default search action
Chris Van Hoof
Person information
- affiliation: IMEC, Leuven, Belgium
- affiliation (PhD 1992): KU Leuven, Belgium
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2024
- [j72]Melanie Schoutteten, Lucas Lindeboom, Hélène De Cannière, Zoë Pieters, Liesbeth Bruckers, Astrid D. H. Brys, Patrick van der Heijden, Bart De Moor, Jacques Peeters, Chris Van Hoof, Willemijn Groenendaal, Jeroen P. Kooman, Pieter M. Vandervoort:
The Feasibility of Semi-Continuous and Multi-Frequency Thoracic Bioimpedance Measurements by a Wearable Device during Fluid Changes in Hemodialysis Patients. Sensors 24(6): 1890 (2024) - [j71]Fabian Beutel, Chris Van Hoof, Evelien Hermeling:
Advancing the Local Pulse Wave Velocity Measurement-Wave Confluence Decomposition Using a Double Gaussian Propagation Model. IEEE Trans. Biomed. Eng. 71(8): 2495-2505 (2024) - [c105]E. Pattyn, E. Vergaelen, Erika Lutin, Ruud van Stiphout, H. Davidoff, Walter De Raedt, Chris Van Hoof:
Monitoring Pain in Patients with Chronic Pain with a Wearable Wristband in Daily Life: A Pilot Study. BIOSTEC (2) 2024: 330-339 - [c104]Xiaohua Huang, Xiaolin Yang, Andrea Lodi, Chris Van Hoof, Georges G. E. Gielen, Carolina Mora Lopez:
A 3072-Channel Neural Readout IC with Multiplexed Two-Step Incremental-SAR Conversion and Bulk-DAC-Based EDO Compensation in 22nm FDSOI. VLSI Technology and Circuits 2024: 1-2 - 2023
- [j70]Emilie Pattyn, Nattapong Thammasan, Erika Lutin, D. Tourolle, Alex Van Kraaij, Ilkka Kosunen, Walter De Raedt, Chris Van Hoof:
Simulation of ambulatory electrodermal activity and the handling of low-quality segments. Comput. Methods Programs Biomed. 242: 107859 (2023) - [j69]Nick Van Helleputte, Carolina Mora Lopez, Chris Van Hoof:
Design of CMOS Circuits for Electrophysiology. IEICE Trans. Electron. 106(10): 506-515 (2023) - [j68]Jorge Herranz Olazábal, Ilde Lorato, Jesse Kling, Marc Verhoeven, Fokko Wieringa, Chris Van Hoof, Willem Verkruijsse, Evelien Hermeling:
Comparison between Speckle Plethysmography and Photoplethysmography during Cold Pressor Test Referenced to Finger Arterial Pressure. Sensors 23(11): 5016 (2023) - [j67]Aurojyoti Das, Qiuyang Lin, Sybren Santermans, Lijun Liu, Chris Van Hoof, Georges G. E. Gielen, Nick Van Helleputte:
High-Throughput Nanopore-FET Array Readout IC With 5-MHz Bandwidth and Background Offset/Drift Calibration. IEEE Trans. Circuits Syst. I Regul. Pap. 70(11): 4323-4333 (2023) - [c103]Emilie Pattyn, Erika Lutin, Alex Van Kraaij, Nattapong Thammasan, D. Tourolle, Ilkka Kosunen, D. Tump, Walter De Raedt, Chris Van Hoof:
Annotation-Based Evaluation of Wrist EDA Quality and Response Assessment Techniques. BIOSIGNALS 2023: 186-194 - 2022
- [j66]Xiaohua Huang, Horacio Londoño-Ramírez, Marco Ballini, Chris Van Hoof, Jan Genoe, Sebastian Haesler, Georges G. E. Gielen, Nick Van Helleputte, Carolina Mora Lopez:
Actively Multiplexed μECoG Brain Implant System With Incremental-ΔΣ ADCs Employing Bulk-DACs. IEEE J. Solid State Circuits 57(11): 3312-3323 (2022) - [j65]Jorge Herranz Olazábal, Fokko Wieringa, Evelien Hermeling, Chris Van Hoof:
Camera-Derived Photoplethysmography (rPPG) and Speckle Plethysmography (rSPG): Comparing Reflective and Transmissive Mode at Various Integration Times Using LEDs and Lasers. Sensors 22(16): 6059 (2022) - [j64]Xiaohua Huang, Marco Ballini, Shiwei Wang, Beatrice Miccoli, Chris Van Hoof, Georges G. E. Gielen, Jan Craninckx, Nick Van Helleputte, Carolina Mora Lopez:
A Compact, Low-Power Analog Front-End With Event-Driven Input Biasing for High-Density Neural Recording in 22-nm FDSOI. IEEE Trans. Circuits Syst. II Express Briefs 69(3): 804-808 (2022) - [c102]Xiaohua Huang, Horacio Londoño-Ramírez, Marco Ballini, Chris Van Hoof, Jan Genoe, Sebastian Haesler, Georges G. E. Gielen, Nick Van Helleputte, Carolina Mora Lopez:
A 256-Channel Actively-Multiplexed µECoG Implant with Column-Parallel Incremental ΔΣ ADCs Employing Bulk-DACs in 22-nm FDSOI Technology. ISSCC 2022: 200-202 - 2021
- [j63]Adnan Albaba, Neide Simões-Capela, Yuyang Wang, Richard C. Hendriks, Walter De Raedt, Chris Van Hoof:
Assessing the signal quality of electrocardiograms from varied acquisition sources: A generic machine learning pipeline for model generation. Comput. Biol. Medicine 130: 104164 (2021) - [j62]Jonathan Moeyersons, John F. Morales, Amalia Villa Gómez, Ivan D. Castro, Dries Testelmans, Bertien Buyse, Chris Van Hoof, Rik Willems, Sabine Van Huffel, Carolina Varon:
Supervised SVM Transfer Learning for Modality-Specific Artefact Detection in ECG. Sensors 21(2): 662 (2021) - [j61]Jonathan Moeyersons, John F. Morales, Nick Seeuws, Chris Van Hoof, Evelien Hermeling, Willemijn Groenendaal, Rik Willems, Sabine Van Huffel, Carolina Varon:
Artefact Detection in Impedance Pneumography Signals: A Machine Learning Approach. Sensors 21(8): 2613 (2021) - [j60]Xiaolin Yang, Jiawei Xu, Marco Ballini, Hosung Chun, Menglian Zhao, Xiaobo Wu, Chris Van Hoof, Carolina Mora Lopez, Nick Van Helleputte:
A 108 dB DR Δ∑-∑M Front-End With 720 mVpp Input Range and >±300 mV Offset Removal for Multi-Parameter Biopotential Recording. IEEE Trans. Biomed. Circuits Syst. 15(2): 199-209 (2021) - [j59]Qiuyang Lin, Shuang Song, Roland Van Wegberg, Wim Sijbers, Dwaipayan Biswas, Mario Konijnenburg, Chris Van Hoof, Filip Tavernier, Nick Van Helleputte:
A 134 DB Dynamic Range Noise Shaping Slope Light-to-Digital Converter for Wearable Chest PPG Applications. IEEE Trans. Biomed. Circuits Syst. 15(6): 1224-1235 (2021) - [j58]Fabian Beutel, Chris Van Hoof, Xavier Rottenberg, Koen D. Reesink, Evelien Hermeling:
Pulse Arrival Time Segmentation Into Cardiac and Vascular Intervals - Implications for Pulse Wave Velocity and Blood Pressure Estimation. IEEE Trans. Biomed. Eng. 68(9): 2810-2820 (2021) - [j57]Marco Mercuri, Yiting Lu, Salvatore Polito, Fokko Wieringa, Yao-Hong Liu, Alle-Jan van der Veen, Chris Van Hoof, Tom Torfs:
Enabling Robust Radar-Based Localization and Vital Signs Monitoring in Multipath Propagation Environments. IEEE Trans. Biomed. Eng. 68(11): 3228-3240 (2021) - [c101]Erika Lutin, Ryuga Hashimoto, Walter De Raedt, Chris Van Hoof:
Feature Extraction for Stress Detection in Electrodermal Activity. BIOSIGNALS 2021: 177-185 - [c100]Neide Simões-Capela, Jan Cornelis, Giuseppina Schiavone, Chris Van Hoof:
A 2-minute Fitness Test for Lifestyle Applications: The PhysioFit Task and Its Analysis based on Heart Rate. HEALTHINF 2021: 377-385 - [c99]Jorge Herranz Olazábal, Fokko Wieringa, Evelien Hermeling, Chris Van Hoof:
Beat-to-beat Intervals of Speckle & Intensity-based Optical Plethysmograms compared to Electrocardiogram. CinC 2021: 1-4 - [c98]Andrea Rozo, Jeroen Buil, Jonathan Moeyersons, John F. Morales, Roberto Garcia van der Westen, Lien Lijnen, Christophe Smeets, Sjors Jantzen, Valerie Monpellier, David Ruttens, Chris Van Hoof, Sabine Van Huffel, Willemijn Groenendaal, Carolina Varon:
Controlled Breathing Effect on Respiration Quality Assessment Using Machine Learning Approaches. CinC 2021: 1-4 - [c97]Leandro Mateus Giacomini Rocha, Guilherme Paim, Dwaipayan Biswas, Sergio Bampi, Francky Catthoor, Chris Van Hoof, Nick Van Helleputte:
LSTM-only Model for Low-complexity HR Estimation from Wrist PPG. EMBC 2021: 1068-1071 - [c96]Erika Lutin, Dwaipayan Biswas, Neide Simões-Capela, Chris Van Hoof, Nick Van Helleputte:
Learning based Quality Indicator Aiding Heart Rate Estimation in Wrist-Worn PPG. EMBC 2021: 7063-7067 - [c95]Joonsung Bae, Jennifer Lloyd, Chris Van Hoof:
Session 28 Overview: Biomedical Systems Imagers, Medical, Mems and Displays Subcommittee. ISSCC 2021: 384-385 - [c94]Qiuyang Lin, Shuang Song, Roland Van Wegberg, Mario Konijnenburg, Dwaipayan Biswas, Chris Van Hoof, Filip Tavernier, Nick Van Helleputte:
A 28μW 134dB DR 2nd-Order Noise-Shaping Slope Light-to-Digital Converter for Chest PPG Monitoring. ISSCC 2021: 390-392 - [c93]Nick Van Helleputte, Arijit Raychowdhury, Ping-Hsuan Hsieh, Jun Deguchi, Matteo Perenzoni, Esther Rodríguez-Villegas, Long Yan, Andreia Cathelin, Keith A. Bowman, Chris Van Hoof:
F3: Silicon Technologies in the Fight Against Pandemics - From Point of Care to Computational Epidemiology. ISSCC 2021: 520-524 - 2020
- [j56]Hélène De Cannière, Federico Corradi, Christophe Smeets, Melanie Schoutteten, Carolina Varon, Chris Van Hoof, Sabine Van Huffel, Willemijn Groenendaal, Pieter M. Vandervoort:
Wearable Monitoring and Interpretable Machine Learning Can Objectively Track Progression in Patients during Cardiac Rehabilitation. Sensors 20(12): 3601 (2020) - [j55]Leandro Mateus Giacomini Rocha, Dwaipayan Biswas, Bram-Ernst Verhoef, Sergio Bampi, Chris Van Hoof, Mario Konijnenburg, Marian Verhelst, Nick Van Helleputte:
Binary CorNET: Accelerator for HR Estimation From Wrist-PPG. IEEE Trans. Biomed. Circuits Syst. 14(4): 715-726 (2020) - [j54]Qiuyang Lin, Jiawei Xu, Shuang Song, Arjan Breeschoten, Mario Konijnenburg, Chris Van Hoof, Filip Tavernier, Nick Van Helleputte:
A 119dB Dynamic Range Charge Counting Light-to-Digital Converter For Wearable PPG/NIRS Monitoring Applications. IEEE Trans. Biomed. Circuits Syst. 14(4): 800-810 (2020) - [j53]Shuang Song, Qiuyang Lin, Chris Van Hoof, Nick Van Helleputte:
A 50μW Fully Differential Interface Amplifier With a Current Steering Class AB Output Stage for PPG and NIRS Recordings. IEEE Trans. Circuits Syst. II Express Briefs 67-II(9): 1564-1568 (2020) - [c92]Donghui Zhai, Neide Simões-Capela, Giuseppina Schiavone, Walter De Raedt, Chris Van Hoof:
Reveal Temporal Patterns of Smoking Behavior in Real Life Using Data Acquired through Automatic Tracking Systems. EMBC 2020: 6005-6008 - [c91]Bogdan C. Raducanu, Samira Zali Asl, Stefano Stanzione, Chris van Liempd, Andrés Vásquez Quintero, Herbert De Smet, Johan de Baets, Chris Van Hoof, Nick Van Helleputte:
An Artificial Iris ASIC with High Voltage Liquid Crystal Driver, 10 nA Light Range Detector and 40 nA Blink Detector for LCD Flicker Removal. VLSI Circuits 2020: 1-2
2010 – 2019
- 2019
- [j52]Jonathan Moeyersons, Elena Smets, John F. Morales, Amalia Villa Gómez, Walter De Raedt, Dries Testelmans, Bertien Buyse, Chris Van Hoof, Rik Willems, Sabine Van Huffel, Carolina Varon:
Artefact detection and quality assessment of ambulatory ECG signals. Comput. Methods Programs Biomed. 182 (2019) - [j51]Hyunsoo Ha, Wim Sijbers, Roland Van Wegberg, Jiawei Xu, Mario Konijnenburg, Peter Vis, Arjan Breeschoten, Shuang Song, Chris Van Hoof, Nick Van Helleputte:
A Bio-Impedance Readout IC With Digital-Assisted Baseline Cancellation for Two-Electrode Measurement. IEEE J. Solid State Circuits 54(11): 2969-2979 (2019) - [j50]Yifan Zhang, Shuang Song, Rik Vullings, Dwaipayan Biswas, Neide Simões-Capela, Nick Van Helleputte, Chris Van Hoof, Willemijn Groenendaal:
Motion Artifact Reduction for Wrist-Worn Photoplethysmograph Sensors Based on Different Wavelengths. Sensors 19(3): 673 (2019) - [j49]Dwaipayan Biswas, Luke R. Everson, Muqing Liu, Madhuri Panwar, Bram-Ernst Verhoef, Shrishail Patki, Chris H. Kim, Amit Acharyya, Chris Van Hoof, Mario Konijnenburg, Nick Van Helleputte:
CorNET: Deep Learning Framework for PPG-Based Heart Rate Estimation and Biometric Identification in Ambulant Environment. IEEE Trans. Biomed. Circuits Syst. 13(2): 282-291 (2019) - [j48]Mingyi Chen, Ho Sung Chun, Ivan Dario Castro, Tom Torfs, Qiuyang Lin, Chris Van Hoof, Guoxing Wang, Yong Lian, Nick Van Helleputte:
A 400 GΩ Input-Impedance Active Electrode for Non-Contact Capacitively Coupled ECG Acquisition With Large Linear-Input-Range and High CM-Interference-Tolerance. IEEE Trans. Biomed. Circuits Syst. 13(2): 376-386 (2019) - [j47]Shuang Song, Peter Vis, Chris van Liempd, Chris Van Hoof, Nick Van Helleputte, Mario Konijnenburg, Roland Van Wegberg, Jiawei Xu, Hyunsoo Ha, Wim Sijbers, Stefano Stanzione, Dwaipayan Biswas, Arjan Breeschoten:
A 769 μW Battery-Powered Single-Chip SoC With BLE for Multi-Modal Vital Sign Monitoring Health Patches. IEEE Trans. Biomed. Circuits Syst. 13(6): 1506-1517 (2019) - [j46]Elena Smets, Walter De Raedt, Chris Van Hoof:
Into the Wild: The Challenges of Physiological Stress Detection in Laboratory and Ambulatory Settings. IEEE J. Biomed. Health Informatics 23(2): 463-473 (2019) - [c90]Donghui Zhai, Giuseppina Schiavone, Walter De Raedt, Chris Van Hoof:
Investigation of Heart Rate Changes before and during/after Smoking Events in Free Living Conditions. APCCAS 2019: 137-140 - [c89]Leandro Mateus Giacomini Rocha, Nick Van Helleputte, Muqing Liu, Dwaipayan Biswas, Bram-Ernst Verhoef, Sergio Bampi, Chris H. Kim, Chris Van Hoof, Mario Konijnenburg, Marian Verhelst:
Real-time HR Estimation from wrist PPG using Binary LSTMs. BioCAS 2019: 1-4 - [c88]Jan Cornelis, Elena Smets, Chris Van Hoof:
Accelerometer-based Sleep/Wake Detection in an Ambulatory Environment. HEALTHINF 2019: 375-379 - [c87]Parvez Ahmmed, James Dieffenderfer, Jose Manuel Valero-Sarmiento, Venkata Rajesh Pamula, Nick Van Helleputte, Chris Van Hoof, Marian Verhelst, Alper Bozkurt:
A Wearable Wrist-Band with Compressive Sensing based Ultra-Low Power Photoplethysmography Readout Circuit. BSN 2019: 1-4 - [c86]Hélène De Cannière, John F. Morales, Carolina Varon, Christophe Smeets, Melanie Schoutteten, Chris Van Hoof, Willemijn Groenendaal, Sabine Van Huffel, Pieter M. Vandervoort:
The Progression of Heart Rate Variability Parameters Throughout Cardiac Rehabilitation. CinC 2019: 1-4 - [c85]Ivan D. Castro, Carolina Varon, Jonathan Moeyersons, Amalia Villa Gómez, John F. Morales, Margot Deviaene, Tom Torfs, Sabine Van Huffel, Robert Puers, Chris Van Hoof:
Data Quality Assessment of Capacitively-Coupled ECG Signals. CinC 2019: 1-4 - [c84]Seulki Lee, Bernard Grundlehner, Roberto Garcia van der Westen, Salvatore Polito, Chris Van Hoof:
Nightingale V2: Low-power Compact-sized Multi-Sensor Platform for Wearable Health Monitoring. EMBC 2019: 1290-1293 - [c83]Luke R. Everson, Dwaipayan Biswas, Bram-Ernst Verhoef, Chris H. Kim, Chris Van Hoof, Mario Konijnenburg, Nick Van Helleputte:
BioTranslator: Inferring R-Peaks from Ambulatory Wrist-Worn PPG Signal. EMBC 2019: 4241-4245 - [c82]Ivan D. Castro, Aakash Patel, Tom Torfs, Robert Puers, Chris Van Hoof:
Capacitive multi-electrode array with real-time electrode selection for unobtrusive ECG & BIOZ monitoring. EMBC 2019: 5621-5624 - [c81]Vladimir Leonov, Seulki Lee, Ana Londergan, Russel A. Martin, Walter De Raedt, Chris Van Hoof:
Bioimpedance Method for Human Body Hydration Assessment. EMBC 2019: 6036-6039 - [c80]Roland Van Wegberg, Julien Penders, Chris Van Hoof, Nick Van Helleputte, Wim Sijbers, Shuang Song, Arjan Breeschoten, Peter Vis, Mario Konijnenburg, Hui Jiang, Michiel Rooijakkers, Torfinn Berset:
A 5-Channel Unipolar Fetal-ECG Readout IC for Patch-Based Fetal Monitoring. ESSCIRC 2019: 71-74 - [c79]Mario Konijnenburg, Roland Van Wegberg, Shuang Song, Hyunsoo Ha, Wim Sijbers, Jiawei Xu, Stefano Stanzione, Chris van Liempd, Dwaipayan Biswas, Arjan Breeschoten, Peter Vis, Chris Van Hoof, Nick Van Helleputte:
A 769μW Battery-Powered Single-Chip SoC With BLE for Multi-Modal Vital Sign Health Patches. ISSCC 2019: 360-362 - [c78]Hyunsoo Ha, Wim Sijbers, Roland Van Wegberg, Jiawei Xu, Mario Konijnenburg, Peter Vis, Arjan Breeschoten, Shuang Song, Chris Van Hoof, Nick Van Helleputte:
A Bio-Impedance Readout IC With Digital-Assisted Baseline Cancellation for 2-Electrode Measurement. ISSCC 2019: 368-370 - [c77]Chris Van Hoof:
The OnePlanet Research Center - applying nanoelectronics, sensors, circuits and AI in food, health, agriculture and the environment. IWASI 2019: 128 - [c76]Qiuyang Lin, Jiawei Xu, Shuang Song, Arjan Breeschoten, Mario Konijnenburg, Mingyi Chen, Chris Van Hoof, Filip Tavernier, Nick Van Helleputte:
A 196μW, Reconfigurable Light-to-Digital Converter with 119dB Dynamic Range, for Wearable PPG/NIRS Sensors. VLSI Circuits 2019: 58- - [c75]Xiaolin Yang, Jiawei Xu, Hosung Chun, Marco Ballini, Menglian Zhao, Xiaobo Wu, Chris Van Hoof, Nick Van Helleputte:
A 108dB DR Hybrid-CTDT Direct-Digitalization ΔΣ-ΣM Front-End with 720mVpp Input Range and >300mV Offset Removal for Wearable Bio-Signal Recording. VLSI Circuits 2019: 296- - [c74]Thomas Goossens, Kathleen Vunckx, Andy Lambrechts, Chris Van Hoof:
Spectral Shift Correction for Fabry-Perot Based Spectral Cameras. WHISPERS 2019: 1-6 - 2018
- [j45]Ivan D. Castro, Marco Mercuri, Tom Torfs, Ilde Lorato, Robert Puers, Chris Van Hoof:
Sensor Fusion of Capacitively Coupled ECG and Continuous-Wave Doppler Radar for Improved Unobtrusive Heart Rate Measurements. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(2): 316-328 (2018) - [j44]Jiawei Xu, Pieter Harpe, Chris Van Hoof:
An Energy-Efficient and Reconfigurable Sensor IC for Bio-Impedance Spectroscopy and ECG Recording. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(3): 616-626 (2018) - [j43]Anup Das, Paruthi Pradhapan, Willemijn Groenendaal, Prathyusha Adiraju, Raj Thilak Rajan, Francky Catthoor, Siebren Schaafsma, Jeffrey L. Krichmar, Nikil D. Dutt, Chris Van Hoof:
Unsupervised heart-rate estimation in wearables with Liquid states and a probabilistic readout. Neural Networks 99: 134-147 (2018) - [j42]Elena Smets, Emmanuel Rios Velazquez, Giuseppina Schiavone, Imen Chakroun, Ellie D'Hondt, Walter De Raedt, Jan Cornelis, Olivier Janssens, Sofie Van Hoecke, Stephan Claes, Ilse Van Diest, Chris Van Hoof:
Large-scale wearable data reveal digital phenotypes for daily-life stress detection. npj Digit. Medicine 1 (2018) - [j41]Ivan D. Castro, Carolina Varon, Tom Torfs, Sabine Van Huffel, Robert Puers, Chris Van Hoof:
Evaluation of a Multichannel Non-Contact ECG System and Signal Quality Algorithms for Sleep Apnea Detection and Monitoring. Sensors 18(2): 577 (2018) - [j40]Marco Mercuri, Yao-Hong Liu, Ilde Lorato, Tom Torfs, Fokko Wieringa, André Bourdoux, Chris Van Hoof:
A Direct Phase-Tracking Doppler Radar Using Wavelet Independent Component Analysis for Non-Contact Respiratory and Heart Rate Monitoring. IEEE Trans. Biomed. Circuits Syst. 12(3): 632-643 (2018) - [j39]Jiawei Xu, Mario Konijnenburg, Hyunsoo Ha, Roland Van Wegberg, Shuang Song, Dolores Blanco-Almazán, Chris Van Hoof, Nick Van Helleputte:
A 36 μW 1.1 mm2 Reconfigurable Analog Front-End for Cardiovascular and Respiratory Signals Recording. IEEE Trans. Biomed. Circuits Syst. 12(4): 774-783 (2018) - [j38]Jiawei Xu, Mario Konijnenburg, Shuang Song, Hyunsoo Ha, Roland Van Wegberg, Massimo Mazzillo, Giorgio Fallica, Chris Van Hoof, Walter De Raedt, Nick Van Helleputte:
A 665 μW Silicon Photomultiplier-Based NIRS/EEG/EIT Monitoring ASIC for Wearable Functional Brain Imaging. IEEE Trans. Biomed. Circuits Syst. 12(6): 1267-1277 (2018) - [c73]Dorien Huysmans, Elena Smets, Walter De Raedt, Chris Van Hoof, Katleen Bogaerts, Ilse Van Diest, Denis Helic:
Unsupervised Learning for Mental Stress Detection - Exploration of Self-organizing Maps. BIOSIGNALS 2018: 26-35 - [c72]Jiawei Xu, Qiuyang Lin, Ming Ding, Yao Li, Chris Van Hoof, Wouter A. Serdijn, Nick Van Helleputte:
A 0.6V 3.8μW ECG/bio-impedance monitoring IC for disposable health patch in 40nm CMOS. CICC 2018: 1-4 - [c71]Arvind Gautam, Neide Simões-Capela, Giuseppina Schiavone, Amit Acharyya, Walter De Raedt, Chris Van Hoof:
A Data Driven Empirical Iterative Algorithm for GSR Signal Pre-Processing. EUSIPCO 2018: 1162-1166 - [c70]Luke R. Everson, Dwaipayan Biswas, Madhuri Panwar, Dimitrios Rodopoulos, Amit Acharyya, Chris H. Kim, Chris Van Hoof, Mario Konijnenburg, Nick Van Helleputte:
BiometricNet: Deep Learning based Biometric Identification using Wrist-Worn PPG. ISCAS 2018: 1-5 - [c69]Jiawei Xu, Mario Konijnenburg, Budi Lukita, Shuang Song, Hyunsoo Ha, Roland Van Wegberg, Erfan Sheikhi, Massimo Mazzillo, Giorgio Fallica, Walter De Raedt, Chris Van Hoof, Nick Van Helleputte:
A 665μW silicon photomultiplier-based NIRS/EEG/EIT monitoring asic for wearable functional brain imaging. ISSCC 2018: 294-296 - [c68]Mingyi Chen, Ivan Dario Castro, Qiuyang Lin, Tom Torfs, Filip Tavernier, Chris Van Hoof, Nick Van Helleputte:
A 400GΩ Input-Impedance, 220MVpp Linear-Input-Range, 2.8Vpp CM-Interference-Tolerant Active Electrode for Non-Contact Capacitively Coupled ECG Acquisition. VLSI Circuits 2018: 129-130 - 2017
- [j37]Rachit Mohan, Samira Zaliasl, Georges G. E. Gielen, Chris Van Hoof, Refet Firat Yazicioglu, Nick Van Helleputte:
A 0.6-V, 0.015-mm2, Time-Based ECG Readout for Ambulatory Applications in 40-nm CMOS. IEEE J. Solid State Circuits 52(1): 298-308 (2017) - [j36]Bogdan C. Raducanu, Refet Firat Yazicioglu, Carolina Mora Lopez, Marco Ballini, Jan Putzeys, Shiwei Wang, Alexandru Andrei, Veronique Rochus, Marleen Welkenhuysen, Nick Van Helleputte, Silke Musa, Robert Puers, Fabian Kloosterman, Chris Van Hoof, Richárd Fiáth, István Ulbert, Srinjoy Mitra:
Time Multiplexed Active Neural Probe with 1356 Parallel Recording Sites. Sensors 17(10): 2388 (2017) - [j35]Venkata Rajesh Pamula, Jose Manuel Valero-Sarmiento, Long Yan, Alper Bozkurt, Chris Van Hoof, Nick Van Helleputte, Refet Firat Yazicioglu, Marian Verhelst:
A 172 µW Compressively Sampled Photoplethysmographic (PPG) Readout ASIC With Heart Rate Estimation Directly From Compressively Sampled Data. IEEE Trans. Biomed. Circuits Syst. 11(3): 487-496 (2017) - [j34]Carolina Mora Lopez, Jan Putzeys, Bogdan C. Raducanu, Marco Ballini, Shiwei Wang, Alexandru Andrei, Veronique Rochus, Roeland Vandebriel, Simone Severi, Chris Van Hoof, Silke Musa, Nick Van Helleputte, Refet Firat Yazicioglu, Srinjoy Mitra:
A Neural Probe With Up to 966 Electrodes and Up to 384 Configurable Channels in 0.13 µm SOI CMOS. IEEE Trans. Biomed. Circuits Syst. 11(3): 510-522 (2017) - [j33]Marco Mercuri, Yao-Hong Liu, Ilde Lorato, Tom Torfs, André Bourdoux, Chris Van Hoof:
Frequency-Tracking CW Doppler Radar Solving Small-Angle Approximation and Null Point Issues in Non-Contact Vital Signs Monitoring. IEEE Trans. Biomed. Circuits Syst. 11(3): 671-680 (2017) - [c67]Marco Altini, Chris Van Hoof, Oliver Amft:
Relation between estimated cardiorespiratory fitness and running performance in free-living: An analysis of HRV4Training data. BHI 2017: 249-252 - [c66]Chris Van Hoof:
The virtual personal health coach: Technology and data analytics join forces to disrupt preventive health. IWASI 2017: 233 - [i3]Anup Das, Paruthi Pradhapan, Willemijn Groenendaal, Prathyusha Adiraju, Raj Thilak Rajan, Francky Catthoor, Siebren Schaafsma, Jeffrey L. Krichmar, Nikil D. Dutt, Chris Van Hoof:
Unsupervised Heart-rate Estimation in Wearables With Liquid States and A Probabilistic Readout. CoRR abs/1708.05356 (2017) - 2016
- [j32]Mario Konijnenburg, Stefano Stanzione, Long Yan, Dong-Woo Jee, Julia Pettine, Roland Van Wegberg, Hyejung Kim, Chris van Liempd, Ram Fish, James Schuessler, Harmke de Groot, Chris Van Hoof, Refet Firat Yazicioglu, Nick Van Helleputte:
A Multi(bio)sensor Acquisition System With Integrated Processor, Power Management, 8×8 LED Drivers, and Simultaneously Synchronized ECG, BIO-Z, GSR, and Two PPG Readouts. IEEE J. Solid State Circuits 51(11): 2584-2595 (2016) - [j31]Tomislav Resetar, Koen De Munck, Luc Haspeslagh, Maarten Rosmeulen, Andreas Süss, Robert Puers, Chris Van Hoof:
Development of Gated Pinned Avalanche Photodiode Pixels for High-Speed Low-Light Imaging. Sensors 16(8): 1294 (2016) - [c65]V. Rajesh Pamula, Marian Verhelst, Chris Van Hoof, Refet Firat Yazicioglu:
A 17nA, 47.2dB dynamic range, adaptive sampling controller for online data rate reduction in low power ECG systems. BioCAS 2016: 272-275 - [c64]Daniele Bortolotti, Andrea Bartolini, Luca Benini, V. Rajesh Pamula, Nick Van Helleputte, Chris Van Hoof, Marian Verhelst, Tobias Gemmeke, Rubén Braojos Lopez, Giovanni Ansaloni, David Atienza, Pierre Vandergheynst:
PHIDIAS: ultra-low-power holistic design for smart bio-signals computing platforms. Conf. Computing Frontiers 2016: 309-314 - [c63]Bogdan C. Raducanu, Refet Firat Yazicioglu, Carolina Mora Lopez, Marco Ballini, Jan Putzeys, Shiwei Wang, Alexandru Andrei, Marleen Welkenhuysen, Nick Van Helleputte, Silke Musa, Robert Puers, Fabian Kloosterman, Chris Van Hoof, Srinjoy Mitra:
Time multiplexed active neural probe with 678 parallel recording sites. ESSDERC 2016: 385-388 - [c62]Pamula Venkata Rajesh, Jose Manuel Valero-Sarmiento, Long Yan, Alper Bozkurt, Chris Van Hoof, Nick Van Helleputte, Refet Firat Yazicioglu, Marian Verhelst:
22.4 A 172µW compressive sampling photoplethysmographic readout with embedded direct heart-rate and variability extraction from compressively sampled data. ISSCC 2016: 386-387 - [c61]Carolina Mora Lopez, Srinjoy Mitra, Jan Putzeys, Bogdan C. Raducanu, Marco Ballini, Alexandru Andrei, Simone Severi, Marleen Welkenhuysen, Chris Van Hoof, Silke Musa, Refet Firat Yazicioglu:
22.7 A 966-electrode neural probe with 384 configurable channels in 0.13µm SOI CMOS. ISSCC 2016: 392-393 - [c60]Mario Konijnenburg, Stefano Stanzione, Long Yan, Dong-Woo Jee, Julia Pettine, Roland Van Wegberg, Hyejung Kim, Chris van Liempd, Ram Fish, James Schuessler, Harmke de Groot, Chris Van Hoof, Refet Firat Yazicioglu, Nick Van Helleputte:
28.4 A battery-powered efficient multi-sensor acquisition system with simultaneous ECG, BIO-Z, GSR, and PPG. ISSCC 2016: 480-481 - [c59]Rachit Mohan, Samira Zaliasl, Georges G. E. Gielen, Chris Van Hoof, Nick Van Helleputte, Refet Firat Yazicioglu:
28.5 A 0.6V 0.015mm2 time-based biomedical readout for ambulatory applications in 40nm CMOS. ISSCC 2016: 482-483 - [c58]Ivan D. Castro, R. Morariu, Tom Torfs, Chris Van Hoof, Robert Puers:
Robust wireless capacitive ECG system with adaptive signal quality and motion artifact reduction. MeMeA 2016: 1-6 - 2015
- [j30]Serena Porrazzo, Alonso Morgado, David San Segundo Bello, Chris Van Hoof, Refet Firat Yazicioglu, Arthur H. M. van Roermund, Eugenio Cantatore:
A design methodology for power-efficient reconfigurable SC ΔΣ modulators. Int. J. Circuit Theory Appl. 43(8): 1024-1041 (2015) - [j29]Nick Van Helleputte, Mario Konijnenburg, Julia Pettine, Dong-Woo Jee, Hyejung Kim, Alonso Morgado, Roland Van Wegberg, Tom Torfs, Rachit Mohan, Arjan Breeschoten, Harmke de Groot, Chris Van Hoof, Refet Firat Yazicioglu:
A 345 µW Multi-Sensor Biomedical SoC With Bio-Impedance, 3-Channel ECG, Motion Artifact Reduction, and Integrated DSP. IEEE J. Solid State Circuits 50(1): 230-244 (2015) - [j28]Jiawei Xu, Benjamin Busze, Chris Van Hoof, Kofi A. A. Makinwa, Refet Firat Yazicioglu:
A 15-Channel Digital Active Electrode System for Multi-Parameter Biopotential Measurement. IEEE J. Solid State Circuits 50(9): 2090-2100 (2015) - [j27]Julien Penders, Marco Altini, Chris Van Hoof, Eric Dy:
Wearable Sensors for Healthier Pregnancies. Proc. IEEE 103(2): 179-191 (2015) - [c57]Chris Van Hoof:
Frictionless wearable technology: The key to unleashing the power of wearable sensors for health and lyfestyle. DTIS 2015: 1 - [c56]Seulki Lee, Gabriel Squillace, Christophe Smeets, Marianne Vandecasteele, Lars Grieten, Ruben de Francisco, Chris Van Hoof:
Congestive heart failure patient monitoring using wearable Bio-impedance sensor technology. EMBC 2015: 438-441 - [c55]Jiawei Xu, Pieter Harpe, Julia Pettine, Chris Van Hoof, Refet Firat Yazicioglu:
A low power configurable bio-impedance spectroscopy (BIS) ASIC with simultaneous ECG and respiration recording functionality. ESSCIRC 2015: 396-399 - [c54]Stefano Stanzione, Chris van Liempd, Misato Nabeto, Refet Firat Yazicioglu, Chris Van Hoof:
20.8 A 500nW batteryless integrated electrostatic energy harvester interface based on a DC-DC converter with 60V maximum input voltage and operating from 1μW available power, including MPPT and cold start. ISSCC 2015: 1-3 - [c53]Elena Smets, Pierluigi Casale, Ulf Großekathöfer, Bishal Lamichhane, Walter De Raedt, Katleen Bogaerts, Ilse Van Diest, Chris Van Hoof:
Comparison of Machine Learning Techniques for Psychophysiological Stress Detection. MindCare 2015: 13-22 - 2014
- [j26]Jiawei Xu, Srinjoy Mitra, Akinori Matsumoto, Shrishail Patki, Chris Van Hoof, Kofi A. A. Makinwa, Refet Firat Yazicioglu:
A Wearable 8-Channel Active-Electrode EEG/ETI Acquisition System for Body Area Networks. IEEE J. Solid State Circuits 49(9): 2005-2016 (2014) - [j25]Yun-Hsuan Chen, Maaike Op de Beeck, Luc Vanderheyden, Evelien Carrette, Vojkan Mihajlovic, Kris Vanstreels, Bernard Grundlehner, Stefanie Gadeyne, Paul Boon, Chris Van Hoof:
Soft, Comfortable Polymer Dry Electrodes for High Quality ECG and EEG Recording. Sensors 14(12): 23758-23780 (2014) - [j24]Hyejung Kim, Sunyoung Kim, Nick Van Helleputte, Antonio Artés, Mario Konijnenburg, Jos Huisken, Chris Van Hoof, Refet Firat Yazicioglu:
A Configurable and Low-Power Mixed Signal SoC for Portable ECG Monitoring Applications. IEEE Trans. Biomed. Circuits Syst. 8(2): 257-267 (2014) - [j23]Long Yan, Pieter Harpe, Venkata Rajesh Pamula, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
A 680 nA ECG Acquisition IC for Leadless Pacemaker Applications. IEEE Trans. Biomed. Circuits Syst. 8(6): 779-786 (2014) - [c52]V. Rajesh Pamula, Marian Verhelst, Chris Van Hoof, Refet Firat Yazicioglu:
Computationally-efficient compressive sampling for low-power pulseoximeter system. BioCAS 2014: 69-72 - [c51]Nick Van Helleputte, Mario Konijnenburg, Hyejung Kim, Julia Pettine, Dong-Woo Jee, Arjan Breeschoten, Alonso Morgado, Tom Torfs, Harmke de Groot, Chris Van Hoof, Refet Firat Yazicioglu:
18.3 A multi-parameter signal-acquisition SoC for connected personal health applications. ISSCC 2014: 314-315 - [c50]Long Yan, Pieter Harpe, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
24.4 A 680nA fully integrated implantable ECG-acquisition IC with analog feature extraction. ISSCC 2014: 418-419 - [c49]Jiawei Xu, Ben Busze, Hyejung Kim, Kofi A. A. Makinwa, Chris Van Hoof, Refet Firat Yazicioglu:
24.7 A 60nV/√Hz 15-channel digital active electrode system for portable biopotential signal acquisition. ISSCC 2014: 424-425 - [c48]Refet Firat Yazicioglu, Sam Kavusi, Chris Van Hoof:
ES3: Wearable wellness devices: Fashion, health, and informatics. ISSCC 2014: 525 - [c47]Marco Altini, Ruud J. M. Vullers, Chris Van Hoof, Marijn van Dort, Oliver Amft:
Self-calibration of walking speed estimations using smartphone sensors. PerCom Workshops 2014: 10-18 - 2013
- [j22]Jiawei Xu, Qinwen Fan, Johan H. Huijsing, Chris Van Hoof, Refet Firat Yazicioglu, Kofi A. A. Makinwa:
Measurement and Analysis of Current Noise in Chopper Amplifiers. IEEE J. Solid State Circuits 48(7): 1575-1584 (2013) - [j21]Stefano Stanzione, Chris van Liempd, Rob van Schaijk, Yasuyuki Naito, Refet Firat Yazicioglu, Chris Van Hoof:
A High Voltage Self-Biased Integrated DC-DC Buck Converter With Fully Analog MPPT Algorithm for Electrostatic Energy Harvesters. IEEE J. Solid State Circuits 48(12): 3002-3010 (2013) - [j20]Serena Porrazzo, Alonso Morgado, David San Segundo Bello, Francesco Cannillo, Chris Van Hoof, Refet Firat Yazicioglu, Arthur H. M. van Roermund, Eugenio Cantatore:
A 155 µW 88-dB DR Discrete-Time ΔΣ Modulator for Digital Hearing Aids Exploiting a Summing SAR ADC Quantizer. IEEE Trans. Biomed. Circuits Syst. 7(5): 573-582 (2013) - [j19]Long Yan, Julia Pettine, Srinjoy Mitra, Sunyoung Kim, Dong-Woo Jee, Hyejung Kim, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
A 13 µA Analog Signal Processing IC for Accurate Recognition of Multiple Intra-Cardiac Signals. IEEE Trans. Biomed. Circuits Syst. 7(6): 785-795 (2013) - [c46]Alexander Bertrand, Vojkan Mihajlovic, Bernard Grundlehner, Chris Van Hoof, Marc Moonen:
Motion artifact reduction in EEG recordings using multi-channel contact impedance measurements. BioCAS 2013: 258-261 - [c45]Chris Van Hoof, Julien Penders:
Addressing the healthcare cost dilemma by managing health instead of managing illness: an opportunity for wearable wireless sensors. DATE 2013: 1537-1539 - [c44]Buddhadev P. Chaudhuri, Frederik Ceyssens, Chris Van Hoof, Robert Puers:
A Novel Method for Monolithic Fabrication of Polymer Microneedles on a Platform for Transdermal Drug Delivery. EMBC 2013: 156-159 - [c43]Yun-Hsuan Chen, Maaike Op de Beeck, Luc Vanderheyden, Vojkan Mihajlovic, Bernard Grundlehner, Chris Van Hoof:
Comb-shaped polymer-based Dry electrodes for EEG/ECG measurements with high user comfort. EMBC 2013: 551-554 - [c42]Serena Porrazzo, Venkata Narasimha Manyam, Alonso Morgado, David San Segundo Bello, Chris Van Hoof, Arthur H. M. van Roermund, Refet Firat Yazicioglu, Eugenio Cantatore:
A 1-V 99-to-75dB SNDR, 256Hz-16kHz bandwidth, 8.6-to-39µW reconfigurable SC ΔΣ Modulator for autonomous biomedical applications. ESSCIRC 2013: 367-370 - [c41]Stefano Stanzione, Chris van Liempd, Rob van Schaijk, Yasuyuki Naito, Refet Firat Yazicioglu, Chris Van Hoof:
A self-biased 5-to-60V input voltage and 25-to-1600µW integrated DC-DC buck converter with fully analog MPPT algorithm reaching up to 88% end-to-end efficiency. ISSCC 2013: 74-75 - [c40]Chris van Liempd, Stefano Stanzione, Younis Allasasmeh, Chris Van Hoof:
A 1µW-to-1mW energy-aware interface IC for piezoelectric harvesting with 40nA quiescent current and zero-bias active rectifiers. ISSCC 2013: 76-77 - [c39]Srinjoy Mitra, Jan Putzeys, Francesco Battaglia, Carolina Mora Lopez, Marleen Welkenhuysen, Cyriel M. A. Pennartz, Chris Van Hoof, Refet Firat Yazicioglu:
24-channel dual-band wireless neural recorder with activity-dependent power consumption. ISSCC 2013: 292-293 - [c38]Sunyoung Kim, Long Yan, Srinjoy Mitra, Masato Osawa, Yasunari Harada, Kosei Tamiya, Chris Van Hoof, Refet Firat Yazicioglu:
A 20µW intra-cardiac signal-processing IC with 82dB bio-impedance measurement dynamic range and analog feature extraction for ventricular fibrillation detection. ISSCC 2013: 302-303 - [c37]Chris Van Hoof:
Addressing the healthcare cost dilemma by managing health instead of managing illness An opportunity for wireless wearable sensors. IWASI 2013: 9 - 2012
- [j18]Julia Pettine, Violeta Petrescu, Devrez M. Karabacak, Marianne Vandecasteele, Mercedes Crego Calama, Chris Van Hoof:
Power-Efficient Oscillator-Based Readout Circuit for Multichannel Resonant Volatile Sensors. IEEE Trans. Biomed. Circuits Syst. 6(6): 542-551 (2012) - [j17]Nick Van Helleputte, Sunyoung Kim, Hyejung Kim, Jong Pal Kim, Chris Van Hoof, Refet Firat Yazicioglu:
A 160 $\mu{\rm A}$ Biopotential Acquisition IC With Fully Integrated IA and Motion Artifact Suppression. IEEE Trans. Biomed. Circuits Syst. 6(6): 552-561 (2012) - [j16]Serena Porrazzo, Francesco Cannillo, Chris Van Hoof, Eugenio Cantatore, Arthur H. M. van Roermund:
A Power-Optimal Design Methodology for High-Resolution Low-Bandwidth SC ΔΣ Modulators. IEEE Trans. Instrum. Meas. 61(11): 2896-2904 (2012) - [c36]Hyejung Kim, Sunyoung Kim, Nick Van Helleputte, Torfinn Berset, Di Geng, Iñaki Romero, Julien Penders, Chris Van Hoof, Refet Firat Yazicioglu:
Motion artifact removal using cascade adaptive filtering for ambulatory ECG monitoring system. BioCAS 2012: 160-163 - [c35]Serena Porrazzo, Alonso Morgado, David San Segundo Bello, Francesco Cannillo, Chris Van Hoof, Arthur H. M. van Roermund, Eugenio Cantatore:
A 155µW 88-dB DR discrete-time ΔΣ modulator for digital hearing aid applications. BioCAS 2012: 248-251 - [c34]Sunyoung Kim, Hyejung Kim, Nick Van Helleputte, Chris Van Hoof, Refet Firat Yazicioglu:
Real time digitally assisted analog motion artifact reduction in ambulatory ECG monitoring system. EMBC 2012: 2096-2099 - [c33]Jiawei Xu, Qinwen Fan, Johan H. Huijsing, Chris Van Hoof, Refet Firat Yazicioglu, Kofi A. A. Makinwa:
Measurement and analysis of input current noise in chopper amplifiers. ESSCIRC 2012: 81-84 - [c32]Nick Van Helleputte, Sunyoung Kim, Hyejung Kim, Jong Pal Kim, Chris Van Hoof, Refet Firat Yazicioglu:
A 160μA biopotential acquisition ASIC with fully integrated IA and motion-artifact suppression. ISSCC 2012: 118-120 - [c31]Violeta Petrescu, Julia Pettine, Devrez M. Karabacak, Marianne Vandecasteele, Mercedes Crego Calama, Chris Van Hoof:
Power-efficient readout circuit for miniaturized electronic nose. ISSCC 2012: 318-320 - [c30]Chris Van Hoof, Wim Dehaene, Wentai Liu, Timothy Denison, Minkyu Je, Hoi-Jun Yoo:
Bioelectronics for sustainable healthcare. ISSCC 2012: 506-507 - [c29]Srinjoy Mitra, Jiawei Xu, Akinori Matsumoto, Kofi A. A. Makinwa, Chris Van Hoof, Refet Firat Yazicioglu:
A 700µW 8-channel EEG/contact-impedance acquisition system for dry-electrodes. VLSIC 2012: 68-69 - 2011
- [j15]Refet Firat Yazicioglu, Sunyoung Kim, Tom Torfs, Hyejung Kim, Chris Van Hoof:
A 30 μ W Analog Signal Processor ASIC for Portable Biopotential Signal Monitoring. IEEE J. Solid State Circuits 46(1): 209-223 (2011) - [j14]Tom Torfs, Arno A. A. Aarts, Mehmet A. Erismis, Junaid Aslam, Refet Firat Yazicioglu, Karsten Seidl, Stanislav Herwik, István Ulbert, Balázs Dombovari, Richárd Fiáth, Bálint Péter Kerekes, Robert Puers, Oliver Paul, Patrick Ruther, Chris Van Hoof, Herc P. Neves:
Two-Dimensional Multi-Channel Neural Probes With Electronic Depth Control. IEEE Trans. Biomed. Circuits Syst. 5(5): 403-412 (2011) - [j13]Jiawei Xu, Refet Firat Yazicioglu, Bernard Grundlehner, Pieter Harpe, Kofi A. A. Makinwa, Chris Van Hoof:
A $160~\mu {\rm W}$ 8-Channel Active Electrode System for EEG Monitoring. IEEE Trans. Biomed. Circuits Syst. 5(6): 555-567 (2011) - [j12]Mukul Sarkar, David San Segundo Bello, Chris Van Hoof, Albert J. P. Theuwissen:
Integrated Polarization-Analyzing CMOS Image Sensor for Detecting the Incoming Light Ray Direction. IEEE Trans. Instrum. Meas. 60(8): 2759-2767 (2011) - [c28]F. Vanlerberghe, Michaël De Volder, Maaike Op de Beeck, Julien Penders, Dominiek Reynaerts, Robert Puers, Chris Van Hoof:
2-Scale topography dry electrode for biopotential measurements. EMBC 2011: 1892-1895 - [c27]Hyejung Kim, Chris Van Hoof, Refet Firat Yazicioglu:
A mixed signal ECG processing platform with an adaptive sampling ADC for portable monitoring applications. EMBC 2011: 2196-2199 - [c26]A. Sanchez Linde, John M. O'Callaghan, Maaike Op de Beeck, H. Pereira Neves, Chris Van Hoof, Robert Mertens:
Hydrogel optimization towards fibroblast-friendly biomimetic coatings for implantable devices. EMBC 2011: 2870-2873 - [c25]Buddhadev Paul Chaudhri, Frederik Ceyssens, H. Pereira Neves, A. La Manna, Chris Van Hoof, Robert Puers:
Out-of-plane, high strength, polymer microneedles for transdermal drug delivery. EMBC 2011: 3680-3683 - [c24]Tom Sterken, Jan Vanfleteren, Tom Torfs, Maaike Op de Beeck, Frederick Bossuyt, Chris Van Hoof:
Ultra-Thin Chip Package (UTCP) and stretchable circuit technologies for wearable ECG system. EMBC 2011: 6886-6889 - [c23]Karen Qian, Karl Malachowski, Paolo Fiorini, Dimitrios Velenis, Maaike Op de Beeck, Chris Van Hoof:
Development of cost-effective biocompatible packaging for microelectronic devices. EMBC 2011: 7674-7677 - [c22]Francesco Cannillo, Enrique Prefasi, Luis Hernández, Ernesto Pun, Refet Firat Yazicioglu, Chris Van Hoof:
1.4V 13μW 83dB DR CT-ΣΔ modulator with Dual-Slope quantizer and PWM DAC for biopotential signal acquisition. ESSCIRC 2011: 267-270 - [c21]Wim Dehaene, Georges G. E. Gielen, Geert Deconinck, Johan Driesen, Marc Moonen, Bart Nauwelaers, Chris Van Hoof, Patrick Wambacq:
Circuits and systems engineering education through interdisciplinary team-based design projects. ISCAS 2011: 1195-1198 - [c20]Amandeep Singh, Refet Firat Yazicioglu, Chris Van Hoof:
Design of widely tunable Mexican hat wavelet filter for cardiac signal analysis. ISCAS 2011: 1459-1462 - [c19]Yifeng Qiu, Chris van Liempd, Bert Op het Veld, Peter G. Blanken, Chris Van Hoof:
5μW-to-10mW input power range inductive boost converter for indoor photovoltaic energy harvesting with integrated maximum power point tracking algorithm. ISSCC 2011: 118-120 - [c18]Jiawei Xu, Refet Firat Yazicioglu, Pieter Harpe, Kofi A. A. Makinwa, Chris Van Hoof:
A 160μW 8-channel active electrode system for EEG monitoring. ISSCC 2011: 300-302 - [c17]Iñaki Romero, Torfinn Berset, Dilpreet Buxi, Lindsay Brown, Julien Penders, Sunyoung Kim, Nick Van Helleputte, Hyejung Kim, Chris Van Hoof, Refet Firat Yazicioglu:
Motion artifact reduction in ambulatory ECG monitoring: an integrated system approach. Wireless Health 2011: 11 - [p2]Hoi-Jun Yoo, Chris Van Hoof:
Introduction to Bio-Medical CMOS IC. Bio-Medical CMOS ICs 2011: 1-9 - [p1]Julien Penders, Chris Van Hoof, Bert Gyselinckx:
Bio-Medical Application of WBAN: Trends and Examples. Bio-Medical CMOS ICs 2011: 279-302 - [e1]Hoi-Jun Yoo, Chris Van Hoof:
Bio-Medical CMOS ICs. Integrated Circuits and Systems, Springer 2011, ISBN 978-1-4419-6596-7 [contents] - 2010
- [j11]Marc Belleville, Hervé Fanet, Paolo Fiorini, Pierre Nicole, Marcel J. M. Pelgrom, Christian Piguet, Robert Hahn, Chris Van Hoof, Ruud J. M. Vullers, Marco Tartagni, Eugenio Cantatore:
Energy autonomous sensor systems: Towards a ubiquitous sensor technology. Microelectron. J. 41(11): 740-745 (2010) - [j10]Hyejung Kim, Refet Firat Yazicioglu, Patrick Merken, Chris Van Hoof, Hoi-Jun Yoo:
ECG signal compression and classification algorithm with quad level vector for ECG holter system. IEEE Trans. Inf. Technol. Biomed. 14(1): 93-100 (2010) - [c16]Mukul Sarkar, David San Segundo Bello, Chris Van Hoof, Albert J. P. Theuwissen:
Integrated polarization analyzing CMOS Image sensor for autonomus navigation using polarized light. IEEE Conf. of Intelligent Systems 2010: 224-229 - [c15]Mukul Sarkar, David San Segundo Bello, Chris Van Hoof, Albert J. P. Theuwissen:
Integrated polarization-analyzing CMOS image sensor. ISCAS 2010: 621-624 - [c14]Refet Firat Yazicioglu, Sunyoung Kim, Tom Torfs, Patrick Merken, Chris Van Hoof:
A 30µW Analog Signal Processor ASIC for biomedical signal monitoring. ISSCC 2010: 124-125
2000 – 2009
- 2009
- [j9]Li Huang, Maryam Ashouei, Refet Firat Yazicioglu, Julien Penders, Ruud J. M. Vullers, Guido Dolmans, Patrick Merken, Jos Huisken, Harmke de Groot, Chris Van Hoof, Bert Gyselinckx:
Ultra-Low Power Sensor Design for Wireless Body Area Networks - Challenges, Potential Solutions, and Applications. J. Digit. Content Technol. its Appl. 3(3): 136-148 (2009) - [j8]Ybe Creten, Patrick Merken, Willy Sansen, Robert P. Mertens, Chris Van Hoof:
An 8-Bit Flash Analog-to-Digital Converter in Standard CMOS Technology Functional From 4.2 K to 300 K. IEEE J. Solid State Circuits 44(7): 2019-2025 (2009) - [j7]Inge Doms, Patrick Merken, Chris Van Hoof, Robert P. Mertens:
Capacitive Power Management Circuit for Micropower Thermoelectric Generators With a 1.4 µA Controller. IEEE J. Solid State Circuits 44(10): 2824-2833 (2009) - [j6]Refet Firat Yazicioglu, Tom Torfs, Patrick Merken, Julien Penders, Vladimir Leonov, Robert Puers, Bert Gyselinckx, Chris Van Hoof:
Ultra-low-power biopotential interfaces and their applications in wearable and implantable systems. Microelectron. J. 40(9): 1313-1321 (2009) - [c13]Vladimir Leonov, Chris Van Hoof, Ruud J. M. Vullers:
Thermoelectric and Hybrid Generators in Wearable Devices and Clothes. BSN 2009: 195-200 - [c12]Inge Doms, Patrick Merken, Robert Mertens, Chris Van Hoof:
Integrated capacitive power-management circuit for thermal harvesters with output power 10 to 1000µW. ISSCC 2009: 300-301 - [c11]Nikolay Chumerin, Nikolay V. Manyakov, Adrien Combaz, Johan A. K. Suykens, Refet Firat Yazicioglu, Tom Torfs, Patrick Merken, Herc P. Neves, Chris Van Hoof, Marc M. Van Hulle:
P300 Detection Based on Feature Extraction in On-line Brain-Computer Interface. KI 2009: 339-346 - 2008
- [j5]Refet Firat Yazicioglu, Patrick Merken, Robert Puers, Chris Van Hoof:
A 200 µW Eight-Channel EEG Acquisition ASIC for Ambulatory EEG Systems. IEEE J. Solid State Circuits 43(12): 3025-3038 (2008) - [c10]Paolo Fiorini, Inge Doms, Chris Van Hoof, Ruud J. M. Vullers:
Micropower energy scavenging. ESSCIRC 2008: 4-9 - [c9]Ybe Creten, Patrick Merken, Robert Mertens, Willy Sansen, Chris Van Hoof:
An 8-bit Flash Analog-to-Digital Converter in standard CMOS technology functional in ultra wide temperature range from 4.2 K to 300 K. ESSCIRC 2008: 274-277 - [c8]Refet Firat Yazicioglu, Patrick Merken, Robert Puers, Chris Van Hoof:
A 200μW Eight-Channel Acquisition ASIC for Ambulatory EEG Systems. ISSCC 2008: 164-165 - [c7]Inge Doms, Patrick Merken, Robert P. Mertens, Chris Van Hoof:
Capacitive Power-Management Circuit for Micropower Thermoelectric Generators with a 2.1μW Controller. ISSCC 2008: 300-301 - [i2]Z. Wang, Vladimir Leonov, Paolo Fiorini, Chris Van Hoof:
Micromachined Polycrystalline Sige-Based Thermopiles for Micropower Generation on Human Body. CoRR abs/0802.3067 (2008) - 2007
- [j4]Hamadoun Diall, Kishore Raja, Ioannis Daskalopoulos, Stephen Hailes, George Roussos, Tom Torfs, Chris Van Hoof:
Sensor Cube: A Modular, Ultra-Compact, Power-Aware Platform for Sensor Networks. Inf. Media Technol. 2(3): 914-924 (2007) - [j3]Refet Firat Yazicioglu, Patrick Merken, Robert Puers, Chris Van Hoof:
A 60 µW 60 nV/√Hz Readout Front-End for Portable Biopotential Acquisition Systems. IEEE J. Solid State Circuits 42(5): 1100-1110 (2007) - [j2]Wouter Bracke, Patrick Merken, Robert Puers, Chris Van Hoof:
Ultra-Low-Power Interface Chip for Autonomous Capacitive Sensor Systems. IEEE Trans. Circuits Syst. I Regul. Pap. 54-I(1): 130-140 (2007) - [c6]Chris Van Hoof, Philippe Royannez:
TD: Proximity Data and Power Transmission. ISSCC 2007: 354-355 - [c5]Ybe Creten, Patrick Merken, Willy Sansen, Robert Mertens, Chris Van Hoof:
A Cryogenic ADC operating Down to 4.2K. ISSCC 2007: 468-616 - [i1]Raquel Hellin-Rico, Jean Pierre Celis, Kris Baert, Chris Van Hoof, Ann Witvrouw:
A Generic Surface Micromachining Module for Mems Hermetic Packaging at Temperatures Below 200 degrees C. CoRR abs/0711.3317 (2007) - 2006
- [j1]Kris Baert, Bert Gyselinckx, Tom Torfs, Vladimir Leonov, Refet Firat Yazicioglu, Steven Brebels, Stéphane Donnay, J. Vanfletern, M. Pastreen, Eric Beyne, Chris Van Hoof:
Technologies for highly miniaturized autonomous sensor networks. Microelectron. J. 37(12): 1563-1568 (2006) - [c4]Refet Firat Yazicioglu, Patrick Merken, Robert Puers, Chris Van Hoof:
A 60µW 60 nV/Hz Readout Front-End for Portable Biopotential Acquisition Systems. ISSCC 2006: 109-118 - [c3]Bert Gyselinckx, Ruud J. M. Vullers, Chris Van Hoof, Julien Ryckaert, Refet Firat Yazicioglu, Paolo Fiorini, Vladimir Leonov:
Human++: Emerging Technology for Body Area Networks. VLSI-SoC 2006: 175-180 - [c2]Julien Penders, Bert Gyselinckx, Ruud J. M. Vullers, Olivier Rousseaux, Mladen Berekovic, Michael De Nil, Chris Van Hoof, Julien Ryckaert, Refet Firat Yazicioglu, Paolo Fiorini, Vladimir Leonov:
Human++: Emerging Technology for Body Area Networks. VLSI-SoC (Selected Papers) 2006: 377-397 - 2005
- [c1]Bert Gyselinckx, Chris Van Hoof, Julien Ryckaert, Refet Firat Yazicioglu, Paolo Fiorini, Vladimir Leonov:
Human++: autonomous wireless sensors for body area networks. CICC 2005: 13-19
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-18 19:30 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint