, pp. 1328-1337, 2000.
`36. T.J. Drabik, A. H. Titus, M.A. Handschy, D. Banas, S.D. Gaalema, and D.J. Ward, “2-D
`Silicon/Ferroelectric Liquid Crystal Spatial Light Modulators,” IEEE Micro, pp. 67-76,
`1995.
`C. Books and Book Chapters
`1. “CMOS Photodetectors,” V.P. Chodavarapu, M.C. Cheung, and A.H. Titus in Photodiodes
`/ Book 2, Jeong-Woo Park (Editor), July 2011, (ISBN 978-953-307-530-3).
`2. “Integrated Optical Sensors for Biophotonics Applications,” A. N. Cartwright and A. H.
`Titus, Advanced Study Institute on Biophotonics, North Atlantic Treaty Organization
`Scientific Affairs Division, Brian Wilson (Editor).
`D. Refereed Conference Proceedings and Presentations (submitted or to be presented)
`
`E. Refereed Conference Proceedings and Presentations (presented)
`1. S. Natarajan, J. Castner, and A. H. Titus, "Smart phone compatible peak expiratory flow
`meter," in 2014 IEEE Conference on Healthcare Innovation & Point-of-Care Technologies
`(HIC-POCT), 8-10 Oct. 2014, pp. 141-4.
`2. Z. Zhan, M. DeMarie, B. Zhou, X. Liu, J. Sun, and A. H. Titus, "Ultrathin color filter for
`wearable displays and multispectral imaging," in 22nd Color and Imaging Conference:
`Color Science and Engineering Systems, Technologies, and Applications, CIC 2014,
`Collocated with the 2nd Congress of the International Academy of Digital Pathology, IADP
`2014, Boston, MA, United States, 2014, pp. 103-106.
`3. B. Neji, X. Jing, A. H. Titus, and J. Meltzer, "Micro-fabrication of an absolute flow
`calorimeter for DC to RF power measurement," in 2013 IEEE 56th International Midwest
`Symposium on Circuits and Systems (MWSCAS), Columbus, Ohio, USA, 2013, pp. 701-4
`4. S. S. Nagesh, A. Jain, C. Ionita, A. Titus, D. Bednarek, and S. Rudin, “SU-D-134-03:
`Design Considerations for a Dose‐Reducing Region of Interest (ROI) Attenuator Built in
`the Collimator Assembly of a Fluoroscopic Interventional C‐Arm,” Medical Physics, vol.
`40, pp. 112-112, 2013.
`5. B. Loughran, S. S. Vasan, V. Singh, C. N. Ionita, A. Jain, D. R. Bednarek, A. H. Titus, and
`S. Rudin, "Design considerations for a new high resolution Micro-Angiographic Fluoroscope
`based on a CMOS sensor (MAF-CMOS)," in SPIE Medical Imaging, 3: Physics of Medical
`Imaging , 2013, pp. 866806-866806-9.
`6. S. N. S. Vasan, P. Sharma, V. Singh, A. Jain, C. N. Ionita, A. H. Titus, A. N. Cartwright,
`D. R. Bednarek, and S. Rudin, "Quantitative analysis of an enlarged area Solid State X-ray
`Image Intensifier (SSXII) detector based on Electron Multiplying Charge Coupled Device
`(EMCCD) technology," in Medical Imaging 2013: Physics of Medical Imaging, 9 Feb. 2013,
`USA, 2013, p. 86680J (10 pp.).
`7. S. N. Swetadri Vasan, P. Sharma, C. N. Ionita, A. H. Titus, A. N. Cartwright, D. R.
`Bednarek, and S. Rudin, "Image acquisition, geometric correction and display of images
`from a 2x2 x-ray detector array based on electron multiplying charge coupled device
`(EMCCD) technology," in SPIE Medical Imaging 2013: Physics of Medical Imaging, pp.
`86685J-86685J-7.
`8. S. N. Swetadri Vasan, L. Pope, C. N. Ionita, A. H. Titus, D. R. Bednarek, and S. Rudin,
`"Dose reduction in fluoroscopic interventions using a combination of a region of interest
`
`
`
`9
`
`Page 9
`
`

`

`Titus-CV
`
`
`(ROI) X-Ray attenuator and spatially-different, temporally-variable temporal filtering," in
`Medical Imaging 2013: Physics of Medical Imaging, Lake Buena Vista, FL, United states,
`2013, p. 86683Y.
`9. P. Sharma, S. N. Swetadri Vasan, A. H. Titus, A. N. Cartwright, D. R. Bednarek, and S.
`Rudin, "Implementation of digital multiplexing for high resolution x-ray detector arrays,"
`in 2012 Annual International Conference of the IEEE Engineering in Medicine and Biology
`Society (EMBC), 2012, pp. 5979-5982.
`10. P. Sharma, S. N. Swetadri Vasan, A. H. Titus, A. N. Cartwright, D. R. Bednarek, and S.
`Rudin, "A 2x2 array of EMCCD-based solid state x-ray detectors," in 2012 34th Annual
`International Conference of the IEEE Engineering in Medicine and Biology Society
`(EMBC), San Diego, CA, USA, 2012, pp. 5983-6.
`11. L. Tu, S. N. Swetadri Vasan, Z.H. Fu, and A.H. Titus, “CMOS buried double junction
`(BDJ) photodiode for trichromatic sensing,” at Sensors, Cameras, and Systems for
`Industrial/Scientific Applications XIII, January 2012.
`12. S. N. Swetadri Vasan, C. N. Ionita, A.H. Titus, A. N. Cartwright, D. R Bednarek, and S.
`Rudin, “Graphics processing unit (GPU) implementation of image processing algorithms to
`improve system performance of the control acquisition, processing and image display
`system (CAPIDS) of the micro-angiographic fluoroscope (MAF),” paper 8313-159, at SPIE
`Conference 8313, Physics of Medical Imaging, February 2012.
`13. S. N. Swetadri Vasan, A. S. Panse, A. Jain, P. Sharma, C. N. Ionita, A.H. Titus, A. N.
`Cartwright, D. R Bednarek, and S. Rudin, “Dose reduction technique using a combination
`of a region of interest (ROI) material x-ray attenuator and spatially different temporal
`filtering for fluoroscopic interventions,” paper 8313-191, at SPIE Conference 8313, Physics
`of Medical Imaging, February 2012.
`14. P. Sharma, S. N. Swetadri Vasan, C. N. Ionita, A.H. Titus, A. N. Cartwright, and S.
`Rudin, “Two dimensional extensible array configuration for EMCCD-based solid state x-ray
`detectors,” Paper 8313-194, at SPIE Conference 8313, Physics of Medical Imaging,
`February 2012.
`15. P. Sharma, S.N. Swetadri Vasan, A. Jain, A. Panse, A.H. Titus, A. N. Cartwright, D. R
`Bednarek, and S. Rudin “EMCCD-Based High Resolution Dynamic X-Ray Detector for
`Neurovascular Interventions,” at 33rd Annual International Conference of the IEEE
`Engineering in Medicine and Biology Society (EMBC ’11), August 2011. (4 pages)
`16. S.N. Swetadri Vasan, P. Sharma, C. Ionita, A.H. Titus, A. N. Cartwright, D. R Bednarek,
`and S. Rudin, “Spatially Different, Real-Time Temporal Filtering and Dose Reduction for
`Dynamic Image Guidance During Neurovascular Interventions,” at 33rd Annual
`International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC
`’11), August 2011. (4 pages)
`17. B. Qu, Y. Huang, W. Wang, A.H. Titus, A. N. Cartwright, D. R Bednarek, and S. Rudin,
`“Image Geometric Corrections for a New EMCCD-Based Dual Modular X-Ray Imager ,” at
`33rd Annual International Conference of the IEEE Engineering in Medicine and Biology
`Society (EMBC ’11), August 2011. (4 pages)
`18. B. Qu, Y. Huang, W. Wang, A. Panse, A. Cartwright, A. Titus, D. Bednarek, and S. Rudin,
`“Automatic Digital Gain Control for a New Dual EMCCD-Based Modular Fluoroscopic
`Detector Using An Arbitrary-Shaped Operator-Selected Region of Interest,” at 2011 Joint
`American Association of Physicists in Medicine and Canadian Organization of Medical
`Physicists (AAPM/COMP) Meeting, Vancouver, BC, July 2011.
`
`
`
`10
`
`Page 10
`
`

`

`Titus-CV
`
`
`19. Y. Huang, B. Qu, A. Jain, W. Wang, D. R. Bednarek, A. H. Titus, and S. Rudin,
`“Characterizing the Dynamic Range and Noise Performance of a High-Resolution EMCCD-
`Based X-Ray Detector Having Large Variable Electronic Gain Enabling Use in Both
`Fluoroscopy and Angiography,” at 2011 Joint American Association of Physicists in
`Medicine and Canadian Organization of Medical Physicists (AAPM/COMP) Meeting,
`Vancouver, BC, July 2011.
`20. Y. Huang, B. Qu, A. Panse, W. Wang, D. Bednarek, A. Titus, A. Cartwright, and S.
`Rudin, “A New Solid State X-Ray Image Intensifier (SSXII) with a 1x2 Modular
`Array and An Acquisition, Correction, and Display System,” at 2011 Joint American
`Association of Physicists in Medicine and Canadian Organization of Medical Physicists
`(AAPM/COMP) Meeting, Vancouver, BC, July 2011.
`21. Y. Jeong and A. H. Titus, "Biological inspired CMOS foveated sensor for neural network
`training," in 2011 IEEE Sensors Applications Symposium Proceedings (SAS), pp. 183-187.
`22. B. Qu, A. T. Kuhls-Gilcrist, Y. Huang, W. Wang, A. N. Cartwright, A. H. Titus, D. R.
`Bednarek, and S. Rudin, "Quantum performance analysis of an EMCCD-based x-ray
`detector using photon transfer technique," in 2010 IEEE Nuclear Science Symposium
`Conference Record (NSS/MIC), pp. 3438-3441.
`23. B. Qu, Y. Huang, W. Wang, P. Sharma, A. T. Kuhls-Gilcrist, A. N. Cartwright, A. H. Titus,
`D. R. Bednarek, and S. Rudin, "Optical demonstration of a medical imaging system with an
`EMCCD-sensor array for use in a high resolution dynamic X-ray imager," in 2010 IEEE
`Nuclear Science Symposium Conference Record (NSS/MIC), pp. 2607-2609.
`24. P. Sharma, A. H. Titus, B. Qu, Y. Huang, W. Wang, A. Kuhls-Gilcrist, A. N. Cartwright, D.
`R. Bednarek, and S. Rudin, "Novel multiplexer to enable multiple-module imaging with
`adjustable high spatial resolution and predetermined display bandwidth for array medical
`imaging systems," in 2010 IEEE Nuclear Science Symposium Conference Record
`(NSS/MIC), pp. 2134-2137.
`25. Y. Huang, B. Qu, P. Sharma, A. Kuhls-Gilcrist, W. Weiyuan, A. H. Titus, A. N. Cartwright,
`D. R. Bednarek, and S. Rudin, "Component level modular design of a Solid State X-ray
`Image Intensifier for an MxN array," in 2010 IEEE Nuclear Science Symposium Conference
`Record (NSS/MIC), pp. 2714-2717.
`26. Z. Fu, R. Mao, A. N. Cartwright, and A. H. Titus, “Neuromorphic optical sensor chip with
`color change-intensity change disambiguation,” Nanoscale Imaging, Sensing, and Actuation
`for Biomedical Applications VII, vol. 7574: SPIE, 2010.
`27. V.P. Chodavarapu*, K. Oh, A. H. Titus, A.N. Cartwright, F.V. Bright, “Integrated Point-
`of- Care Biosensors for Diagnostics and Therapy,” Presented at International Congress on
`Biophotonics, Sacramento, February 2008.
`28. A. N. Cartwright, V. P. Chodavarapu*, S. J. Kim, A. H. Titus, R. M. Bukowski, F. V.
`Bright, "CMOS Microsystems for Phase Fluorometric Biochemical Monitoring", Proceedings
`of IEEE/URSI ISSSE, Montreal, 2007, pp. 37-40. (Invited Paper)
`29. V. P. Chodavarapu*, K. Oh, A. H. Titus, A.N. Cartwright, F.V. Bright, “Integrated Point-
`of-Care Biosensors for Diagnostics and Therapy,” Presented at International Congress on
`Biophotonics, Sacramento, February 2008.
`30. S-J.