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Peter Glösekötter
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2020 – today
- 2024
- [j13]Jens Pogorzelski, Ludwig Horsthemke, Jonas Homrighausen, Dennis Stiegekötter, Markus Gregor, Peter Glösekötter:
Compact and Fully Integrated LED Quantum Sensor Based on NV Centers in Diamond. Sensors 24(3): 743 (2024) - [j12]Ludwig Horsthemke, Jens Pogorzelski, Dennis Stiegekötter, Frederik Hoffmann, Lutz Langguth, Robert Staacke, Christian Laube, Wolfgang Knolle, Markus Gregor, Peter Glösekötter:
Excited-State Lifetime of NV Centers for All-Optical Magnetic Field Sensing. Sensors 24(7): 2093 (2024) - [j11]Dennis Stiegekötter, Jens Pogorzelski, Ludwig Horsthemke, Frederik Hoffmann, Markus Gregor, Peter Glösekötter:
Microcontroller-Optimized Measurement Electronics for Coherent Control Applications of NV Centers. Sensors 24(10): 3138 (2024) - [c23]Olga Valenzuela, Ignacio Rojas-Valenzuela, Peter Glösekötter, Fernando Rojas:
Electrocardiogram and Phonocardiogram Signal Data Fusion Using Deep Learning System. IWBBIO (1) 2024: 290-302 - 2023
- [j10]Jonas Homrighausen, Ludwig Horsthemke, Jens Pogorzelski, Sarah Trinschek, Peter Glösekötter, Markus Gregor:
Edge-Machine-Learning-Assisted Robust Magnetometer Based on Randomly Oriented NV-Ensembles in Diamond. Sensors 23(3): 1119 (2023) - [c22]Andre Loechte, Jan-Ole Thranow, Felix Winters, Andreas Heller, Peter Glösekötter:
Comparison of ANN and SVR for State of Charge Regression Evaluating EIS Spectra. IWANN (2) 2023: 269-279 - [c21]Ignacio Rojas-Valenzuela, Fernando Rojas, Juan Carlos de la Cruz, Peter Glösekötter, Olga Valenzuela:
Deep Learning Systems for the Classification of Cardiac Pathologies Using ECG Signals. IWBBIO (2) 2023: 398-412 - 2021
- [c20]Tim Rörup, Ignacio Rojas, Héctor Pomares, Peter Glösekötter:
Deep Learning Based Neural Network for Six-Class-Classification of Alzheimer's Disease Stages Based on MRI Images. IWANN (1) 2021: 15-23 - [c19]Mauricio Andrés Gómez Zuluaga, Ahmad Ordikhani, Christoph Bauer, Peter Glösekötter:
Development and Implementation of a Neural Network-Based Abnormal State Prediction System for a Piston Pump. IWANN (1) 2021: 291-302 - 2020
- [j9]Olga Valenzuela, Fernando Rojas, Ignacio Rojas, Peter Glösekötter:
Main findings and advances in bioinformatics and biomedical engineering- IWBBIO 2018. BMC Bioinform. 21-S(7): 153 (2020) - [j8]Robin Weiss, Peter Glösekötter, Edson Prestes, Mariana Luderitz Kolberg:
Hybridisation of Sequential Monte Carlo Simulation with Non-linear Bounded-error State Estimation Applied to Global Localisation of Mobile Robots. J. Intell. Robotic Syst. 99(2): 335-357 (2020) - [j7]Andre Loechte, Ole Gebert, Daniel Heming, Klaus T. Kallis, Peter Glösekötter:
State estimation of zinc air batteries using neural networks. Neural Comput. Appl. 32(2): 369-377 (2020) - [c18]Ludwig Horsthemke, Christian Bischoff, Peter Glösekötter, Bernd Burchard, Robert Staacke, Jan Meijer:
All optical readout scheme for photoluminescence based magnetic field sensors. IEEE SENSORS 2020: 1-3
2010 – 2019
- 2019
- [c17]Andreas Heller, Ludwig Horsthemke, Peter Glösekötter:
Design, Implementation, and Evaluation of a Real Time Localization System for the Optimization of Agitation Processes. IESS 2019: 39-50 - 2017
- [j6]Francisco J. Estévez, José María Castillo Secilla, Jesús González, Joaquín Olivares, Peter Glösekötter:
mDARAL: A Multi-Radio Version for the DARAL Routing Algorithm. Sensors 17(2): 324 (2017) - [j5]Francisco J. Estévez, Jesús González, Peter Glösekötter, Olga Valenzuela, Ignacio Rojas:
Statistical Analysis of the Main Configuration Parameters of the Network Dynamic and Adaptive Radio Protocol (DARP). Sensors 17(7): 1502 (2017) - [c16]Andre Loechte, Daniel Heming, Klaus T. Kallis, Peter Glösekötter:
State of Health Estimation of Zinc Air Batteries Using Neural Networks. IWANN (1) 2017: 641-647 - 2016
- [j4]Francisco J. Estévez, Peter Glösekötter, Jesús González:
DARAL: A Dynamic and Adaptive Routing Algorithm for Wireless Sensor Networks. Sensors 16(7): 960 (2016) - [c15]P. Garcia-Moreno, M. E. Perez, Francisco J. Estévez, Peter Glösekötter:
Study of Wearable and 3D-Printable Vibration-Based Energy Harvesters. IUCC-CSS 2016: 101-108 - [c14]Francisco J. Estévez, Jesús González, Peter Glösekötter, Ignacio Rojas:
Fine-Tuning the DARP Wireless Sensor Routing Protocol. UCAmI (2) 2016: 193-204 - [c13]Andre Loechte, Ludwig Horsthemke, Thomas Brinkmann, Michael Leuker, Andreas Heller, Peter Glösekötter:
Are Supercaps Ready for Ubiquitous Computing? UCAmI (2) 2016: 356-361 - 2015
- [c12]Gregor Rebel, Francisco J. Estévez, Peter Glösekötter:
Energy Efficiency Study of Representative Microcontrollers for Wearable Electronics. IWBBIO (2) 2015: 65-76 - [p1]Gregor Rebel, Francisco J. Estévez, Peter Glösekötter, José María Castillo Secilla:
Energy Harvesting on Human Bodies. Smart Health 2015: 125-159 - 2014
- [c11]Gregor Rebel, Francisco J. Estévez, Ioanna Tsekoura, Ingo Schulz, Peter Glösekötter:
Interrupt aware queue implementation for energy efficient multitasking systems based on Cortex-M3 architecture. ReCoSoC 2014: 1-7 - [c10]Ioanna Tsekoura, Gregor Rebel, Peter Glösekötter, Mladen Berekovic:
An evaluation of energy efficient microcontrollers. ReCoSoC 2014: 1-5 - 2011
- [j3]Concepción Torres, Peter Glösekötter:
Reliable and energy optimized WSN design for a train application. J. Syst. Archit. 57(10): 896-904 (2011)
2000 – 2009
- 2009
- [c9]Ginés Rubio, Alberto Guillén, Héctor Pomares, Ignacio Rojas, Ben Paechter, Peter Glösekötter, C. I. Torres-Ceballos:
Parallelization of the nearest-neighbour search and the cross-validation error evaluation for the kernel weighted k-nn algorithm applied to large data dets in matlab. HPCS 2009: 145-152 - 2008
- [c8]Peter Glösekötter, Ulrich Greveler, Gilson I. Wirth:
Device degradation and resilient computing. ISCAS 2008: 828-831 - 2003
- [j2]Peter Glösekötter, Christian Pacha, Karl F. Goser, Werner Prost, Samuel O. Kim, Holger van Husen, Thorsten Reimann, Franz-Josef Tegude:
Circuit and application aspects of tunnelling devices in a MOBILE configuration. Int. J. Circuit Theory Appl. 31(1): 83-103 (2003) - 2002
- [c7]Werner Prost, Samuel O. Kim, Peter Glösekötter, Christian Pacha, Holger van Husen, Thorsten Reimann, Karl F. Goser, Franz-Josef Tegude:
Experimental threshold logic implementations based on resonant tunnelling diodes. ICECS 2002: 669-672 - [c6]Peter Glösekötter, Christian Pacha, Karl F. Goser, Werner Prost, Samuel O. Kim, Holger van Husen, Thorsten Reimann, Franz-Josef Tegude:
Asynchronous Circuit Design Based on the RTBT Monostable-Bistable Logic Transition Element (MOBILE). SBCCI 2002: 365-372 - 2001
- [c5]Ignacio Rojas, Héctor Pomares, Jesús González, Peter Glösekötter, J. Diestuhl, Karl Goser:
A New Sequential Learning Algorithm Using Pseudo-gaussian Functions for Neuro-fuzzy Systems. FUZZ-IEEE 2001: 1243-1246 - [c4]Ignacio Rojas Ruiz, Héctor Pomares, Jesús González, Peter Glösekötter, J. Diestuhl, Karl Goser:
Multideme Evolution algorithm Based Approach to the Generation of Fuzzy Systems. FUZZ-IEEE 2001: 1412-1415 - 2000
- [j1]Christian Pacha, Uwe Auer, Christian Burwick, Peter Glösekötter, Andreas Brennemann, Werner Prost, Franz-Josef Tegude, Karl F. Goser:
Threshold logic circuit design of parallel adders using resonant tunneling devices. IEEE Trans. Very Large Scale Integr. Syst. 8(5): 558-572 (2000) - [c3]Peter Glösekötter, Christian Pacha, Karl F. Goser, Gilson I. Wirth, Werner Prost, Uwe Auer, M. Agethen, P. Velling, Franz-Josef Tegude:
Digital Circuit Design Based on the Resonant-Tunneling-Hetero-Junction-Bipolar-Transistor. SBCCI 2000: 150-158
1990 – 1999
- 1999
- [c2]Christian Pacha, Peter Glösekötter, Karl Goser, Uwe Auer, Werner Prost, Franz-Josef Tegude:
Resonant Tunneling Transistors for Threshold Logic Circuit Applications. Great Lakes Symposium on VLSI 1999: 344-345 - 1998
- [c1]Peter Glösekötter, Andreas Kanstein, Stefan Jung, Karl Goser:
Implementation of a RBF Network Based on Possibilistic Reasoning. EUROMICRO 1998: 20677-20682
Coauthor Index
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