!!Ángel Rodríguez-Vázquez - Selected Publications !Selected publications of Prof. Rodriguez-Vázquez are clustered into four groups, namely: *Smart imagers and vision chips\\ *Mixed-signal nonlinear signal processing and circuits\\ *Analog-to-Digital Conversion with emphasis on oversampled data converters\\ *Bio-medical and bio-inspired circuits and systems\\ \\ __SMART IMAGERS AND VISION CHIPS__\\ \\ His contributions are rooted in the papers:\\ \\ [[1] A. Rodríguez-Vázquez et al., “Nonlinear Switched-Capacitor Neural Networks for Optimization Problems”. IEEE Trans. on Circuits and Systems, Vol. 37, pp. 384-398, 1990. \\ \\ [[2] A. Rodríguez-Vázquez et al., “Current Mode Techniques for the Implementation of Continuous and Discrete-Time Cellular Neural Networks”. IEEE Trans. on Circuits and Systems, Vol. 40, pp. 132-146, 1993.\\ \\ [[3] T. Roska and A. Rodríguez-Vázquez, “Towards Visual Microprocessors”. Proceedings of the IEEE, Vol. 90, pp. 1244-1257, 2002.\\ \\ Pub [[1] set a milestone in the implementation of analog parallel processing using mixed-signal circuits. Methods and circuits in this paper were basics for further activities on vision chips with analog pre-processing. Pub [[2] reported dedicated circuits to implement early vision processing kernels; it received the IEEE Guillemin-Cauer CASS award. Pub [[3] defined the basis for embedding parallel digital computer concepts (distributed local memory, software programming, etc.) in mixed-signal chip arrays. This paper was completed with a Wiley book entitled Towards the Analogic Visual Microprocessor - ISBN 0-471-95606-6.\\ \\ These seminal publications prompted papers in IEEE JSSC, IEEE Trans-on-Multimedia, IEEE Trans-Neural-Networks, etc., contributing subsystems, chips and applications. The epitome was:\\ \\ [[4] A. Rodríguez-Vázquez et al., "ACE16k: The Third Generation of Mixed-Signal SIMD-CNN ACE Chips Toward VSoCs". IEEE IEEE Trans. on Circuits and Systems -I, Vol. 51, pp. 851-863, 2004.\\ \\ AnaFocus started on the basis of this publication [[4]]. This company produced the first truly programmable industrial Vision-System-on-Chip, called Eye-RIS reported in:\\ \\ [[5] A. Rodríguez-Vázquez et al., "A CMOS Vision System On-Chip with Multi-Core, Cellular Sensory-Processing Front-End". ISBN 978-1-4419-1011-0, Springer 2010.\\ \\ Back to academia from 2009 Prof. Rodriguez-Vázquez has co-authored some 40 papers addressing long-term challenges related to CMOS imagers and vision chips with emphasis : i) Low light detection and high dynamic range acquisition; ii) Single photon detection and 3D smart imaging; iii) 3D integration architectures for vision chips. These contributions have been reported mostly in IEEE Sensors J., IEEE Journal of Solid-State Circuits, IEEE Trans. on Circuits and Systems and IEEE Journal of Emerging Technologies on Circuits and Systems and have deserved 2 best paper awards from IEEE ISCAS and 1 best paper award from SPIE/IST Electronic Imaging.\\ \\ __MIXED-SIGNAL NONLINEAR SIGNAL PROCESSING AND CIRCUITS__\\ \\ His contributions here are rooted to:\\ \\ [[6] A. Rodríguez-Vázquez et al., “Chaos from Switched-Capacitor Circuits: Discrete Maps”. Proceedings of the IEEE, Vol. 75, pp. 1090-1106, IEEE August 1987.\\ \\ [[7] A. Rodríguez-Vázquez et al., “A Modular Programmable CMOS Analog Fuzzy Controller Chip”. IEEE Trans. on Circuits and Systems - II, Vol. 46, pp. 251-265, March 1999.\\ \\ [[8] A. Rodríguez-Vázquez et al., “On the Design of Voltage-Controlled Sinusoidal Oscillators using OTAs”. IEEE Transactions on Circuits and Systems, Vol. 37, pp. 198-211, IEEE February 1990.\\ \\ Pub [[6] addressed deterministic chaos synthesis with switched-capacitor circuits. Concepts were extended to continuous-time circuits in several IEEE Trans. on Circuits and Systems papers and supported a system implementation of chaos-based communications, reported in IEEE Journal of Solid-State Circuits, Vol. 40, pp. 1460-1472, July 2005. Pub [[7] contributed systematic procedures for adaptive nonlinear function interpolation with fuzzy basis functions which enabled fully adaptive controller chips reported in IEEE Micro and IEEE Trans. on Neural Networks. Finally. Pub [[9] addressed fundamental problems concerning signal generation by electronic circuits. Methods and procedures devised there are being crucial for the latest activities of Prof. Rodríguez-Vázquez´s group on time-encoding architectures for sensor front-ends and Time-of-Flight signgle-photon imagers.\\ \\ __ANALOG-TO-DIGITAL CONVERSION WITH EMPHASIS ON OVERSAMPLED DATA CONVERTERS__\\ \\ The book:\\ \\ [[9] A. Rodríguez-Vázquez et al., CMOS Telecom Data Converters. ISBN 978-1-4020-7546-9, Kluwer Academic Publishers 2003.\\ \\ is representative of Prof. Rodriguez-Vázquez´s contributions, besides two other books and several Trans. on Circuits and Systems and IEEE Journal of Solid-State Circuits papers. Most significant achievements were innovative design methodologies that enabled sigma-delta data converter ICs with optimum Figure-of-Merit values concerning power consumption and resolution. New architectures and methods were embedded in commercial chips produced by different companies, namely: STMicroelectronics for ADSL+, AMIs for automotive, Landy&Gyr for metering and KDPoF for high-speed communications.\\ \\ __BIO-MEDICAL AND BIO-INSPIRED CIRCUITS AND SYSTEMS__\\ \\ Concurrency and adaptability are underlying vision chip architectures. Recently Prof. Rodriguez-Vázquez is also addressing endeavors on neural recording that capitalize previous concepts explored for image arrays. Complete recording system with embedded calibration and feature extraction are contributed in\\ \\ [[10] M. Delgado-Restituto, A. Rodríguez-Pérez, A. Darie, C. Soto-Sánchez, E. Fernández-Jover and A. Rodríguez-Vázquez, "System-Level Design of a 64-Channel Low Power Neural Spike Recording Sensor". IEEE Trans. on Biomedical Circuits and Systems. Vol. 11, pp. 420-432, April 2017.\\ \\ Overall Dr. Rodríguez-Vázquez has presented some 50 invited plenary lectures at different international conferences. He has co-authored 11 books, 36 additional book chapters, 163 journal papers and some 400 conference papers. Out of his 163 journal papers, 77 are in IEEE journals with a larger concentration on:\\ \\ *IEEE Transactions on Circuits and Systems: 33 papers\\ *IEEE Journal of Solid-State Circuits: 18 papers\\ *IEEE Sensors Journal: 9 papers\\ *Proceedings of the IEEE: 3 papers\\ \\ His research work has received some 9,400 citations; he has an h-index of 47 and an i10-index of 192 according to Google Scholar.