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1. Machine learning flow control with few sensor feedback and measurement noise

Author

Castellanos, R., Maceda, G. Y. Cornejo, de la Fuente, I., Noack, B. R., Ianiro, A., and Discetti, S.

Subjects
Physics - Fluid Dynamics
Abstract

A comparative assessment of machine learning (ML) methods for active flow control is performed. The chosen benchmark problem is the drag reduction of a two-dimensional K\'arm\'an vortex street past a circular cylinder at a low Reynolds number ($Re=100$). The flow is manipulated with two blowing/suction actuators on the upper and lower side of a cylinder. The feedback employs several velocity sensors. Two probe configurations are evaluated: 5 and 11 velocity probes located at different points around the cylinder and in the wake. The control laws are optimized with Deep Reinforcement Learning (DRL) and Linear Genetic Programming Control (LGPC). By interacting with the unsteady wake, both methods successfully stabilize the vortex alley and effectively reduce drag while using small mass flow rates for the actuation. DRL has shown higher robustness with respect to variable initial conditions and to noise contamination of the sensor data; on the other hand, LGPC is able to identify compact and interpretable control laws, which only use a subset of sensors, thus allowing reducing the system complexity with reasonably good results. Our study points at directions of future machine learning control combining desirable features of different approaches.

Published
2022
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5. Recursive dynamic mode decomposition of a transient cylinder wake

Author

Noack, B. R., Stankiewicz, W., Morzynski, M., and Schmid, P. J.

Subjects
Physics - Fluid Dynamics
Abstract

A novel data-driven modal decomposition of fluid flow is proposed comprising key features of POD and DMD. The first mode is the normalized real or imaginary part of the DMD mode which minimizes the time-averaged residual. The N-th mode is defined recursively in an analogous manner based on the residual of an expansion using the first N-1 modes. The resulting recursive DMD (RDMD) modes are orthogonal by construction, retain pure frequency content and aim at low residual. RDMD is applied to transient cylinder wake data and is benchmarked against POD and optimized DMD (Chen et al. 2012) for the same snapshot sequence. Unlike POD modes, RDMD structures are shown to have pure frequency content while retaining a residual of comparable order as POD. In contrast to DMD with exponentially growing or decaying oscillatory amplitudes, RDMD clearly identifies initial, maximum and final fluctuation levels. Intriguingly, RDMD outperforms both POD and DMD in the limit cycle resolution from the same snaphots. RDMD is proposed as an attractive alternative to POD and DMD for empirical Galerkin models, with nonlinear transient dynamics as a niche application., Comment: 18 pages, 10 figures, 1 table

Published
2015

19. Turbulent Flow Modeling via Galerkin Method and Finite Time Thermodynamics

Author

Morzyński, M., Noack, B. R., Schlegel, M., Tadmor, G., Hirschel, Ernst Heinrich, editor, Schröder, Wolfgang, editor, Fujii, Kozo, editor, Haase, Werner, editor, van Leer, Bram, editor, Leschziner, Michael A., editor, Pandolfi, Maurizio, editor, Periaux, Jacques, editor, Rizzi, Arthur, editor, Roux, Bernard, editor, Shokin, Yurii I., editor, Peng, Shia-Hui, editor, and Doerffer, Piotr, editor

Published
2010
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29. Real-time multitarget tracking for sensor-based sorting: A new implementation of the auction algorithm for graphics processing units

Author

Maier, Georg, Pfaff, F., Wagner, M., Pieper, C., Gruna, Robin, Noack, B., Kruggel-Emden, H., Längle, Thomas, Hanebeck, U.D., Scherer, V., Beyerer, Jürgen, and Publica

Subjects
sensor-based sorting, parallel algorithm, graphics processing unit, linear assignment problem
Abstract

Utilizing parallel algorithms is an established way of increasing performance in systems that are bound to real-time restrictions. Sensor-based sorting is a machine vision application for which firm real-time requirements need to be respected in order to reliably remove potentially harmful entities from a material feed. Recently, employing a predictive tracking approach using multitarget tracking in order to decrease the error in the physical separation in optical sorting has been proposed. For implementations that use hard associations between measurements and tracks, a linear assignment problem has to be solved for each frame recorded by a camera. The auction algorithm can be utilized for this purpose, which also has the advantage of being well suited for parallel architectures. In this paper, an improved implementation of this algorithm for a graphics processing unit (GPU) is presented. The resulting algorithm is implemented in both an OpenCL and a CUDA based environment. By using an optimized data structure, the presented algorithm outperforms recently proposed implementations in terms of speed while retaining the quality of output of the algorithm. Furthermore, memory requirements are significantly decreased, which is important for embedded systems. Experimental results are provided for two different GPUs and six datasets. It is shown that the proposed approach is of particular interest for applications dealing with comparatively large problem sizes.

Published
2019

35. Corrigendum: A genome-wide association study identifies nucleotide variants at SIGLEC5 and DEFA1A3 as risk loci for periodontitis [Human Molecular Genetics., 26, 13, (2017) (2577-2588)]

Author

Munz, M. (Matthias), Willenborg, C. (Christina), Richter, G.M. (Gesa M.), Jockel-Schneider, Y. (Yvonne), Graetz, C. (Christian), Staufenbiel, I. (Ingmar), Wellmann, J. (Jürgen), Berger, K. (Klaus), Krone, B. (Bastian), Hoffmann, P. (Per), Velde, N. (Nathalie) van der, Uitterlinden, A.G. (André), de Groot, L.C.P.G.M. (Lisette C.P.G.M.), Sawalha, A.H. (Amr H.), Direskeneli, H. (Haner), Saruhan-Direskeneli, G. (Güher), Guzeldemir-Akcakanat, E. (Esra), Keceli, H.G. (Huseyin Gencay), Laudes, M. (Matthias), Noack, B. (Barbara), Teumer, A. (Alexander), Holtfreter, B. (Birte), Kocher, T. (Thomas), Eickholz, P. (Peter), Meyle, J. (Jörg), Doerfer, C. (Christof), Bruckmann, C. (Corinna), Lieb, W. (Wolfgang), Franke, A. (Andre), Schreiber, S. (Stefan), Nohutcu, R.M. (Rahime M.), Erdmann, J. (Jeanette), Loos, B.G. (Bruno G.), Jepsen, S. (Soeren), Dommisch, H. (Henrik), Schaefer, A. (Antje), Munz, M. (Matthias), Willenborg, C. (Christina), Richter, G.M. (Gesa M.), Jockel-Schneider, Y. (Yvonne), Graetz, C. (Christian), Staufenbiel, I. (Ingmar), Wellmann, J. (Jürgen), Berger, K. (Klaus), Krone, B. (Bastian), Hoffmann, P. (Per), Velde, N. (Nathalie) van der, Uitterlinden, A.G. (André), de Groot, L.C.P.G.M. (Lisette C.P.G.M.), Sawalha, A.H. (Amr H.), Direskeneli, H. (Haner), Saruhan-Direskeneli, G. (Güher), Guzeldemir-Akcakanat, E. (Esra), Keceli, H.G. (Huseyin Gencay), Laudes, M. (Matthias), Noack, B. (Barbara), Teumer, A. (Alexander), Holtfreter, B. (Birte), Kocher, T. (Thomas), Eickholz, P. (Peter), Meyle, J. (Jörg), Doerfer, C. (Christof), Bruckmann, C. (Corinna), Lieb, W. (Wolfgang), Franke, A. (Andre), Schreiber, S. (Stefan), Nohutcu, R.M. (Rahime M.), Erdmann, J. (Jeanette), Loos, B.G. (Bruno G.), Jepsen, S. (Soeren), Dommisch, H. (Henrik), and Schaefer, A. (Antje)

Abstract

The authors wish to apologize for the following two errors in the original article: (i) the first name of a co-author, Huseyin Gencay Keceli, was omitted; (ii) the statement 'This research was financially supported by the Turkish Scientific and Research Council (TUBITAK) (Grant no: 114S543)' was omitted. These have both now been corrected online.

Published
2018
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36. Numerical modelling of the separation of complex shaped particles in an optical belt sorter using a DEM-CFD approach and comparison with experiments

Author

Pieper, C., Maier, G., Florian Pfaff, Kruggel-Emden, H., Gruna, R., Noack, B., Wirtz, S., Scherer, V., Langle, T., Hanebeck, U. D., and Beyerer, J.

Subjects
Finite element method, Optical sorting, DEM, CFD, Complex shaped particles, Computational methods in mechanics, Particle methods (Numerical analysis), Elements finits, Mètode dels
Abstract

In the growing field of bulk solids handling, automated optical sorting systems are of increasing importance. However, the initial sorter calibration is still very time consuming and the precise optical sorting of many materials still remains challenging. In order to investigate the impact of different operating parameters on the sorting quality, a numerical model of an existing modular optical belt sorter is presented in this study. The sorter and particle interaction is described with the Discrete Element Method (DEM) while the air nozzles required for deflecting undesired material fractions are modelled with Computation Fluid Dynamics (CFD). The correct representation of the resulting particle–fluid interaction is realized through a one–way coupling of the DEM with CFD. Complex shaped particle clusters are employed to model peppercorns also used in experimental investigations. To test the correct implementation of the utilized models, the particle mass flow within the sorter is compared between experiment and simulation. The particle separation results of the developed numerical model of the optical sorting system are compared with matching experimental investigations. The findings show that the numerical model is able to predict the sorting quality of the optical sorting system with reasonable accuracy.

Published
2017

38. In vitro evaluation of two whitening regimens using color-analyzing methods.

Author

Al Machot E, Noack B, and Hoffmann T

Abstract

Objectives: To determine in vitro the effect of prophylaxis before tooth whitening and to evaluate a paint-on home whitening product using two methods of color analysis. Method and Materials: Ninety extracted human maxillary anterior teeth were randomly separated into a prophylaxis group or nonprophylaxis group of 45 teeth. The prophylaxis group received debridement and polishing before whitening. The two groups were randomly separated into three subgroups of 15 teeth each: placebo group, test group (Easy White, Dental Kosmetik), and positive control group (Colgate Simply White, Colgate-Palmolive). The 2-week whitening treatment consisted of applying one of the three gels twice daily according to the manufacturers' instructions. In vitro measurements included tooth color assessment using digital imaging analysis and evaluation of tooth shade by a colorimeter. Measurements were taken at baseline, after prophylaxis, and after whitening. Results: While whitening was effective with or without prophylaxis, prior prophylaxis contributed to improved posttreatment outcomes. Both test gel and positive control gel resulted in greater shade reductions and tooth color improvements compared to placebo gel (P < .05). The positive control gel was not superior to test gel. Conclusions: Prophylaxis is highly recommended before use of paint-on home whitening gels. Colorimetric measurements and digital imaging analysis with a gray card are options to record the efficacy of whitening products. Digital imaging analysis has advantages: Numeric data can be evaluated, and an image of the outcome of the whitening procedure is available. [ABSTRACT FROM AUTHOR]

Published
2010

39. Inverse covariance intersection: New insights and properties

Author

Noack, B., Sijs, J., Hanebeck, U.D., Noack, B., Sijs, J., and Hanebeck, U.D.

Abstract

Decentralized data fusion is a challenging task. Either it is too difficult to maintain and track the information required to perform fusion optimally, or too much information is discarded to obtain informative fusion results. A well-known solution is Covariance Intersection, which may provide too conservative fusion results. A less conservative alternative is discussed in this paper, and generalizations are proposed in order to apply it to a wide class of fusion problems. The Inverse Covariance Intersection algorithm is about finding the maximum possible common information shared by the estimates to be fused. A bound on the possibly shared common information is derived and removed from the fusion result in order to guarantee consistency. It is shown that the conditions required for consistency can be significantly relaxed, and also other causes of correlations, such as common process noise, can be treated. © 2017 International Society of Information Fusion (ISIF). China Gezhouba Group No.3 Engineering Co., Ltd (CGGC); Energy China; et al.; Hangzhou Dianzi Univeristy; LIFT; SATPRO

Published
2017

40. A study on event triggering criteria for estimation

Author

Sijs, J., Kester, L.J.H.M., and Noack, B.

Subjects
TS - Technical Sciences, Informatics, Sampling strategies, Luenberger observers, Infrastructures, Information Society, Performance measure, Step disturbances, Data transfer, Estimation errors, Estimation algorithm, Physics & Electronics, DSS - Distributed Sensor Systems, Networked systems, Communication resources, Estimation
Abstract

To reduce the amount of data transfer in networked systems measurements are usually taken only when an event occurs rather than periodically in time. However, a fundamental assessment on the response of estimation algorithms receiving event sampled measurements is not available. This research presents such an analysis when new measurements are sampled at well-designed events and sent to a Luenberger observer. Conditions are then derived under which the estimation error is bounded, followed by an assessment of two event sampling strategies when the estimator encounters two different types of disturbances: an impulse and a step disturbance. The sampling strategies are compared via four performance measures, such as estimation-error and communication resources. The result is a clear insight of the estimation response in an event-based setup.

Published
2014

45. Thrombose durch Hantaviren? - Eine Fallvorstellung

Author

Noack, B., Cremer, R., Weiß, M., Kellner, M., and Horz, R.

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Hintergrund: Hantaviren gehören zur Familie der Bunyaviridae, in Mitteleuropa ist der Typ Puumala am weitesten verbreitet. Reservoir ist die Rötelmaus, die Infektion des Menschen erfolgt durch Inhalation virushaltiger Aerosole. Hantaviren zeigen eine Affinität zu Lunge und Niere, der [for full text, please go to the a.m. URL], 21. Jahrestagung der Deutschen Gesellschaft für Pädiatrische Infektiologie (DGPI)

Published
2013

46. Linear genetic programming control for strongly nonlinear dynamics with frequency crosstalk.

Author

LI, R., NOACK, B., CORDIER, L., BORÉE, J., KAISER, E., and HARAMBAT, F.

Subjects
*SIMULATION methods & models, *ALGORITHMS, *NONLINEAR analysis, *CLOSED loop systems, *COMPUTER simulation
Abstract

We advance Genetic Programming Control (GPC) for turbulence flow control application building on the pioneering work of [1]. GPC is a recently proposed model-free control framework which explores and exploits strongly nonlinear dynamics in an unsupervised manner. The assumed plant has multiple actuators and sensors and its performance is measured by a cost function. The control problem is to find a control logic which optimizes the given cost function. The corresponding regression problem for the control law is solved by employing linear genetic programming as an easy and simple regression solver in a high-dimensional control search space. This search space comprises open-loop actuation, sensor-based feedback and combinations thereof -- thus generalizing former GPC studies [2, 3]. This new methodology is denoted as linear genetic programming control (LGPC). The focus of this study is the frequency crosstalk between unforced, unstable oscillation and the actuation at different frequencies. LGPC is first applied to the stabilization of a forced nonlinearly coupled three-oscillator model comprising open- and closed-loop frequency crosstalk mechanisms. LGPC performance is then demonstrated in a turbulence control experiment, achieving 22% drag reduction for a simplified car model. In both cases, LGPC identifies the best nonlinear control achieving the optimal performance by exploiting frequency crosstalk. Our control strategy is suited to complex control problems with multiple actuators and sensors featuring nonlinear actuation dynamics. Significant further performance enhancement is envisioned in the more general field of machine learning control [4]. [ABSTRACT FROM AUTHOR]

Published
2018
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47. Event-based State Estimation with Negative Information

Author

Sijs, J., Noack, B., and Hanebeck, U.D.

Subjects
TS - Technical Sciences, Physics & Electronics, Physics, Defence Research, DSS - Distributed Sensor Systems, Networked systems, Distributed sensors, Event sampling, Defence, Safety and Security, Event-based state estimation
Abstract

To reduce the amount of data transfer in networked systems, measurements are usually taken only when an event occurs rather than periodically in time. However, this complicates estimation problems considerably as it is not guaranteed that new sensor measurements will be sampled. In order to cope with such event sampled measurements, an existing state estimator is modified so that any divergent behavior in estimation results will be curtailed. To start, a general formulation of event sampling is proposed, which is then used to set up a state estimator combining stochastic as well as set-membership measurement information according to a hybrid update: when an event occurs the estimated state is updated using the stochastic measurement received (positive information), while at periodic time instants no new measurement is received (negative information) and the update is based on knowledge that the sensor value lies within a bounded subset of the measurement space. An illustrative example further shows that the developed estimator has an improved representation of estimation errors compared to purely stochastic estimators for various event sampling strategies.

Published
2013

48. Pushing Kalman's idea to the extremes

Author

Benavoli A. and Noack B.

Abstract

The paper focuses on the fundamental idea of Kalman's seminal paper: how to solve the filtering problem from the only knowledge of the first two moments of the noise terms. In this paper by exploiting set of distributions based filtering we solve this problem without introducing additional assumptions on the distributions of the noise terms (e.g. Gaussianity) or on the final form of the estimator (e.g. linear estimator). Given the moments (e.g. mean and variance) of random variable X it is possible to define the set of all distributions that are compatible with the moments information. This set of distributions can be equivalently characterized by its extreme distributions which is a family of mixtures of Dirac's deltas. The lower and upper expectation of any function g of X are obtained in correspondence of these extremes and can be computed by solving a linear programming problem. The filtering problem can then be solved by running iteratively this linear programming problem.

Published
2012

49. Résolution d'un problème d'assimilation variationnelle 4D-VAR par des modèles réduits POD adaptatifs

Author

Tissot, Gilles, Cordier, Laurent, Noack B., R., Association Française de Mécanique, and Service irevues, irevues

Subjects
[PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics]
Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; L'assimilation variationnelle de données consiste à combiner les informations issues de simulations numériques à celles provenant de mesures afin de reconstruire de manière optimale l'état du système. En pratique, cette approche est limitée par le coût de la résolution du problème direct/adjoint qui lui est associé. Pour cela, nous évaluerons ici sur une équation de convection/diffusion modèle, différentes stratégies de résolution basées sur des modèles réduits adaptatifs POD. En particulier, nous montrerons l'intérêt de coupler modèles réduits et méthode d'optimisation à région de confiance.

Published
2011

50. Covariance Intersection in Nonlinear Estimation Based on Pseudo Gaussian Densities

Author

Noack, B., Marcus Baum, and Hanebeck, U. D.

Subjects
DATA processing & computer science, ddc:004
Abstract

Many modern fusion architectures are designed to process and fuse data in networked systems. Alongside the advantages, such as scalability and robustness, distributed fusion techniques particularly have to tackle the problem of dependencies between locally processed data. In linear estimation problems, uncertain quantities with unknown cross-correlations can be fused by means of the covariance intersection algorithm, which avoids overconfident fusion results. However, for nonlinear system dynamics and sensor models perturbed by arbitrary noise, it is not only a problem to characterize and parameterize dependencies between estimates, but also to find a proper notion of consistency. This paper addresses these issues by transforming the state estimates to a different state space, where the corresponding densities are Gaussian and only linear dependencies between estimates, i.e., correlations, can arise. These pseudo Gaussian densities then allow the notion of covariance consistency to be used in distributed nonlinear state estimation.

Published
2011
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