Your search keyword '"Hellsten, Janne"' showing total 9 results

1. Analyzing and Improving the Training Dynamics of Diffusion Models

Author

Karras, Tero, Aittala, Miika, Lehtinen, Jaakko, Hellsten, Janne, Aila, Timo, and Laine, Samuli

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning

Abstract

Diffusion models currently dominate the field of data-driven image synthesis with their unparalleled scaling to large datasets. In this paper, we identify and rectify several causes for uneven and ineffective training in the popular ADM diffusion model architecture, without altering its high-level structure. Observing uncontrolled magnitude changes and imbalances in both the network activations and weights over the course of training, we redesign the network layers to preserve activation, weight, and update magnitudes on expectation. We find that systematic application of this philosophy eliminates the observed drifts and imbalances, resulting in considerably better networks at equal computational complexity. Our modifications improve the previous record FID of 2.41 in ImageNet-512 synthesis to 1.81, achieved using fast deterministic sampling. As an independent contribution, we present a method for setting the exponential moving average (EMA) parameters post-hoc, i.e., after completing the training run. This allows precise tuning of EMA length without the cost of performing several training runs, and reveals its surprising interactions with network architecture, training time, and guidance.

Published

2023

2. Generating Long Videos of Dynamic Scenes

Author

Brooks, Tim, Hellsten, Janne, Aittala, Miika, Wang, Ting-Chun, Aila, Timo, Lehtinen, Jaakko, Liu, Ming-Yu, Efros, Alexei A., and Karras, Tero

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing

Abstract

We present a video generation model that accurately reproduces object motion, changes in camera viewpoint, and new content that arises over time. Existing video generation methods often fail to produce new content as a function of time while maintaining consistencies expected in real environments, such as plausible dynamics and object persistence. A common failure case is for content to never change due to over-reliance on inductive biases to provide temporal consistency, such as a single latent code that dictates content for the entire video. On the other extreme, without long-term consistency, generated videos may morph unrealistically between different scenes. To address these limitations, we prioritize the time axis by redesigning the temporal latent representation and learning long-term consistency from data by training on longer videos. To this end, we leverage a two-phase training strategy, where we separately train using longer videos at a low resolution and shorter videos at a high resolution. To evaluate the capabilities of our model, we introduce two new benchmark datasets with explicit focus on long-term temporal dynamics.

Published

2022

3. Alias-Free Generative Adversarial Networks

Author

Karras, Tero, Aittala, Miika, Laine, Samuli, Härkönen, Erik, Hellsten, Janne, Lehtinen, Jaakko, and Aila, Timo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning

Abstract

We observe that despite their hierarchical convolutional nature, the synthesis process of typical generative adversarial networks depends on absolute pixel coordinates in an unhealthy manner. This manifests itself as, e.g., detail appearing to be glued to image coordinates instead of the surfaces of depicted objects. We trace the root cause to careless signal processing that causes aliasing in the generator network. Interpreting all signals in the network as continuous, we derive generally applicable, small architectural changes that guarantee that unwanted information cannot leak into the hierarchical synthesis process. The resulting networks match the FID of StyleGAN2 but differ dramatically in their internal representations, and they are fully equivariant to translation and rotation even at subpixel scales. Our results pave the way for generative models better suited for video and animation.

Published

2021

4. Modular Primitives for High-Performance Differentiable Rendering

Author

Laine, Samuli, Hellsten, Janne, Karras, Tero, Seol, Yeongho, Lehtinen, Jaakko, and Aila, Timo

Subjects

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

Abstract

We present a modular differentiable renderer design that yields performance superior to previous methods by leveraging existing, highly optimized hardware graphics pipelines. Our design supports all crucial operations in a modern graphics pipeline: rasterizing large numbers of triangles, attribute interpolation, filtered texture lookups, as well as user-programmable shading and geometry processing, all in high resolutions. Our modular primitives allow custom, high-performance graphics pipelines to be built directly within automatic differentiation frameworks such as PyTorch or TensorFlow. As a motivating application, we formulate facial performance capture as an inverse rendering problem and show that it can be solved efficiently using our tools. Our results indicate that this simple and straightforward approach achieves excellent geometric correspondence between rendered results and reference imagery.

Published

2020

5. Training Generative Adversarial Networks with Limited Data

Author

Karras, Tero, Aittala, Miika, Hellsten, Janne, Laine, Samuli, Lehtinen, Jaakko, and Aila, Timo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning

Abstract

Training generative adversarial networks (GAN) using too little data typically leads to discriminator overfitting, causing training to diverge. We propose an adaptive discriminator augmentation mechanism that significantly stabilizes training in limited data regimes. The approach does not require changes to loss functions or network architectures, and is applicable both when training from scratch and when fine-tuning an existing GAN on another dataset. We demonstrate, on several datasets, that good results are now possible using only a few thousand training images, often matching StyleGAN2 results with an order of magnitude fewer images. We expect this to open up new application domains for GANs. We also find that the widely used CIFAR-10 is, in fact, a limited data benchmark, and improve the record FID from 5.59 to 2.42.

Published

2020

6. Analyzing and Improving the Image Quality of StyleGAN

Author

Karras, Tero, Laine, Samuli, Aittala, Miika, Hellsten, Janne, Lehtinen, Jaakko, and Aila, Timo

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing, Electrical Engineering and Systems Science - Image and Video Processing, Statistics - Machine Learning

Abstract

The style-based GAN architecture (StyleGAN) yields state-of-the-art results in data-driven unconditional generative image modeling. We expose and analyze several of its characteristic artifacts, and propose changes in both model architecture and training methods to address them. In particular, we redesign the generator normalization, revisit progressive growing, and regularize the generator to encourage good conditioning in the mapping from latent codes to images. In addition to improving image quality, this path length regularizer yields the additional benefit that the generator becomes significantly easier to invert. This makes it possible to reliably attribute a generated image to a particular network. We furthermore visualize how well the generator utilizes its output resolution, and identify a capacity problem, motivating us to train larger models for additional quality improvements. Overall, our improved model redefines the state of the art in unconditional image modeling, both in terms of existing distribution quality metrics as well as perceived image quality.

Published

2019

7. Modular primitives for high-performance differentiable rendering

Author

Laine, Samuli, primary, Hellsten, Janne, additional, Karras, Tero, additional, Seol, Yeongho, additional, Lehtinen, Jaakko, additional, and Aila, Timo, additional

Published

2020

8. Analyzing and Improving the Image Quality of StyleGAN

Author

Karras, Tero, primary, Laine, Samuli, additional, Aittala, Miika, additional, Hellsten, Janne, additional, Lehtinen, Jaakko, additional, and Aila, Timo, additional

Published

2020

9. Kulttuurihistoriallisesti arvokkaan asuinkerrostalon peruskorjaus – ratkaisumalleja ilmanvaihdon parantamiseen

Author

Sistonen, Esko, Salastie, Riitta, Insinööritieteiden korkeakoulu, Pakanen, Jouko, Hellsten, Janne, Sistonen, Esko, Salastie, Riitta, Insinööritieteiden korkeakoulu, Pakanen, Jouko, and Hellsten, Janne

Abstract

Työn tavoitteena on löytää ratkaisuja painovoimaisen ilmanvaihdon parantamiseen tutkimuskohteessa. Työssä syvennytään painovoimaisen ilmanvaihdon toimintaan asuinkerrostalojen osalta. Ilmanvaihdon toimiessa pääasiassa tuulen ja lämpötilaerojen synnyttämien paine-erojen avulla on etenkin Suomen olosuhteissa oleellista tarkastella sekä talvi- että kesäkauden toimintaa. Tutkimuskohteen yksityiskohtaiseen tarkasteluun ja korjauksen ratkaisuvaihtoehtojen löytämiseen käytettiin hyväksi simulointeja, joissa huomioitiin tuuli- ja lämpöolosuhteet sekä rakennus kokonaisuutena. Simuloinnit suoritettiin IDA ICE –ohjelmistolla mallintaen tutkimuskohteen rakennuksen yksi porraskäytävä huoneistoineen. Ohjelmiston osoitettiin soveltuvan painovoimaisen ilmanvaihdon mallintamiseen Suomen olosuhteissa. Vertailuun luotiin kolme ratkaisumallia, joissa suurimmat erot koskivat rakennuksen vaipan tiiveyttä ja raitisilmaventtiilien sijoittelua ulkoseinissä. Tutkimus antoi tietoa muun muassa rakennuksen vaipan tiiveyden merkityksestä ilmanvaihdon toimintaan, sekä tietoa ilmavirtojen liikkeistä eri sääolosuhteissa. Tulosten pohjalta rakennettiin mittareita kuvaamaan eri ratkaisujen hyvyyttä ilmanvaihdon ja hyvän sisäilman kannalta. Kvantitatiivisten tulosten luotettavuutta pyrittiin varmistamaan tekemällä vertailua aikaisempiin tutkimuksiin samasta aihealueesta ja mallitestauksilla. Kvalitatiivinen ja kvantitatiivinen tutkimusote antoivat hyvän kokonaiskuvan ongelmista niin tutkimuskohteessa kuin yleisemmälläkin tasolla. Uutta tietoa saatiin etenkin rakennuksen painesuhteista: vuotoilmavirrat vaikuttavat painesuhteisiin ulkoseinässä lieventäen tuulen vaikutusta raitisilmavirtoihin samalla tasaten toimintaa poistoilmavirroissa. Huomattiin myös, että korvausreitit yhdessä tiiviimmän vaipan kanssa pienentävät ulko-oven tiiveyden merkitystä huoneiston ilmanvaihtoon, samalla todistettiin yleinen käsitys, että tiivistämällä vaipparakennetta heikennetään painovoimaisen ilmanvaihdon oikeanlaista toim, The purpose of this master’s thesis is to find ways to improve natural ventilation in the research subject. This study focuses on natural ventilation in old multi-storey buildings. When ventilation is driven by pressure differences caused by wind and temperature differences, it is important to pay attention to its behaviour during both winter and summer season in Finland. Simulations were used to examine the research subject in detail and to find alternative solutions for renovation. Wind and temperature differences and the building on the whole were taken into account. Simulations were made with IDA ICE –software: one staircase including its apartments was modeled. The software proved to be suitable for modeling natural ventilation in Finland’s climate. In the quantitative part of the study, indicators were made to describe the effects of different solutions to ventilation and indoor air. Three alternative solution models were made that differ the most in the compactness of the external parts and the disposition of air inlet valves in the building. This research study produced information about the significance of compactness on the functionality of ventilation as well as about air flows in different weather conditions. On the basis of the results found in this study, indicators were developed to describe the suitability of the solutions for good air ventilation in indoor air. The reliability of quantitative results was ensured by comparing them to the results received from previous studies and also with model testing. Both qualitative and quantitative research gave a good overall picture of problems in the research subject but also on a general level. New information was received on the pressure differences of the building: the leaks in the external envelope of the bulding have an influence on wind driven pressure differences on external walls ¬– larger leaks even out airflow through air inlet valves. Also, more compact building together with fresh air valves lowe

Published

2014