Research Centre for Cognitive Computing in Life Sciences
With cognitive computing, we develop new software technology, algorithms, and systems for signal processing, data analytics and process control in life sciences.
About us
The Research Centre for Cognitive Computing in Life Sciences develops and applies computational methods and models inspired by learning and self-organisation principles of biological neural systems to problems in life sciences, such as activity recognition, bio-signal processing, environment monitoring and assistive autonomous systems.
Methods we use
Combination of model-based approaches and data-driven machine learning:
Self-organizing and complex systems
- Dynamical systems, cellular automata, physics-constrained DL
Neuromorphic computing
- Event-based vision, neural motion planning and control, autonomous learning, power-efficient AI, real-time AI
Classical and deep learning based machine learning
- NLP, Generative AI, Multi-modal modelling, explainable AI
- Reinforcement learning, Bayesian modelling, predictive analytics, signal processing
Examples of application domains
- Environmental systems and sustainability
- Remote sensing
- Spectral analysis in food industry and material science
- Protein engineering
- Process automation
- Predictive maintenance
- Bio-signal analysis and sports analytics
- Smart farming
- Collaborative and assistive robotics
Advanced Signal Analytics
This research group works on the analysis, modelling and classification of signals as as well as statistical modelling and consulting. Our experts use physical and statistical models as well as deep learning applied to problems in the life sciences such as agricultural systems, chromatography or signals from drones. The group consists of data science and statistics experts with backgrounds in theoretical and applied physics and mathematics with a long experience of research and teaching in the life sciences.
Group leader: Dr. Matthias Nyfeler | Learn more about the research group Advanced Signal Analytics
Computational Environment
The research group focuses on the modeling of natural systems and their interaction with humans. This also includes sustainability topics in a more general context such as in view of social and economical questions. Our experts approach the challenges with data science, deep learning and modeling. A special methodological focus is on deep learning methods, multimodal learning with natural language processing and on modeling with discrete systems such as cellular automata.
Group leader: Dr. Martin Schüle | Learn more about the research group Computational Environment Group
Neuromorphic Computing
The research group develops advanced neural-network based algorithms, software libraries, and systems with the new generation of computing chips – brain-inspired neuromorphic sensing and computing hardware. Our experts focus on perception, motion planning, and control for robotic actuators with applications in there fields: healthcare, agriculture, food processing, and smart environments. Our research group follows a human-centered design approach to develop new generation of physical AI systems that are power-efficient, adaptive, and safe.
Group leader: Prof. Dr. Yulia Sandamirskaya | Learn more about the research group Neuromorphic Computing
Predictive Analytics
The research group's focus is on applied research in statistical modeling and machine learning for pattern discovery, as well as data mining, pattern recognition, and forecasting in life sciences. Our experts have a proven track record in the areas of med-tech, personalized health and sports analytics. The group's expertise lies in the fusion of heterogenous information sources and ensemble methods, in particular for time series and image/video analytics. In the context of Industry 4.0, the group conducts research in the area of predictive and prescriptive maintenance.
Group leader: Dr. Krzysztof Kryszczuk | Learn more about the research group Predictive Analytics
Teaching Activites
The centre includes teaching engagements at BSc and MSc level as well as in continuing education. At BSc level, basic subjects in mathematical and physical modelling, statistics and information processing are offered in all study programmes of the department. Furthermore, teaching includes specific subjects in the field of data science with a focus on "machine learning, neural networks, signal and image analysis" in the institute's own BSc ADLS and MSc ACLS programmes and in continuing education. Thirdly, specific subjects are offered, especially in the "Digital Environment" specialisation of the ADLS.
Projects
As part of the reorganization of the research database, the previous lists of research projects are no longer available. Die Zukunft geht in Richtung Volltextsuche und Filterung, um bestmögliche Suchergebnisse für unsere Besucher:innen zur Verfügung zu stellen.
In the meantime, you can easily find the projects via text search using the following link: «To the new search in the project database»
Publications
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Danafar, Somayeh; Piorkowski, Michal; Kryszczuk, Krzysztof,
2017.
Bayesian framework for mobility pattern discovery using mobile network events [paper].
In:
2017 25th European Signal Processing Conference (EUSIPCO).
25th European Signal Processing Conference (EUSIPCO), Kos, 28 August - 2 September 2017.
IEEE.
pp. 1105-1109.
Available from: https://doi.org/10.23919/EUSIPCO.2017.8081372
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Glüge, Stefan; Böck, Ronald; Ott, Thomas,
2017.
Emotion recognition from speech using representation learning in extreme learning machines [paper].
In:
Sabourin, Christophe; Julian Merelo, Juan; O'Reilly, Una-May; Madani, Kurosh; Warwick, Kevin, eds.,
Proceedings of the 9th International Joint Conference on Computational Intelligence.
9th International Joint Conference on Computational Intelligence, Funchal, Portugal, 1-3 November 2017.
SciTePress.
pp. 179-185.
Available from: https://doi.org/10.5220/0006485401790185
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Burkhard, Marcel; Kauf, Peter,
2015.
Forschung und Praxis : optimierte Absatzprognosen für den Lebensmittelhandel : Tagungsreferat.
In:
Best Practice in der Lebensmittellogistik, Hamburg, Deutschland, 1. September 2015.
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Nef, Annina; Glüge, Stefan; Ott, Thomas; Kauf, Peter,
2014.
Causality detection in complex time dependent systems examplified in financial time series [paper].
In:
Proceedings of the 2014 International Symposium on Nonlinear Theory and its Applications (NOLTA2014).
Nonlinear Theory and Applications 2014 (NOLTA), Luzern, 14-18 September 2014.
IECE.
pp. 176-179.
Available from: http://www.ieice.org/nolta/symposium/archive/2014/nolta14fullvol.pdf
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Glüge, Stefan; Böck, Ronald; Palm, Günther; Wendemuth, Andreas,
2014.
Neurocomputing.
141, pp. 54-64.
Available from: https://doi.org/10.1016/j.neucom.2013.11.043