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Philipp Mayer
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2020 – today
- 2024
- [j13]Philipp Mayer
, Michele Magno
Self-Sustaining Ultrawideband Positioning System for Event-Driven Indoor Localization. IEEE Internet Things J. 11(1): 1272-1284 (2024) - [i8]Lukas Schulthess, Philipp Mayer, Luca Benini, Michele Magno:
A Passive and Asynchronous Wake-up Receiver for Acoustic Underwater Communication. CoRR abs/2405.18000 (2024) - [i7]Lukas Schulthess, Federico Villani, Philipp Mayer, Michele Magno:
RF Power Transmission for Self-sustaining Miniaturized IoT Devices. CoRR abs/2407.21455 (2024) - [i6]Tommaso Polonelli, Lukas Schulthess, Philipp Mayer, Michele Magno, Luca Benini:
H-Watch: An Open, Connected Platform for AI-Enhanced COVID19 Infection Symptoms Monitoring and Contact Tracing. CoRR abs/2407.21501 (2024) - 2023
- [c23]Jonah Imfeld
Evaluation of a Non-Coherent Ultra-Wideband Transceiver for Micropower Sensor Nodes. SENSORS 2023: 1-4 - [c22]Julian Moosmann
Quantitative Evaluation of a Multi-Modal Camera Setup for Fusing Event Data with RGB Images. SENSORS 2023: 1-4 - [c21]Lukas Schulthess
Poster Abstract: Battery-free and Passive Wake-up Receiver for Underwater Communication. IoTDI 2023: 479-480 - [c20]Philipp Mayer
Design and Evaluation of a LoRa Controlled Rugged Multisensor Unit for Induced Rockfall Experiments. IWASI 2023: 52-57 - [c19]Denis Mikhaylov, Fu Zheng, Philipp Mayer, Christian Vogt, Tommaso Polonelli, Michele Magno:
Advancing Freight Train Integrity Monitoring for Next-Generation Railway Signaling Using UWB Ranging. WF-IoT 2023: 1-6 - [i5]Julian Moosmann, Pietro Bonazzi, Yawei Li, Sizhen Bian, Philipp Mayer, Luca Benini, Michele Magno:
Ultra-Efficient On-Device Object Detection on AI-Integrated Smart Glasses with TinyissimoYOLO. CoRR abs/2311.01057 (2023) - [i4]Jonah Imfeld, Silvano Cortesi, Philipp Mayer, Michele Magno:
Evaluation of a Non-Coherent Ultra-Wideband Transceiver for Micropower Sensor Nodes. CoRR abs/2311.14523 (2023) - 2022
- [j12]Günther Eder
2-Opt Moves and Flips for Area-optimal Polygonizations. ACM J. Exp. Algorithmics 27: 2.7:1-2.7:12 (2022) - [c18]Seonyeong Heo, Philipp Mayer
Predictive Energy-Aware Adaptive Sampling with Deep Reinforcement Learning. ICECS 2022 2022: 1-4 - [c17]Lukas Schulthess, Federico Villani, Philipp Mayer
RF Power Transmission for Self-sustaining Miniaturized IoT Devices. ICECS 2022 2022: 1-4 - [i3]Philipp Mayer, Michele Magno
Self-sustaining Ultra-wideband Positioning System for Event-driven Indoor Localization. CoRR abs/2212.04896 (2022) - 2021
- [j11]Felix Christian Hasse
Balanced steady-state free precession MRCP is a robust alternative to respiration-navigated 3D turbo-spin-echo MRCP. BMC Medical Imaging 21(1): 10 (2021) - [j10]Moritz Scherer
TinyRadarNN: Combining Spatial and Temporal Convolutional Neural Networks for Embedded Gesture Recognition With Short Range Radars. IEEE Internet Things J. 8(13): 10336-10346 (2021) - [j9]Ye Xu
System Implementation Trade-Offs for Low-Speed Rotational Variable Reluctance Energy Harvesters. Sensors 21(18): 6317 (2021) - [j8]Kanika S. Dheman
ImpediSense: A long lasting wireless wearable bio-impedance sensor node. Sustain. Comput. Informatics Syst. 30: 100556 (2021) - [j7]Philipp Mayer
Energy-Positive Activity Recognition - From Kinetic Energy Harvesting to Smart Self-Sustainable Wearable Devices. IEEE Trans. Biomed. Circuits Syst. 15(5): 926-937 (2021) - [j6]Philipp Mayer
RTK-LoRa: High-Precision, Long-Range, and Energy-Efficient Localization for Mobile IoT Devices. IEEE Trans. Instrum. Meas. 70: 1-11 (2021) - [c16]Moritz Scherer, Philipp Mayer
Towards Always-on Event-based Cameras for Long-lasting Battery-operated Smart Sensor Nodes. I2MTC 2021: 1-6 - [c15]Tommaso Polonelli, Lukas Schulthess, Philipp Mayer
H-Watch: An Open, Connected Platform for AI-Enhanced COVID19 Infection Symptoms Monitoring and Contact Tracing. ISCAS 2021: 1-5 - [c14]Federico Villani, Philipp Mayer
RF Power Transmission: Energy Harvesting for Self-Sustaining Miniaturized Sensor Nodes. SenSys 2021: 592-593 - 2020
- [j5]Philipp Mayer
A2Event: A Micro-Watt Programmable Frequency-Time Detector for Always-On Energy-Neutral Sensing. Sustain. Comput. Informatics Syst. 25: 100368 (2020) - [j4]Kanika S. Dheman
Wireless, Artefact Aware Impedance Sensor Node for Continuous Bio-Impedance Monitoring. IEEE Trans. Biomed. Circuits Syst. 14(5): 1122-1134 (2020) - [c13]Philipp Mayer
A Low Power and Smart Power Unit for Kinetic Self-Sustainable Wearable Devices. ICECS 2020: 1-4 - [c12]Hayate Okuhara, Ahmed Elnaqib, Davide Rossi, Alfio Di Mauro, Philipp Mayer
An Energy-Efficient Low-Voltage Swing Transceiver for mW-Range IoT End-Nodes. ISCAS 2020: 1-5 - [c11]Marco Giordano, Philipp Mayer
A Battery-Free Long-Range Wireless Smart Camera for Face Detection. ENSsys@SenSys 2020: 29-35 - [i2]Moritz Scherer, Michele Magno, Jonas Erb, Philipp Mayer, Manuel Eggimann, Luca Benini:
TinyRadarNN: Combining Spatial and Temporal Convolutional Neural Networks for Embedded Gesture Recognition with Short Range Radars. CoRR abs/2006.16281 (2020) - [i1]Hayate Okuhara, Ahmed Elnaqib, Davide Rossi, Alfio Di Mauro, Philipp Mayer, Pierpaolo Palestri, Luca Benini:
An Energy-Efficient Low-Voltage Swing Transceiver for mW-Range IoT End-Nodes. CoRR abs/2010.04566 (2020)
2010 – 2019
- 2019
- [j3]Philipp Mayer
Semi-automated computed tomography Volumetry can predict hemihepatectomy specimens' volumes in patients with hepatic malignancy. BMC Medical Imaging 19(1): 20:1-20:11 (2019) - [j2]Nino Bogveradze, Felix Christian Hasse, Philipp Mayer
Is MRCP necessary to diagnose pancreas divisum? BMC Medical Imaging 19(1): 33:1-33:7 (2019) - [j1]Philipp Mayer
Self-Sustaining Acoustic Sensor With Programmable Pattern Recognition for Underwater Monitoring. IEEE Trans. Instrum. Meas. 68(7): 2346-2355 (2019) - [c10]Philipp Mayer
ZeroPowerTouch: Zero-Power Smart Receiver for Touch Communication and Sensing in Wearable Applications. DATE 2019: 944-947 - [c9]Manuel Eggimann, Jonas Erb, Philipp Mayer
Low Power Embedded Gesture Recognition Using Novel Short-Range Radar Sensors. IEEE SENSORS 2019: 1-4 - [c8]Ye Xu
Energy-autonomous On-rotor RPM Sensor Using Variable Reluctance Energy Harvesting. IWASI 2019: 175-180 - [c7]Philipp Mayer
LoRa vs. LoRa: In-Field Evaluation and Comparison For Long-Lifetime Sensor Nodes. IWASI 2019: 307-311 - [c6]Philipp Mayer
EmbedUWB: Low Power Embedded High-Precision and Low Latency UWB Localization. WF-IoT 2019: 519-523 - [c5]Michele Magno
FANNCortexM: An Open Source Toolkit for Deployment of Multi-layer Neural Networks on ARM Cortex-M Family Microcontrollers : Performance Analysis with Stress Detection. WF-IoT 2019: 793-798 - 2018
- [c4]Michele Magno
A Self-Sustaining Micro-Watt Programmable Smart Audio Sensor for Always-On Sensing. IGSC 2018: 1-8 - [c3]Philipp Mayer
Combining microbial fuel cell and ultra-low power event-driven audio detector for zero-power sensing in underwater monitoring. SAS 2018: 1-6 - 2017
- [c2]Michele Magno
DeepEmote: Towards multi-layer neural networks in a low power wearable multi-sensors bracelet. IWASI 2017: 32-37 - 2016
- [c1]Michael Götz
Machine-learning based comparison of CT-perfusion maps and dual energy CT for pancreatic tumor detection. Computer-Aided Diagnosis 2016: 97851R
Coauthor Index
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last updated on 2024-12-05 20:44 CET by the dblp team
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