P
Peter Vis
Researcher at IMEC
Publications - 9
Citations - 174
Peter Vis is an academic researcher from IMEC. The author has contributed to research in topics: Computer science & Instrumentation amplifier. The author has an hindex of 4, co-authored 7 publications receiving 73 citations.
Papers
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Journal ArticleDOI
A 769 μW Battery-Powered Single-Chip SoC With BLE for Multi-Modal Vital Sign Monitoring Health Patches
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 +12 more
TL;DR: An all-in-one battery powered low-power SoC for measuring multiple vital signs with wearables is proposed, allowing an unprecedented level of miniaturization leading to smaller component count which reduces cost and improves comfort and signal integrity.
Journal ArticleDOI
A Bio-Impedance Readout IC With Digital-Assisted Baseline Cancellation for Two-Electrode Measurement
Hyunsoo Ha,Wim Sijbers,Roland van Wegberg,Jiawei Xu,Mario Konijnenburg,Peter Vis,Arjan Breeschoten,Shuang Song,Chris Van Hoof,Nick Van Helleputte +9 more
TL;DR: A digital-assisted baseline impedance cancellation method is implemented to measure small tissue impedance variations originating from respiration and heartbeat in the presence of larger baseline impedances and improves the noise performance by cancelling the reference current noise from the current generator (CG).
Proceedings ArticleDOI
26.3 A 1.3nJ/b IEEE 802.11ah fully digital polar transmitter for IoE applications
Ao Ba,Yao-Hong Liu,Johan van den Heuvel,Paul Mateman,Benjamin Busze,Jordy Gloudemans,Peter Vis,Johan Dijkhuis,Christian Bachmann,Guido Dolmans,Kathleen Philips,Harmke de Groot +11 more
TL;DR: This paper presents an ultra-low-power (ULP) IEEE 802.11ah fully-digital polar transmitter (TX) that achieves more than 10× power reduction compared to the state-of-the-art OFDM transceivers without any complicated PA pre-distortion techniques.
Proceedings ArticleDOI
22.1 A 769μW Battery-Powered Single-Chip SoC With BLE for Multi-Modal Vital Sign Health Patches
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 +12 more
TL;DR: In this paper, an all-in-one battery-powered SoC designed for low-cost single-use health patches is presented, allowing continuous monitoring in a home setting to improve patient comfort and reduce cost of care.
Proceedings Article
A 769μW Battery-Powered Single-Chip SoC With BLE for Multi-Modal Vital Sign Health Patches.
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 +12 more
TL;DR: An all-in-one battery-powered SoC designed for low-cost single-use health patches, allowing continuous monitoring in a home setting to improve patient comfort and reduce cost of care by, e.g., reducing hospital stays.