Zsolt Kira scite author profile

We propose studying GAN training dynamics as regret minimization, which is in contrast to the popular view that there is consistent minimization of a divergence between real and generated distributions. We analyze the convergence of GAN training from this new point of view to understand why mode collapse happens. We hypothesize the existence of undesirable local equilibria in this non-convex game to be responsible for mode collapse. We observe that these local equilibria often exhibit sharp gradients of the discriminator function around some real data points. We demonstrate that these degenerate local equilibria can be avoided with a gradient penalty scheme called DRAGAN. We show that DRAGAN enables faster training, achieves improved stability with fewer mode collapses, and leads to generator networks with better modeling performance across a variety of architectures and objective functions. * code -https://github.com/kodalinaveen3/DRAGAN 1 Most of our analysis applies to the simultaneous gradient updates procedure as well 1

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Temporal Attentive Alignment for Large-Scale Video Domain Adaptation

Chen

et al. 2019

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Although various image-based domain adaptation (DA) techniques have been proposed in recent years, domain shift in videos is still not well-explored. Most previous works only evaluate performance on small-scale datasets which are saturated. Therefore, we first propose two largescale video DA datasets with much larger domain discrepancy: UCF-HMDB f ull and Kinetics-Gameplay. Second, we investigate different DA integration methods for videos, and show that simultaneously aligning and learning temporal dynamics achieves effective alignment even without sophisticated DA methods. Finally, we propose Temporal Attentive Adversarial Adaptation Network (TA 3 N), which explicitly attends to the temporal dynamics using domain discrepancy for more effective domain alignment, achieving state-of-the-art performance on four video DA datasets (e.g. 7.9% accuracy gain over "Source only" from 73.9% to 81.8% on "HMDB → UCF", and 10.3% gain on "Kinetics → Gameplay"). The code and data are released at

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The Regretful Agent: Heuristic-Aided Navigation Through Progress Estimation

AlRegib

et al. 2019

153

132

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I know I came from there. Where should I go next? My estimated confidence decreased. Something went wrong. Let's learn this lesson and go back. Instruction: Exit the room. Walk past the display case and into the kitchen. Stop by the table. 20% 13% 25% 42% 60% 75% 90% 1 st step 1 st step 2 nd 5 th 5 th step 4 th 6 th 7 th Figure 1: Vision-and-Language Navigation task and our proposed regretful navigation agent. The agent leverages the selfmonitoring mechanism [14] through time to decide when to roll back to a previous location and resume the instructionfollowing task. Our code is available at https://github.com/chihyaoma/regretful-agent. AbstractAs deep learning continues to make progress for challenging perception tasks, there is increased interest in combining vision, language, and decision-making. Specifically, the Vision and Language Navigation (VLN) task involves navigating to a goal purely from language instructions and visual information without explicit knowledge of the goal. Recent successful approaches have made in-roads in achieving good success rates for this task but rely on beam search, which thoroughly explores a large number of trajectories and is unrealistic for applications such as robotics. In this paper, inspired by the intuition of viewing the problem as search on a navigation graph, we propose to use a progress monitor developed in prior work as a learnable heuristic for search. We then propose two modules incorporated into an end-to-end architecture: 1) A learned mechanism to perform backtracking, which decides whether to continue moving forward or roll back to a previous state (Regret Module) and 2) A mechanism to help the agent decide which direction to go next by showing directions that are visited and their associated progress estimate (Progress * Work partially done while the author was a research intern at Salesforce Research.Marker). Combined, the proposed approach significantly outperforms current state-of-the-art methods using greedy action selection, with 5% absolute improvement on the test server in success rates, and more importantly 8% on success rates normalized by the path length.

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TS-LSTM and temporal-inception: Exploiting spatiotemporal dynamics for activity recognition

Chen

Kira

et al. 2019

Signal Processing: Image Communication

174

119

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Recent two-stream deep Convolutional Neural Networks (ConvNets) have made significant progress in recognizing human actions in videos. Despite their success, methods extending the basic two-stream ConvNet have not systematically explored possible network architectures to further exploit spatiotemporal dynamics within video sequences. Further, such networks often use different baseline two-stream networks. Therefore, the differences and the distinguishing factors between various methods using Recurrent Neural Networks (RNN) or convolutional networks on temporallyconstructed feature vectors (Temporal-ConvNet) are unclear. In this work, we first demonstrate a strong baseline two-stream ConvNet using ResNet-101. We use this baseline to thoroughly examine the use of both RNNs and Temporal-ConvNets for extracting spatiotemporal information. Building upon our experimental results, we then propose and investigate two different networks to further integrate spatiotemporal information: 1) temporal segment RNN and 2) Inception-style Temporal-ConvNet. We demonstrate that using both RNNs (using LSTMs) and Temporal-ConvNets on spatiotemporal feature matrices are able to exploit spatiotemporal dynamics to improve the overall performance. However, each of these methods require proper care to achieve state-of-the-art performance; for example, LSTMs require pre-segmented data or else they cannot fully exploit temporal information. Our analysis identifies specific limitations for each method that could form the basis of future work. Our experimental results on UCF101 and HMDB51 datasets achieve state-of-the-art performances, 94.1% and 69.0%, respectively, without requiring extensive temporal augmentation. * equal contribution

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Attend and Interact: Higher-Order Object Interactions for Video Understanding

Kadav

Melvin

et al. 2018

138

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Human actions often involve complex interactions across several inter-related objects in the scene. However, existing approaches to fine-grained video understanding or visual relationship detection often rely on single object representation or pairwise object relationships. Furthermore, learning interactions across multiple objects in hundreds of frames for video is computationally infeasible and performance may suffer since a large combinatorial space has to be modeled. In this paper, we propose to efficiently learn higher-order interactions between arbitrary subgroups of objects for fine-grained video understanding. We demonstrate that modeling object interactions significantly improves accuracy for both action recognition and video captioning, while saving more than 3-times the computation over traditional pairwise relationships. The proposed method is validated on two large-scale datasets: Kinetics and ActivityNet Captions. Our SINet and SINet-Caption achieve state-of-the-art performances on both datasets even though the videos are sampled at a maximum of 1 FPS. To the best of our knowledge, this is the first work modeling object interactions on open domain large-scale video datasets, and we additionally model higher-order object interactions which improves the performance with low computational costs. * Work performed as a NEC Labs intern Attended interactions Interactions between ROIs Video frame Action prediction: cooking on campfire , cooking egg , …

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Open-Set Semi-Supervised Object Detection

Liu

Dai

et al. 2022

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Action Segmentation With Joint Self-Supervised Temporal Domain Adaptation

Chen

Li²,

Bao³

et al. 2020

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Zsolt Kira

Generalized ODIN: Detecting Out-of-Distribution Image Without Learning From Out-of-Distribution Data

On Convergence and Stability of GANs

Temporal Attentive Alignment for Large-Scale Video Domain Adaptation

The Regretful Agent: Heuristic-Aided Navigation Through Progress Estimation

TS-LSTM and temporal-inception: Exploiting spatiotemporal dynamics for activity recognition

Attend and Interact: Higher-Order Object Interactions for Video Understanding

Open-Set Semi-Supervised Object Detection

Action Segmentation With Joint Self-Supervised Temporal Domain Adaptation

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