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Nicolás J. Medrano-Marqués
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2020 – today
- 2024
- [j30]Daniel Enériz, Antonio J. Rodríguez-Almeida, Himar Fabelo, Samuel Ortega, Francisco Javier Balea-Fernández, Gustavo Marrero Callicó, Nicolás Medrano, Belén Calvo:
Low-Cost FPGA Implementation of Deep Learning-Based Heart Sound Segmentation for Real-Time CVDs Screening. IEEE Trans. Instrum. Meas. 73: 1-16 (2024) - [c63]Daniel Enériz, Antonio J. Rodríguez-Almeida, Himar Fabelo, Gustavo Marrero Callicó, Nicolás Medrano, Belén Calvo:
Low-Power Implementation of a U-Net-based Model for Heart Sound Segmentation on a Low-Cost FPGA. DSD 2024: 596-603 - 2023
- [c62]Daniel Enériz, Nicolás Medrano, Belén Calvo, Diego Antolín:
Low-power EEGNet-based Brain-Computer Interface implemented on an Arduino Nano 33 Sense. DCIS 2023: 1-5 - [c61]Nicolás Medrano, Diego Antolín, Daniel Enériz, Belén Calvo:
High Resolution Current Measurement Using TMR Sensors. DCIS 2023: 1-5 - [c60]Andrés Fernando Serrano Reyes, María Teresa Sanz-Pascual, Belén Calvo López, Nicolás Medrano:
Three-Stage Low Dropout Regulator with Enhanced Transient Response and Regulation Performance. DCIS 2023: 1-5 - 2022
- [j29]Jorge Pérez-Bailón, María Teresa Sanz-Pascual, Belén Calvo, Nicolás Medrano:
Wide-Band Compact 1.8 V-0.18 μm CMOS Analog Front-End for Impedance Spectroscopy. IEEE Trans. Circuits Syst. II Express Briefs 69(3): 764-768 (2022) - [c59]Daniel Enériz, Antonio J. Rodríguez-Almeida, Himar Fabelo, Samuel Ortega, Francisco Balea-Fernández, Nicolás Medrano, Belén Calvo, Gustavo Marrero Callicó:
Exploring a Segmentation-Classification Deep Learning-based Heart Murmurs Detector. CinC 2022: 1-4 - [c58]Daniel Enériz, Nicolás Medrano, Belén Calvo, Ana Caren Hernandez-Ruiz, Diego Antolín:
Real-Time EEG Acquisition System for FPGA-based BCI. DCIS 2022: 1-5 - [c57]Nicolás Medrano, Diego Antolín, Belén Calvo, Daniel Enériz:
10 mA Precision Contactless Current Sensing Using Low-Cost Hall-Effect Devices. DCIS 2022: 1-5 - [c56]Jorge Pérez-Bailón, Belén Calvo, Nicolás Medrano:
Low-Power CMOS Amplifiers for Wideband Impedance Spectroscopy Applications. DCIS 2022: 1-6 - 2021
- [j28]Daniel Enériz Orta, Nicolás Medrano, Belén Calvo:
A Wireless Instrumentation Control System Based on Low-Cost Single Board Computer Gateways. IEEE Access 9: 115632-115642 (2021) - [c55]Ana Caren Hernandez-Ruiz, Daniel Enériz, Nicolás Medrano, Belén Calvo:
Motor-Imagery EEGNet-Based Processing on a Low-Spec SoC Hardware. IEEE SENSORS 2021: 1-4 - 2020
- [j27]Javier Alejandro Martínez Nieto, María Teresa Sanz-Pascual, Nicolás Medrano, Belén Calvo López, Diego Antolín:
Microelectronic CMOS Implementation of a Machine Learning Technique for Sensor Calibration. IEEE Access 8: 207367-207376 (2020) - [c54]Daniel Enériz, Nicolás Medrano, Belén Calvo, Jorge Pérez-Bailón:
A Wireless Instrumentation Control System Based on Low-Cost Single Board Computers. I2MTC 2020: 1-5 - [c53]Alejandro Márquez, Nicolás Medrano, Belén Calvo, Jorge Pérez-Bailón:
A Dual Synchronous Demodulator for Phase Sensitive Detection Applications. I2MTC 2020: 1-6 - [c52]Paulina Mariana Maya-Hernández, María Teresa Sanz-Pascual, Jorge Pérez-Bailón, Belén Calvo, Nicolás Medrano:
A CMOS Lock-In-based Read-out for Interdigitated Electrodes. I2MTC 2020: 1-5 - [c51]Jorge Pérez-Bailón, Belén Calvo, Nicolás Medrano, Jaime Ramírez-Angulo:
A 1.8 V Gm-C Highly Tunable Low Pass Filter for Sensing Applications. I2MTC 2020: 1-5 - [c50]Daniel Enériz, Nicolás Medrano, Belén Calvo:
Live Demonstration: A Low-Cost Wireless Instrumentation Control System. ISCAS 2020: 1 - [c49]Alejandro Márquez, Nicolás Medrano, Belén Calvo:
A Fully Integrated PSD-LPF for Bioimpedance Spectroscopy Applications. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j26]Javier Alejandro Martínez Nieto, Nicolás J. Medrano-Marqués, María Teresa Sanz-Pascual, Belén Calvo López:
High-Level Modeling and Simulation Tool for Sensor Conditioning Circuit Based on Artificial Neural Networks. Sensors 19(8): 1814 (2019) - [j25]Jorge Pérez-Bailón, Belén Calvo, Nicolás Medrano:
A CMOS Low Pass Filter for SoC Lock-in-Based Measurement Devices. Sensors 19(23): 5173 (2019) - [j24]Raul Gracia Saez, Nicolás J. Medrano-Marqués:
RF Power Amplifier Linearization in Professional Mobile Radio Communications Using Artificial Neural Networks. IEEE Trans. Ind. Electron. 66(4): 3060-3070 (2019) - [c48]Alejandro Márquez, Nicolás Medrano, Belén Calvo:
Low-Noise Wide-Frequency Tunable Amplifier for Bioimpedance Spectroscopy Applications. ICECS 2019: 250-253 - 2018
- [j23]Alejandro Márquez, Jorge Pérez-Bailón, Belén Calvo, Nicolás Medrano, Pedro A. Martínez:
A CMOS Self-Contained Quadrature Signal Generator for SoC Impedance Spectroscopy. Sensors 18(5): 1382 (2018) - [j22]Jorge Pérez-Bailón, Alejandro Márquez, Belén Calvo, Nicolás Medrano:
A 0.18 μm CMOS LDO Regulator for an On-Chip Sensor Array Impedance Measurement System. Sensors 18(5): 1405 (2018) - [c47]Jorge Pérez-Bailón, Alejandro Márquez, Belén Calvo, Nicolás Medrano:
A 0.18μm CMOS Widely Tunable Low Pass Filter with sub-Hz Cutoff Frequencies. ISCAS 2018: 1-4 - [c46]A. Martinez-Nieto, Nicolás Medrano, María Teresa Sanz-Pascual, Belén Calvo:
An accurate analysis method for complex IC analog neural network-based systems using high-level software tools. LASCAS 2018: 1-4 - [c45]Jorge Pérez-Bailón, Alejandro Márquez, Belén Calvo, Nicolás Medrano, María Teresa Sanz-Pascual:
A 1V-1.75μW Gm-C low pass filter for bio-sensing applications. LASCAS 2018: 1-4 - 2017
- [j21]Diego Antolín, Nicolás Medrano, Belén Calvo, Francisco José Lacueva-Pérez:
A Wearable Wireless Sensor Network for Indoor Smart Environment Monitoring in Safety Applications. Sensors 17(2): 365 (2017) - [j20]Diego Antolín, Nicolás Medrano, Belén Calvo, Pedro A. Martínez:
A Compact Energy Harvesting System for Outdoor Wireless Sensor Nodes Based on a Low-Cost In Situ Photovoltaic Panel Characterization-Modelling Unit. Sensors 17(8): 1794 (2017) - [c44]Alejandro Márquez, Jorge Pérez-Bailón, Pedro A. Martínez, Belén Calvo, Nicolás Medrano, Javier Alejandro Martínez Nieto, María Teresa Sanz-Pascual:
A CMOS low-power widely programmable active RC filter based on a hybrid CS/D network. ECCTD 2017: 1-4 - [c43]Javier Alejandro Martínez Nieto, María Teresa Sanz-Pascual, Nicolás J. Medrano-Marqués:
Integrated mixed mode neural network implementation. ECCTD 2017: 1-4 - [c42]Alejandro Márquez, Jorge Pérez-Bailón, Pedro A. Martínez, Belén Calvo, Nicolás Medrano:
A CMOS low-power 12-bit digitally programmable analog sinusoidal actuation system. I2MTC 2017: 1-6 - [c41]Jorge Pérez-Bailón, Alejandro Márquez, Belén Calvo, Nicolás Medrano:
A power efficient LDO regulator for portable CMOS SoC measurement systems. I2MTC 2017: 1-6 - [c40]Alejandro Márquez, Jorge Pérez-Bailón, Pedro A. Martínez, Belén Calvo, Nicolás Medrano:
A CMOS low-power widely frequency tunable pre-conditioning stage for PSD sensor applications. IEEE SENSORS 2017: 1-3 - [c39]Jorge Pérez-Bailón, Alejandro Márquez, Belén Calvo, Nicolás J. Medrano-Marqués:
Transient-enhanced output-capacitorless CMOS LDO regulator for battery-operated systems. ISCAS 2017: 1-4 - 2016
- [j19]Diego Antolín, Nicolás Medrano, Belén Calvo:
Reliable Lifespan Evaluation of a Remote Environment Monitoring System Based on Wireless Sensor Networks and Global System for Mobile Communications. J. Sensors 2016: 4248230:1-4248230:12 (2016) - [j18]Javier Alejandro Martínez Nieto, María Teresa Sanz-Pascual, Nicolás J. Medrano-Marqués, Belén Calvo López:
Diseño de un procesador analógico-digital para la implementación integrada de redes neuronales en sistemas de bajo consumo. Res. Comput. Sci. 116: 65-79 (2016) - [c38]Javier Alejandro Martínez Nieto, María Teresa Sanz-Pascual, Nicolás J. Medrano-Marqués, Belén Calvo López:
Self-biased class AB CMOS current buffer. LASCAS 2016: 255-258 - 2015
- [j17]María de Rodanas Valero Bernal, Nicolás J. Medrano-Marqués, Santiago Celma, Belén Calvo:
A high-performance 1.2 V-99 μW rail-to-rail CMOS class AB amplifier. Microelectron. J. 46(1): 96-102 (2015) - [j16]Daniel García-Romeo, María R. Valero, Nicolás Medrano, Belén Calvo, Santiago Celma:
A High Performance LIA-Based Interface for Battery Powered Sensing Devices. Sensors 15(10): 25260-25276 (2015) - [j15]Cristina Azcona, Belén Calvo, Nicolás Medrano, Santiago Celma:
1.2 V-0.18-µm CMOS Temperature Sensors With Quasi-Digital Output for Portable Systems. IEEE Trans. Instrum. Meas. 64(9): 2565-2573 (2015) - [c37]Cristina Azcona, Belén Calvo, Nicolás Medrano, Santiago Celma, Daniel García-Romeo:
A frequency-output temperature sensor with supply voltage insensitivity for battery operated systems. ICIT 2015: 3330-3335 - [c36]Daniel García-Romeo, Nicolás Medrano, Belén Calvo, Pedro A. Martínez, María-Dolores Cubells-Beltrán, Càndid Reig, Susana Cardoso, Paulo P. Freitas:
Sub-mA current measurement by means of GMR sensors and state of the art lock-in amplifiers. ICIT 2015: 3377-3381 - [c35]Cristina Azcona, Belén Calvo, Nicolás Medrano, Santiago Celma, Cecilia Gimeno:
A 1.2-V 1.35-μW all MOS temperature sensor for wireless sensor networks. ISCAS 2015: 365-368 - [c34]Cristina Azcona, Belén Calvo, Nicolás Medrano, Santiago Celma, Cecilia Gimeno:
A wide-range dual-modulus prescaler using a novel SCL biasing technique. ISCAS 2015: 2225-2228 - 2014
- [j14]María de Rodanas Valero, Alejandro Roman-Loera, Jaime Ramírez-Angulo, Nicolás J. Medrano-Marqués, Santiago Celma:
Rail to rail CMOS complementary input stage with only one active differential pair at a time. IEICE Electron. Express 11(12): 20140392 (2014) - [j13]Javier Aguirre, Daniel García-Romeo, Nicolás Medrano, Belén Calvo, Santiago Celma:
Square-Signal-Based Algorithm for Analog Lock-In Amplifiers. IEEE Trans. Ind. Electron. 61(10): 5590-5598 (2014) - [c33]Cristina Azcona, Belén Calvo, Santiago Celma, Nicolás Medrano, Maria Teresa Sanz:
Precision CMOS current reference with process and temperature compensation. ISCAS 2014: 910-913 - [c32]María de Rodanas Valero Bernal, Alejandro Roman-Loera, Jaime Ramírez-Angulo, Nicolás Medrano, Santiago Celma:
Rail-to-rail CMOS complementary input stage with alternating active differential pairs. ISCAS 2014: 1356-1359 - [c31]María R. Valero, Jaime Ramírez-Angulo, Nicolás Medrano, Santiago Celma:
PSRR enhancement based on QFG techniques for low-voltage low-power design. ISCAS 2014: 2684-2687 - 2013
- [j12]Cristina Azcona, Belén Calvo, Santiago Celma, Nicolás J. Medrano-Marqués, Pedro A. Martínez:
Low-Voltage Low-Power CMOS Rail-to-Rail Voltage-to-Current Converters. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(9): 2333-2342 (2013) - [c30]Cristina Azcona, Belén Calvo, Nicolás J. Medrano-Marqués, Santiago Celma, Carlos Sánchez-Azqueta:
A CMOS quasi-digital temperature sensor for battery operated systems. ECCTD 2013: 1-4 - [c29]Belén Calvo, Cristina Azcona, Nicolás J. Medrano-Marqués, Santiago Celma, María R. Valero:
A compact low-voltage first-order temperature-compensated CMOS current reference. ECCTD 2013: 1-4 - [c28]María R. Valero, Santiago Celma, Nicolás J. Medrano-Marqués, Belén Calvo:
OpAmp design for lock-in amplifiers in portable sensing systems. ECCTD 2013: 1-4 - [c27]Diego Antolín, Nicolás Medrano, Belén Calvo:
Analysis of the operating life for battery-operated wireless sensor nodes. IECON 2013: 3883-3886 - [c26]Daniel García-Romeo, Maria Pilar Pina, Nicolás Medrano, Belén Calvo, Javier Sesé, Ismael Pellejero, Diego Antolín:
Portable low-power electronic interface for gas detection using microcantilevers. IECON 2013: 3970-3975 - [c25]Cristina Azcona, Belén Calvo, Santiago Celma, Nicolás J. Medrano-Marqués, Pedro A. Martínez:
A low-power ratiometric single/differential quasi-digital converter. ISCAS 2013: 1508-1511 - 2012
- [j11]María de Rodanas Valero Bernal, Santiago Celma, Nicolás J. Medrano-Marqués, Belén Calvo:
An Ultralow-Power Low-Voltage Class-AB Fully Differential OpAmp for Long-Life Autonomous Portable Equipment. IEEE Trans. Circuits Syst. II Express Briefs 59-II(10): 643-647 (2012) - [c24]María de Rodanas Valero, Santiago Celma, Nicolás J. Medrano-Marqués, Belén Calvo:
A 0.8-V 1.2-μW rail-to-rail fully differential OpAmp with adaptive biasing. ESSCIRC 2012: 77-80 - [c23]María R. Valero, Santiago Celma, Nicolás J. Medrano-Marqués, Belén Calvo, Cristina Azcona:
An ultra low-power low-voltage class AB CMOS fully differential OpAmp. ISCAS 2012: 1967-1970 - [c22]Cristina Azcona, Belén Calvo, Santiago Celma, Nicolás J. Medrano-Marqués:
A novel rail-to-rail differential voltage-to-frequency converter for portable sensing systems. ISCAS 2012: 1987-1990 - 2011
- [j10]Sergio D. Vera, Alberto Bayo, Nicolás Medrano, Belén Calvo, Santiago Celma:
A Programmable Plug & Play Sensor Interface for WSN Applications. Sensors 11(9): 9009-9032 (2011) - [j9]Cristina Azcona, Belén Calvo, Nicolás J. Medrano-Marqués, Alberto Bayo, Santiago Celma:
12-b Enhanced Input Range On-Chip Quasi-Digital Converter With Temperature Compensation. IEEE Trans. Circuits Syst. II Express Briefs 58-II(3): 164-168 (2011) - [j8]María R. Valero, Santiago Celma, Belén Calvo, Nicolás J. Medrano-Marqués:
CMOS Voltage-to-Frequency Converter With Temperature Drift Compensation. IEEE Trans. Instrum. Meas. 60(9): 3232-3234 (2011) - [c21]Cristina Azcona, Belén Calvo, Santiago Celma, Nicolás J. Medrano-Marqués:
Low-voltage low-power CMOS rail-to-rail V-I converters. ECCTD 2011: 182-185 - [c20]Javier Aguirre, Nicolás J. Medrano-Marqués, Belén Calvo, Santiago Celma, Cristina Azcona:
An analog lock-in amplifier for embedded sensor electronic interfaces. ECCTD 2011: 425-428 - 2010
- [c19]Belén Calvo, Nicolás J. Medrano-Marqués, Santiago Celma:
A full-scale CMOS voltage-to-frequency converter for WSN signal conditioning. ISCAS 2010: 3088-3091
2000 – 2009
- 2009
- [j7]Rafael Del Hoyo, Bonifacio Martín-del-Brío, Nicolás J. Medrano-Marqués, Julián Fernández-Navajas:
Computational intelligence tools for next generation quality of service management. Neurocomputing 72(16-18): 3631-3639 (2009) - [j6]Juan Pablo Alegre, Santiago Celma, Jose Maria Garcia del Pozo, Nicolás J. Medrano-Marqués:
Fast-response low-ripple envelope follower. Integr. 42(2): 169-174 (2009) - [j5]Guillermo Zatorre, Nicolás Medrano, Maria Teresa Sanz, Concepción Aldea, Belén Calvo, Santiago Celma:
Digitally Programmable Analogue Circuits for Sensor Conditioning Systems. Sensors 9(5): 3652-3665 (2009) - 2008
- [j4]Nicolás J. Medrano-Marqués, Guillermo Zatorre-Navarro, S. Celma-Pueyo:
A Tunable Analog Conditioning Circuit Applied to Magnetoresistive Sensors. IEEE Trans. Ind. Electron. 55(2): 966-969 (2008) - [c18]Rafael Del Hoyo, Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío, Francisco José Lacueva-Pérez:
Supervised Classification Fuzzy Growing Hierarchical SOM. HAIS 2008: 220-228 - 2007
- [c17]Nicolás Medrano, Maria Teresa Sanz, Pedro A. Martínez, Santiago Celma, Guillermo Zatorre:
An adaptive circuit for low-power sensor processing: Mismatch effects. ECCTD 2007: 200-203 - [c16]Rafael del-Hoyo-Alonso, Pilar Fernández-de-Alarcón, Juan-José Navamuel-Castillo, Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío, Julián Fernández-Navajas, David Abadía-Gallego:
Neural Networks for QoS Network Management. IWANN 2007: 887-894 - 2006
- [j3]Guillermo Zatorre-Navarro, Nicolás J. Medrano-Marqués, S. Celma-Pueyo:
Analysis and Simulation of a Mixed-Mode Neuron Architecture for Sensor Conditioning. IEEE Trans. Neural Networks 17(5): 1332-1335 (2006) - [c15]Nicolás Medrano, Maria Teresa Sanz, Pedro A. Martínez, Santiago Celma, Guillermo Zatorre:
An Analog-Digital Neural Processor for Integrated Sensor Conditioning. ICECS 2006: 926-929 - [c14]Nicolás J. Medrano-Marqués, Guillermo Zatorre, Santiago Celma:
Sensor compensation using analogue-digital adaptive circuits. ISCAS 2006 - 2005
- [j2]Bonifacio Martín-del-Brío, Antonio Bono-Nuez, Nicolás J. Medrano-Marqués:
Self-organizing maps for embedded processor selection. Microprocess. Microsystems 29(7): 307-315 (2005) - [c13]Guillermo Zatorre-Navarro, Nicolás J. Medrano-Marqués, Santiago Celma Pueyo:
A mixed-mode conditioning circuit designed for adaptive smart sensing. ECCTD 2005: 217-220 - [c12]Carlos Bernal Ruiz, F. E. Garcia-Tapias, Bonifacio Martín-del-Brío, Antonio Bono-Nuez, Nicolás J. Medrano-Marqués:
Microcontroller implementation of a voice command recognition system for human-machine interface in embedded systems. ETFA 2005 - [c11]Guillermo Zatorre-Navarro, Eduardo J. Peralías, Santiago Celma Pueyo, Concepción Aldea Chagoyen, Nicolás J. Medrano-Marqués:
Digital self-tuning technique for continuous-time filters. ICECS 2005: 1-4 - [c10]Guillermo Zatorre, Nicolás J. Medrano-Marqués, Santiago Celma, Bonifacio Martín-del-Brío, Antonio Bono-Nuez:
Smart Sensing with Adaptive Analog Circuits. IWANN 2005: 463-470 - 2003
- [c9]Carlos Lajusticia, Nicolás J. Medrano-Marqués, Guillermo Zatorre, Bonifacio Martín-del-Brío:
Applying non-ideal mixed analog-digital multipliers in electronic processing circuits based on neural networks. ETFA (2) 2003: 362-367 - [c8]Beatriz M. Monge-Sanz, Nicolás J. Medrano-Marqués:
Artificial Neural Networks Applications for Total Ozone Time Series. IWANN (2) 2003: 806-813 - 2001
- [j1]Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío:
Coupling analysis of a three-phase power-factor corrector composed of three single-phase modules. IEEE Trans. Ind. Electron. 48(6): 1288-1290 (2001) - [c7]Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío:
Man-Machine Voice Interface Using a Commercially Available Neural Chip. IWANN (2) 2001: 271-278 - [c6]Nicolás J. Medrano-Marqués, Rafael del-Hoyo-Alonso, Bonifacio Martín-del-Brío:
A Thermocouple Model Based on Neural Networks. IWANN (2) 2001: 531-538 - 2000
- [c5]Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío:
A general method for sensor linearization based on neural networks. ISCAS 2000: 497-500
1990 – 1999
- 1999
- [c4]Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío:
Topology Preservation in SOFM: An Euclidean versus Manhattan Distance Comparison. IWANN (1) 1999: 601-609 - 1998
- [c3]Nicolás J. Medrano-Marqués, Bonifacio Martín-del-Brío:
General purpose neuroemulator architecture: design and VHDL simulation. ICECS 1998: 293-296 - [c2]Bonifacio Martín-del-Brío, Nicolás J. Medrano-Marqués, Sergio Hernández-Sánchez:
A low-cost neuroprocessor board for emulating the SOFM neural model. ICECS 1998: 297-300 - 1995
- [c1]Bonifacio Martín-del-Brío, Nicolás J. Medrano-Marqués, Javier Blasco-Alberto:
Feature Map Architectures for Pattern Recognition: Techniques for Automatic Region Selection. ICANNGA 1995: 124-127
Coauthor Index
aka: Belén Calvo López
aka: Daniel Enériz
aka: María Teresa Sanz-Pascual
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