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ORCIDMarvin Sandner
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2020 – today
- 2024
[c31]Marvin Sandner, Phil Meier, Thorsten Uelzen, Shouqiang Yang:
Java-Based Virtual Laboratory for Educational Purposes in Basic Electrical Engineering. EDUCON 2024: 1-5- [c30]Marvin Sandner, Thorsten Uelzen, Shouqiang Yang, Phil Meier:
Dynamically Configurable Remote Laboratory for Electrical Engineering Education. EDUCON 2024: 1-5 - 2023
- [c29]Phil Meier, Oussama Ferhi, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Convolutional Neural Network for Sound Recognition in the Household Domain. GCCE 2023: 382-383 - [c28]Marvin Sandner, Marcus Prochaska, Phil Meier:
Linearization of Giant Magnetoimpedance Sensors Using a Logarithmic Amplifier. SENSORS 2023: 1-4 - 2022
- [c27]Phil Meier, Oussama Ferhi, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Design of a Low Cost Current Sensor for Energy Management Applications. GCCE 2022: 914-916 - [c26]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska
:
A Stray Field Compensation Method for Stacked Angular Sensors Based on a Neuronal Network. IEEE SENSORS 2022: 1-4 - [c25]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Estimating the Angular Error of Magnetic Positions Sensors Under the Influence of External Stray Fields. IEEE SENSORS 2022: 1-4 - 2021
- [c24]Marvin Sandner, Phil Meier, Kris Rohrmann, Marcus Prochaska:
Utilizing the nonlinearity of GMI sensors for time-proportional magnetic field measurements. I2MTC 2021: 1-6 - [c23]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Assessment of a Neural Network for the Correction of Measurement Errors. IEEE SENSORS 2021: 1-4 - 2020
- [j1]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Compensation of Measurement Errors for a Magnetoresistive Angular Sensor Array Using Artificial Neuronal Networks. IEEE Access 8: 142956-142976 (2020) - [c22]Oussama Ferhi, Marvin Sandner, Kris Rohrmann, Phil Meier, Marcus Prochaska:
A Weak Magnetic Field Sensor with InSb-Magnetometers and Lock-in Amplifier. I2MTC 2020: 1-6 - [c21]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Transfer Learning for Neuronal Networks Deployed on the Sensors Edge. IEEE SENSORS 2020: 1-4 - [c20]Phil Meier, Marvin Sandner, Kris Rohrmann, Oussama Ferhi, Marcus Prochaska:
Linearization of GMI Sensors by Neuronal Networks for Medical Applications. LifeTech 2020: 163-166 - [c19]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Neuronal Networks as a Way to introduce System Knowledge in Numerical Computations. MWSCAS 2020: 61-64
2010 – 2019
- 2019
- [c18]Phil Meier, Kris Rohrmann, Oussama Ferhi, Marvin Sandner, Marcus Prochaska:
A Magnetic Field Sensor Array as an Universal Smart Home Control Device. GCCE 2019: 1055-1057 - [c17]Phil Meier, Kris Rohrmann, Marvin Sandner, Martin Streitenberger, Marcus Prochaska:
Convolutional neural networks for robust angular measurement with xMR sensor arrays. I2MTC 2019: 1-6 - [c16]Marvin Sandner, Phil Meier, Kris Rohrmann, Marcus Prochaska:
Rotational speed measurement based on a state-space observation within a tracking demodu1ation method using xMR angular sensors. I2MTC 2019: 1-6 - [c15]Phil Meier, Kris Rohrmann, Oussama Ferhi, Marvin Sandner, Marcus Prochaska:
A Methodology for Interference Insensitive Angular Measurement. IEEE SENSORS 2019: 1-4 - [c14]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Application of magnetic field sensors for hand gesture recognition with neural networks. LifeTech 2019: 200-203 - [c13]Marcus Prochaska, Kris Rohrmann, Marvin Sandner, Phil Meier:
Magnetic Angular Position Sensing with high Stray Field Immunity for Mechatronic Applications. MWSCAS 2019: 1001-1004 - [c12]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
A numerical methodology for a 6 DOF pose estimation with 3D magnetic field sensors. MWSCAS 2019: 1005-1008 - [c11]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Analysis of output signals of angular position sensors for the use of neural networks. SAS 2019: 1-6 - 2018
- [c10]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
A method to calculate displacements as End of Line Calibration for AMR-based angular sensors. I2MTC 2018: 1-6 - [c9]Kris Rohrmann, Marvin Sandner, Phil Meier, Marcus Prochaska:
A novel magnetoresistive wheel speed sensor with low temperature drift and high stray field immunity. I2MTC 2018: 1-6 - [c8]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Feature Extraction with Hough Seeded Region Growing as Data Compression for Distributed Computing. IEEE SENSORS 2018: 1-4 - [c7]Kris Rohrmann, Phil Meier, Marvin Sandner, Marcus Prochaska:
A Novel Methodology for Stray Field Insensitive xMR Angular Position Sensors. IEEE SENSORS 2018: 1-4 - [c6]Kris Rohrmann, Marvin Sandner, Phil Meier, Marcus Prochaska:
A novel readout technique for magnetoresistive sensors in automotive anti-lock braking systems. ISCAS 2018: 1-5 - [c5]Marcus Prochaska, Kris Rohrmann, Marvin Sandner, Phil Meier, Frank Freund:
A readout concept for AC-driven xMR sensors in automotive wheel speed applications. LASCAS 2018: 1-4 - [c4]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
On the practicability of Images Processing Methods for xMR Arrays. MWSCAS 2018: 783-786 - [c3]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
A Novel Methodology for Magnetic Hand Motion Tracking in Human-Machine Interfaces. SMC 2018: 372-378 - 2017
- [c2]Phil Meier, Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
Concept for detecting angles and displacements from a MR-sensor-array using an ICP algorithm. IEEE SENSORS 2017: 1-3 - 2016
- [c1]Kris Rohrmann, Marvin Sandner, Marcus Prochaska:
A novel approach for weak magnetic field measurement with magnetoresistive sensors. IEEE SENSORS 2016: 1-3
Coauthor Index
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