Your search keyword '"Hamann, Friedhelm"' showing total 12 results

1. Fourier-based Action Recognition for Wildlife Behavior Quantification with Event Cameras

Author

Hamann, Friedhelm, Ghosh, Suman, Martinez, Ignacio Juarez, Hart, Tom, Kacelnik, Alex, and Gallego, Guillermo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Emerging Technologies

Abstract

Event cameras are novel bio-inspired vision sensors that measure pixel-wise brightness changes asynchronously instead of images at a given frame rate. They offer promising advantages, namely a high dynamic range, low latency, and minimal motion blur. Modern computer vision algorithms often rely on artificial neural network approaches, which require image-like representations of the data and cannot fully exploit the characteristics of event data. We propose approaches to action recognition based on the Fourier Transform. The approaches are intended to recognize oscillating motion patterns commonly present in nature. In particular, we apply our approaches to a recent dataset of breeding penguins annotated for "ecstatic display", a behavior where the observed penguins flap their wings at a certain frequency. We find that our approaches are both simple and effective, producing slightly lower results than a deep neural network (DNN) while relying just on a tiny fraction of the parameters compared to the DNN (five orders of magnitude fewer parameters). They work well despite the uncontrolled, diverse data present in the dataset. We hope this work opens a new perspective on event-based processing and action recognition., Comment: 11 pages, 10 figures, 7 tables

Published

2024

2. MouseSIS: A Frames-and-Events Dataset for Space-Time Instance Segmentation of Mice

Author

Hamann, Friedhelm, Li, Hanxiong, Mieske, Paul, Lewejohann, Lars, and Gallego, Guillermo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Robotics

Abstract

Enabled by large annotated datasets, tracking and segmentation of objects in videos has made remarkable progress in recent years. Despite these advancements, algorithms still struggle under degraded conditions and during fast movements. Event cameras are novel sensors with high temporal resolution and high dynamic range that offer promising advantages to address these challenges. However, annotated data for developing learning-based mask-level tracking algorithms with events is not available. To this end, we introduce: ($i$) a new task termed \emph{space-time instance segmentation}, similar to video instance segmentation, whose goal is to segment instances throughout the entire duration of the sensor input (here, the input are quasi-continuous events and optionally aligned frames); and ($ii$) \emph{\dname}, a dataset for the new task, containing aligned grayscale frames and events. It includes annotated ground-truth labels (pixel-level instance segmentation masks) of a group of up to seven freely moving and interacting mice. We also provide two reference methods, which show that leveraging event data can consistently improve tracking performance, especially when used in combination with conventional cameras. The results highlight the potential of event-aided tracking in difficult scenarios. We hope our dataset opens the field of event-based video instance segmentation and enables the development of robust tracking algorithms for challenging conditions.\url{https://github.com/tub-rip/MouseSIS}, Comment: 18 pages, 5 figures, ECCV Workshops

Published

2024

3. Motion-prior Contrast Maximization for Dense Continuous-Time Motion Estimation

Author

Hamann, Friedhelm, Wang, Ziyun, Asmanis, Ioannis, Chaney, Kenneth, Gallego, Guillermo, and Daniilidis, Kostas

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Robotics

Abstract

Current optical flow and point-tracking methods rely heavily on synthetic datasets. Event cameras are novel vision sensors with advantages in challenging visual conditions, but state-of-the-art frame-based methods cannot be easily adapted to event data due to the limitations of current event simulators. We introduce a novel self-supervised loss combining the Contrast Maximization framework with a non-linear motion prior in the form of pixel-level trajectories and propose an efficient solution to solve the high-dimensional assignment problem between non-linear trajectories and events. Their effectiveness is demonstrated in two scenarios: In dense continuous-time motion estimation, our method improves the zero-shot performance of a synthetically trained model on the real-world dataset EVIMO2 by 29%. In optical flow estimation, our method elevates a simple UNet to achieve state-of-the-art performance among self-supervised methods on the DSEC optical flow benchmark. Our code is available at https://github.com/tub-rip/MotionPriorCMax., Comment: 24 pages, 8 figures, 8 tables, Project Page: https://github.com/tub-rip/MotionPriorCMax

Published

2024

4. Low-power, Continuous Remote Behavioral Localization with Event Cameras

Author

Hamann, Friedhelm, Ghosh, Suman, Martinez, Ignacio Juarez, Hart, Tom, Kacelnik, Alex, and Gallego, Guillermo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Researchers in natural science need reliable methods for quantifying animal behavior. Recently, numerous computer vision methods emerged to automate the process. However, observing wild species at remote locations remains a challenging task due to difficult lighting conditions and constraints on power supply and data storage. Event cameras offer unique advantages for battery-dependent remote monitoring due to their low power consumption and high dynamic range capabilities. We use this novel sensor to quantify a behavior in Chinstrap penguins called ecstatic display. We formulate the problem as a temporal action detection task, determining the start and end times of the behavior. For this purpose, we recorded a colony of breeding penguins in Antarctica for several weeks and labeled event data on 16 nests. The developed method consists of a generator of candidate time intervals (proposals) and a classifier of the actions within them. The experiments show that the event cameras' natural response to motion is effective for continuous behavior monitoring and detection, reaching a mean average precision (mAP) of 58% (which increases to 63% in good weather conditions). The results also demonstrate the robustness against various lighting conditions contained in the challenging dataset. The low-power capabilities of the event camera allow it to record significantly longer than with a conventional camera. This work pioneers the use of event cameras for remote wildlife observation, opening new interdisciplinary opportunities. https://tub-rip.github.io/eventpenguins/, Comment: 13 pages, 8 figures, 12 tables, Project page: https://tub-rip.github.io/eventpenguins/

Published

2023

5. Motion-Prior Contrast Maximization for Dense Continuous-Time Motion Estimation

Author

Hamann, Friedhelm, Wang, Ziyun, Asmanis, Ioannis, Chaney, Kenneth, Gallego, Guillermo, Daniilidis, Kostas, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published

2025

6. Event-based Continuous Color Video Decompression from Single Frames

Author

Wang, Ziyun, Hamann, Friedhelm, Chaney, Kenneth, Jiang, Wen, Gallego, Guillermo, and Daniilidis, Kostas

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

We present ContinuityCam, a novel approach to generate a continuous video from a single static RGB image, using an event camera. Conventional cameras struggle with high-speed motion capture due to bandwidth and dynamic range limitations. Event cameras are ideal sensors to solve this problem because they encode compressed change information at high temporal resolution. In this work, we propose a novel task called event-based continuous color video decompression, pairing single static color frames and events to reconstruct temporally continuous videos. Our approach combines continuous long-range motion modeling with a feature-plane-based synthesis neural integration model, enabling frame prediction at arbitrary times within the events. Our method does not rely on additional frames except for the initial image, increasing, thus, the robustness to sudden light changes, minimizing the prediction latency, and decreasing the bandwidth requirement. We introduce a novel single objective beamsplitter setup that acquires aligned images and events and a novel and challenging Event Extreme Decompression Dataset (E2D2) that tests the method in various lighting and motion profiles. We thoroughly evaluate our method through benchmarking reconstruction as well as various downstream tasks. Our approach significantly outperforms the event- and image- based baselines in the proposed task.

Published

2023

7. Event-based Background-Oriented Schlieren

Author

Shiba, Shintaro, Hamann, Friedhelm, Aoki, Yoshimitsu, and Gallego, Guillermo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Schlieren imaging is an optical technique to observe the flow of transparent media, such as air or water, without any particle seeding. However, conventional frame-based techniques require both high spatial and temporal resolution cameras, which impose bright illumination and expensive computation limitations. Event cameras offer potential advantages (high dynamic range, high temporal resolution, and data efficiency) to overcome such limitations due to their bio-inspired sensing principle. This paper presents a novel technique for perceiving air convection using events and frames by providing the first theoretical analysis that connects event data and schlieren. We formulate the problem as a variational optimization one combining the linearized event generation model with a physically-motivated parameterization that estimates the temporal derivative of the air density. The experiments with accurately aligned frame- and event camera data reveal that the proposed method enables event cameras to obtain on par results with existing frame-based optical flow techniques. Moreover, the proposed method works under dark conditions where frame-based schlieren fails, and also enables slow-motion analysis by leveraging the event camera's advantages. Our work pioneers and opens a new stack of event camera applications, as we publish the source code as well as the first schlieren dataset with high-quality frame and event data. https://github.com/tub-rip/event_based_bos, Comment: Accepted at IEEE T-PAMI

Published

2023

8. Stereo Co-capture System for Recording and Tracking Fish with Frame- and Event Cameras

Author

Hamann, Friedhelm and Gallego, Guillermo

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

This work introduces a co-capture system for multi-animal visual data acquisition using conventional cameras and event cameras. Event cameras offer multiple advantages over frame-based cameras, such as a high temporal resolution and temporal redundancy suppression, which enable us to efficiently capture the fast and erratic movements of fish. We furthermore present an event-based multi-animal tracking algorithm, which proves the feasibility of the approach and sets the baseline for further exploration of combining the advantages of event cameras and conventional cameras for multi-animal tracking., Comment: 4 pages, 5 figures, 1 table

Published

2022

9. Event-Based Background-Oriented Schlieren

Author

Shiba, Shintaro, Hamann, Friedhelm, Aoki, Yoshimitsu, and Gallego, Guillermo

Abstract

Schlieren imaging is an optical technique to observe the flow of transparent media, such as air or water, without any particle seeding. However, conventional frame-based techniques require both high spatial and temporal resolution cameras, which impose bright illumination and expensive computation limitations. Event cameras offer potential advantages (high dynamic range, high temporal resolution, and data efficiency) to overcome such limitations due to their bio-inspired sensing principle. This article presents a novel technique for perceiving air convection using events and frames by providing the first theoretical analysis that connects event data and schlieren. We formulate the problem as a variational optimization one combining the linearized event generation model with a physically-motivated parameterization that estimates the temporal derivative of the air density. The experiments with accurately aligned frame- and event camera data reveal that the proposed method enables event cameras to obtain on par results with existing frame-based optical flow techniques. Moreover, the proposed method works under dark conditions where frame-based schlieren fails, and also enables slow-motion analysis by leveraging the event camera's advantages. Our work pioneers and opens a new stack of event camera applications, as we publish the source code as well as the first schlieren dataset with high-quality frame and event data.

Published

2024

10. Event-based Background-Oriented Schlieren

Author

Shiba, Shintaro, primary, Hamann, Friedhelm, additional, Aoki, Yoshimitsu, additional, and Gallego, Guillermo, additional

Published

2023

11. Design of a fixed-point SVD algorithm applied to MIMO systems

Author

Hamann, Friedhelm and Benavente Peces, César

Subjects

Telecomunicaciones

Abstract

Dada la creciente demanda de sistemas de comunicación inalámbrica y los estrechos márgenes otorgados por las provisiones legales en materia de ancho de banda, el desarrollo de soluciones con una alta eficiencia espectral se ha convertido en una necesidad. Una de las técnicas cuyo uso se está extendiendo considerablemente, es el uso de sistemas MIMO. Estos sistemas son usados actualmente por, ejemplo, en estándares de comunicaciones como el wifi y el lte. En consecuencia, el uso de múltiples antenas tanto en transmisión como en recepción requiere del uso de nuevas técnicas y algoritmos para el procesamiento de señales. En este Proyecto Fin de Grado se propone un algoritmo SVD basado en rotaciones de Jacobi. El SVD puede trabajar con matrices reales o complejas de tamaño arbitrario. Está implementado utilizando álgebra de punto fijo. Los parámetros y el comportamiento de la representación en un punto pueden ser cambiados en un rango amplio. El algoritmo se ha diseñado para usarse en procesadores digitales de señales de punto fijo. Por lo tanto, la aritmética de punto fijo se ha introducido para ahorrar reducir la carga computacional y el consumo de energía con el objetivo de facilitar la implementación hardware. En el transcurso del trabajo se ha podido apreciar, cómo el uso de un limitado número de bits para la representación de los datos y resultados afectan la precisión del algoritmo SVD, que era uno de los objetivos. Las funciones trigonométricas necesaria para implementar la SVD mediante las rotaciones de Jacobi, se calculan utilizando el algoritmo de CORDIC. Para implementar este algoritmo solo se requiere hacer shift en los bits, sumas y una tabla de consulta (look-up table), por lo que resulta conveniente para implementarlo con las restricciones dadas. Adicionalmente el singular value decomposition (SVD) es aplicado sobre un sistema MIMO. Se muestra cómo puede ser utilizado para (mediante pre- y post-procesado) separar los canales del sistema MIMO en canales independientes sin interferencia entre antenas. La mejora que introducen estas técnicas están verificadas mediante simulación. En este trabajo se presentan los resultados de simulaciones para diferente número de bits fraccionarios diferente. A modo de ejemplo, se proponen dos representaciones de punto fijo para realizar una implementación hardware. El primer diseño contiene 12 bits fraccionarios para todos los cálculos necesarios, mientras que el segundo diseño emplea 8 bits fraccionarios para el pre y post procesamiento de los datos transmitidos y 12 bits fraccionarios para el SVD. Los resultados obtenidos en ambos diseños sugieren que se puede conseguir una transmisión de datos con una ver comparable a la que se obtiene realizando los cálculos con máxima precisión en punto flotante, pero con una carga computacional y uso de recursos hardware significativamente menores. Abstract: With the growing demand of wireless communication systems and the narrow boundaries given by legal provisions in terms of bandwidth, the development of solutions with high spectral efficiency became necessary. A technique to considerably increase it is the use of MIMO-systems. They are for example used in wireless standards as wifi and lte. Consequently the use of multiple input and output antennas requires the use of new line coding and signal data processing algorithms. In this bachelor thesis an SVD algorithm with Jacobi-rotations is proposed. The SVD works for complex matrices of arbitrary size. It is implemented in fixed point algebra. The parameters and the behavior of the fixed point representation can be changed in a wide range. The algorithm was developed for use in digital signal processors. Therefore fixed point arithmetic was introduced to save hardware effort and energy consumption in a following hardware implementation. In the course of work is shown, how a limited number of bits affect the accuracy of the SVD-algorithm. The trigonometric functions within the SVD are calculated by CORDIC. For this algorithm only bit shifts, additions and a lookup table are necessary, which makes it convenient to implement in the given setting. Moreover the SVD is applied to a MIMO system. It is shown, how it can be used to separate the MIMO channels by pre- and post-processing of the transmit data. These techniques are veriffied by a simulation. In this work results of the simulations for different fractional bit sizes are presented. In conclusion two fixed point representations for a hardware implementation are proposed. The first design contains 12 fractional bits for all calculations, whereas the second design contains 8 fractional bits for the pre- and post-processing of the transmit data and 12 fractional bits for the SVD. Both design proposals provide data transmission with the same BER as the calculations with full accuracy, but with a signifficantly lower hardware effort.

Published

2019

12. Design of a fixed-point SVD algorithm applied to MIMO systems

Author

Benavente Peces, César, Hamann, Friedhelm, Benavente Peces, César, and Hamann, Friedhelm

Abstract

Dada la creciente demanda de sistemas de comunicación inalámbrica y los estrechos márgenes otorgados por las provisiones legales en materia de ancho de banda, el desarrollo de soluciones con una alta eficiencia espectral se ha convertido en una necesidad. Una de las técnicas cuyo uso se está extendiendo considerablemente, es el uso de sistemas MIMO. Estos sistemas son usados actualmente por, ejemplo, en estándares de comunicaciones como el wifi y el lte. En consecuencia, el uso de múltiples antenas tanto en transmisión como en recepción requiere del uso de nuevas técnicas y algoritmos para el procesamiento de señales. En este Proyecto Fin de Grado se propone un algoritmo SVD basado en rotaciones de Jacobi. El SVD puede trabajar con matrices reales o complejas de tamaño arbitrario. Está implementado utilizando álgebra de punto fijo. Los parámetros y el comportamiento de la representación en un punto pueden ser cambiados en un rango amplio. El algoritmo se ha diseñado para usarse en procesadores digitales de señales de punto fijo. Por lo tanto, la aritmética de punto fijo se ha introducido para ahorrar reducir la carga computacional y el consumo de energía con el objetivo de facilitar la implementación hardware. En el transcurso del trabajo se ha podido apreciar, cómo el uso de un limitado número de bits para la representación de los datos y resultados afectan la precisión del algoritmo SVD, que era uno de los objetivos. Las funciones trigonométricas necesaria para implementar la SVD mediante las rotaciones de Jacobi, se calculan utilizando el algoritmo de CORDIC. Para implementar este algoritmo solo se requiere hacer shift en los bits, sumas y una tabla de consulta (look-up table), por lo que resulta conveniente para implementarlo con las restricciones dadas. Adicionalmente el singular value decomposition (SVD) es aplicado sobre un sistema MIMO. Se muestra cómo puede ser utilizado para (mediante pre- y post-procesado) separar los canales del sistema MIMO en canales i

Published

2019