Your search keyword '"Fröhlich, Lukas P."' showing total 9 results

1. Uptake of barium, molybdenum, and lithium and incorporation into scallop shells: Refining proxies for primary production dynamics

Author

Fröhlich, Lukas, Siebert, Valentin, Huang, Qian, Thébault, Julien, Moriceau, Brivaëla, Jochum, Klaus Peter, and Schöne, Bernd R.

Abstract

Ba/Cashell, Mo/Cashell, and Li/Cashellchronologies of Pecten maximuscan provide information on past phytoplankton dynamics. Distinct Ba, Mo, and Li peaks in the shells are associated with algal blooms. This study evaluated the underlying hypothesis that respective element profiles reliably record variations in phytoplankton dynamics occurring within the water column. Therefore, the chemical content of scallops from the Bay of Brest, France, that lived on the sediment surface was compared to conspecific specimens living in a cage above the seafloor and compared with the phytoplankton abundance and the physicochemical properties of the water column. As demonstrated, Ba/Cashelland Mo/Cashellpeaks occurred contemporaneously in specimens within the cage and on the sediment, but were higher in the latter. Furthermore, element/Ca peaks agreed with the timing of particulate Ba and Mo enrichments in the seawater. These data support the assumption of a dietary uptake of both elements. Differences in peak heights between shells living in a cage and on the seafloor were controlled by rates of filtration and biomineralization. While the timing and magnitude of Ba/Cashellpeaks were linked to Ba‐containing diatoms, Mo/Cashellpeaks were related to blooms of Mo‐enriched dinoflagellate and diatom aggregation events. Two episodes of slight Li enrichment occurred synchronously in cage and sediment shells. Although the exact mechanism causing such Li increases remains unresolved, the findings suggest a link to large diatom blooms or the presence of a specific diatom taxon. This study refines previously hypothesized relationships between trace element enrichments in scallop shells and phytoplankton dynamics.

Published

2023

2. On-Policy Model Errors in Reinforcement Learning

Author

Fröhlich, Lukas P., Lefarov, Maksym, Zeilinger, Melanie N., and Berkenkamp, Felix

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Science - Robotics, FOS: Electrical engineering, electronic engineering, information engineering, Systems and Control (eess.SY), Electrical Engineering and Systems Science - Systems and Control, Robotics (cs.RO), Machine Learning (cs.LG)

Abstract

Model-free reinforcement learning algorithms can compute policy gradients given sampled environment transitions, but require large amounts of data. In contrast, model-based methods can use the learned model to generate new data, but model errors and bias can render learning unstable or suboptimal. In this paper, we present a novel method that combines real-world data and a learned model in order to get the best of both worlds. The core idea is to exploit the real-world data for on-policy predictions and use the learned model only to generalize to different actions. Specifically, we use the data as time-dependent on-policy correction terms on top of a learned model, to retain the ability to generate data without accumulating errors over long prediction horizons. We motivate this method theoretically and show that it counteracts an error term for model-based policy improvement. Experiments on MuJoCo- and PyBullet-benchmarks show that our method can drastically improve existing model-based approaches without introducing additional tuning parameters., Comment: Published at The Tenth International Conference on Learning Representations (ICLR 2022)

Published

2021

3. Model Learning and Contextual Controller Tuning for Autonomous Racing

Author

Fröhlich, Lukas P., Küttel, Christian, Arcari, Elena, Hewing, Lukas, Zeilinger, Melanie N., Carron, Andrea, Fröhlich, Lukas P., Küttel, Christian, Arcari, Elena, Hewing, Lukas, Zeilinger, Melanie N., and Carron, Andrea

Abstract

Model predictive control has been widely used in the field of autonomous racing and many data-driven approaches have been proposed to improve the closed-loop performance and to minimize lap time. However, it is often overlooked that a change in the environmental conditions, e.g., when it starts raining, it is not only required to adapt the predictive model but also the controller parameters need to be adjusted. In this paper, we address this challenge with the goal of requiring only few data. The key novelty of the proposed approach is that we leverage the learned dynamics model to encode the environmental condition as context. This insight allows us to employ contextual Bayesian optimization, thus accelerating the controller tuning problem when the environment changes and to transfer knowledge across different cars. The proposed framework is validated on an experimental platform with 1:28 scale RC race cars. We perform an extensive evaluation with more than 2'000 driven laps demonstrating that our approach successfully optimizes the lap time across different contexts faster compared to standard Bayesian optimization.

Published

2021

4. Noisy-Input Entropy Search for Efficient Robust Bayesian Optimization

Author

Fröhlich, Lukas P., Klenske, Edgar D., Vinogradska, Julia, Daniel, Christian, Zeilinger, Melanie N., Fröhlich, Lukas P., Klenske, Edgar D., Vinogradska, Julia, Daniel, Christian, and Zeilinger, Melanie N.

Abstract

We consider the problem of robust optimization within the well-established Bayesian optimization (BO) framework. While BO is intrinsically robust to noisy evaluations of the objective function, standard approaches do not consider the case of uncertainty about the input parameters. In this paper, we propose Noisy-Input Entropy Search (NES), a novel information-theoretic acquisition function that is designed to find robust optima for problems with both input and measurement noise. NES is based on the key insight that the robust objective in many cases can be modeled as a Gaussian process, however, it cannot be observed directly. We evaluate NES on several benchmark problems from the optimization literature and from engineering. The results show that NES reliably finds robust optima, outperforming existing methods from the literature on all benchmarks.

Published

2020

5. Bayesian Optimization for Policy Search in High-Dimensional Systems via Automatic Domain Selection

Author

Fröhlich, Lukas P., Klenske, Edgar D., Daniel, Christian G., Zeilinger, Melanie N., Fröhlich, Lukas P., Klenske, Edgar D., Daniel, Christian G., and Zeilinger, Melanie N.

Abstract

Bayesian Optimization (BO) is an effective method for optimizing expensive-to-evaluate black-box functions with a wide range of applications for example in robotics, system design and parameter optimization. However, scaling BO to problems with large input dimensions (>10) remains an open challenge. In this paper, we propose to leverage results from optimal control to scale BO to higher dimensional control tasks and to reduce the need for manually selecting the optimization domain. The contributions of this paper are twofold: 1) We show how we can make use of a learned dynamics model in combination with a model-based controller to simplify the BO problem by focusing onto the most relevant regions of the optimization domain. 2) Based on (1) we present a method to find an embedding in parameter space that reduces the effective dimensionality of the optimization problem. To evaluate the effectiveness of the proposed approach, we present an experimental evaluation on real hardware, as well as simulated tasks including a 48-dimensional policy for a quadcopter.

Published

2020

6. Cautious Bayesian Optimization for Efficient and Scalable Policy Search

Author

Fröhlich, Lukas P., Zeilinger, Melanie N., Klenske, Edgar D., Fröhlich, Lukas P., Zeilinger, Melanie N., and Klenske, Edgar D.

Abstract

Sample efficiency is one of the key factors when applying policy search to real-world problems. In recent years, Bayesian Optimization (BO) has become prominent in the field of robotics due to its sample efficiency and little prior knowledge needed. However, one drawback of BO is its poor performance on high-dimensional search spaces as it focuses on global search. In the policy search setting, local optimization is typically sufficient as initial policies are often available, e.g., via meta-learning, kinesthetic demonstrations or sim-to-real approaches. In this paper, we propose to constrain the policy search space to a sublevel-set of the Bayesian surrogate model's predictive uncertainty. This simple yet effective way of constraining the policy update enables BO to scale to high-dimensional spaces (>100) as well as reduces the risk of damaging the system. We demonstrate the effectiveness of our approach on a wide range of problems, including a motor skills task, adapting deep RL agents to new reward signals and a sim-to-real task for an inverted pendulum system.

Published

2020

7. Meta-Learning Acquisition Functions for Transfer Learning in Bayesian Optimization

Author

Volpp, Michael, Fröhlich, Lukas P., Fischer, Kirsten, Doerr, Andreas, Falkner, Stefan, Hutter, Frank, and Daniel, Christian

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Artificial Intelligence (cs.AI), Statistics - Machine Learning, Computer Science - Artificial Intelligence, Machine Learning (stat.ML), Machine Learning (cs.LG)

Abstract

Transferring knowledge across tasks to improve data-efficiency is one of the open key challenges in the field of global black-box optimization. Readily available algorithms are typically designed to be universal optimizers and, therefore, often suboptimal for specific tasks. We propose a novel transfer learning method to obtain customized optimizers within the well-established framework of Bayesian optimization, allowing our algorithm to utilize the proven generalization capabilities of Gaussian processes. Using reinforcement learning to meta-train an acquisition function (AF) on a set of related tasks, the proposed method learns to extract implicit structural information and to exploit it for improved data-efficiency. We present experiments on a simulation-to-real transfer task as well as on several synthetic functions and on two hyperparameter search problems. The results show that our algorithm (1) automatically identifies structural properties of objective functions from available source tasks or simulations, (2) performs favourably in settings with both scarse and abundant source data, and (3) falls back to the performance level of general AFs if no particular structure is present.

Published

2019

8. On Simulation and Trajectory Prediction with Gaussian Process Dynamics

Author

Hewing, Lukas, Arcari, Elena, Fröhlich, Lukas P., Zeilinger, Melanie N., Hewing, Lukas, Arcari, Elena, Fröhlich, Lukas P., and Zeilinger, Melanie N.

Abstract

Established techniques for simulation and prediction with Gaussian process (GP) dynamics often implicitly make use of an independence assumption on successive function evaluations of the dynamics model. This can result in significant error and underestimation of the prediction uncertainty, potentially leading to failures in safety-critical applications. This paper discusses methods that explicitly take the correlation of successive function evaluations into account. We first describe two sampling-based techniques; one approach provides samples of the true trajectory distribution, suitable for `ground truth' simulations, while the other draws function samples from basis function approximations of the GP. Second, we propose a linearization-based technique that directly provides approximations of the trajectory distribution, taking correlations explicitly into account. We demonstrate the procedures in simple numerical examples, contrasting the results with established methods.

Published

2019

9. Scallop shells as geochemical archives of phytoplankton‐related ecological processes in a temperate coastal ecosystem

Author

Thébault, Julien, Jolivet, Aurélie, Waeles, Matthieu, Tabouret, Hélène, Sabarot, Sophie, Pécheyran, Christophe, Leynaert, Aude, Jochum, Klaus Peter, Schöne, Bernd R., Fröhlich, Lukas, Siebert, Valentin, Amice, Erwan, and Chauvaud, Laurent

Abstract

Phytoplankton dynamics in coastal ecosystems is increasingly altered by land‐based human activities. Yet, this global vision conceals major disparities, among sites and through time. As conventional monitoring time series are quite sparse and relatively short, biological records of environmental variability appear as relevant tools to gain insights into phytoplankton dynamics over larger temporal and spatial scales. Here, we present results of an interdisciplinary project dealing with chemical information archived in shells of Pecten maximus(Bivalvia; Pectinidae), known to form daily growth striae on its shell surface. Several individuals were collected in the Bay of Brest (France) in 2011 and 2012, and analyzed for the molybdenum and lithium concentrations in their soft tissues and the element‐to‐calcium ratios (Mo : Ca and Li : Ca) in their calcitic striae. All shells revealed high synchrony and reproducibility in their Mo : Ca and Li : Ca profiles, characterized with a major peak at the end of May and in mid‐June 2011, respectively. Detailed analysis of physical, chemical, and biological variables measured in seawater during an extensive 9‐month environmental survey enabled a meticulous description of phytoplankton dynamics in 2011 and its impact on shell geochemistry. Main findings strongly suggest that (1) the timing of Mo : Ca peaks reflects the occurrence of silicon limitation and diatom aggregation periods, (2) the height of these peaks relates to the amplitude of the first spring diatom bloom, and (3) Li : Ca serves as a proxy for the temporal dynamics of diatom biovolume and of biogenic silica recycling at the sediment–water interface.

Published

2022