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Top 10 Arxiv Papers Today

2.647 Mikeys

#1. MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets

Sungjoo Ha, Martin Kersner, Beomsu Kim, Seokjun Seo, Dongyoung Kim

When there is a mismatch between the target identity and the driver identity, face reenactment suffers severe degradation in the quality of the result, especially in a few-shot setting. The identity preservation problem, where the model loses the detailed information of the target leading to a defective output, is the most common failure mode. The problem has several potential sources such as the identity of the driver leaking due to the identity mismatch, or dealing with unseen large poses. To overcome such problems, we introduce components that address the mentioned problem: image attention block, target feature alignment, and landmark transformer. Through attending and warping the relevant features, the proposed architecture, called MarioNETte, produces high-quality reenactments of unseen identities in a few-shot setting. In addition, the landmark transformer dramatically alleviates the identity preservation problem by isolating the expression geometry through landmark disentanglement. Comprehensive experiments are performed to...

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shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

idgmatrix: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

syoyo: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

udoooom: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

sei_shinagawa: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

GiorgioPatrini: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

KageKirin: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

s_m__p_lls: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

morioka: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

SythonUK: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

KouroshMeshgi: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

YannLePaih: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

dragonmeteor: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

santiagoitzcoat: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

uoe9981: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

bhargavbardipur: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

0oMetao0: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

nving: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

SHK_eolus: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

jp_axs4ll: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

AhnsikChoi: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

gyultaste: RT @shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

honasu: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

dannyehb: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

MarkTan57229491: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

veydpz_public: RT @shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

funxiah: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

extratype: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

AssistedEvolve: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

jastner109: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

krokrow: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

starflo_cia: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

fantra215: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

helplessnature: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

_jongwook_kim: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

6_6kyul: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

AndroidBlogger: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

matthewopala: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

coreaful: RT @shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

smizuka1: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

albelwu: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

wjdms20: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

Malghamdi_AI: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

UkiwhY: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

jaesonglee: RT @shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

MassBassLol: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

robin_kips: RT @roadrunning01: MarioNETte: Few-shot Face Reenactment Preserving Identity of Unseen Targets pdf: https://t.co/FT0fUfPncC abs: https://t.…

shukiiiii4: RT @shurain: project page: https://t.co/8vf2LUWpoQ paper: https://t.co/cUyLEMTfRB video: https://t.co/CffU39CPjM

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Authors: 5

Total Words: 0

Unqiue Words: 0

2.389 Mikeys

#2. VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss

Shion Honda

Generating a virtual try-on image from in-shop clothing images and a model person's snapshot is a challenging task because the human body and clothes have high flexibility in their shapes. In this paper, we develop a Virtual Try-on Generative Adversarial Network (VITON-GAN), that generates virtual try-on images using images of in-shop clothing and a model person. This method enhances the quality of the generated image when occlusion is present in a model person's image (e.g., arms crossed in front of the clothes) by adding an adversarial mechanism in the training pipeline.

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roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0ZG1dRSF8f github: https://t.co/oaLnU4W01t https://t.co/mvytbaPUBm

shion_honda: The preprint version of our short paper "VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss" is now on arXiv! This work was presented at the EuroGraphics 2019 poster session. https://t.co/lJy8ZmCBKD https://t.co/Q11777aLRN

yshhrknmr: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

shion_honda: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

alxcnwy: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

ialuronico: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

fanks_vision: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

briandixn: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

AssistedEvolve: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

Feldman1Michael: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

summer4an: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

Lei_Xu_: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

hey_kishore: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

UkiwhY: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

MassBassLol: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

Luck2john: RT @roadrunning01: VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss pdf: https://t.co/dqqzab4tJX abs: https://t.co/0…

Github

Original implementation of the paper "VITON-GAN: Virtual Try-on Image Generator Trained with Adversarial Loss" by Shion Honda.

Repository: viton-gan
User: shionhonda
Language: Python

Stargazers: 10
Subscribers: 2

Forks: 5
Open Issues: 1

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Sample Sizes : None.

Authors: 1

Total Words: 970

Unqiue Words: 500

2.357 Mikeys

#3. Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model

Julian Schrittwieser, Ioannis Antonoglou, Thomas Hubert, Karen Simonyan, Laurent Sifre, Simon Schmitt, Arthur Guez, Edward Lockhart, Demis Hassabis, Thore Graepel, Timothy Lillicrap, David Silver

Constructing agents with planning capabilities has long been one of the main challenges in the pursuit of artificial intelligence. Tree-based planning methods have enjoyed huge success in challenging domains, such as chess and Go, where a perfect simulator is available. However, in real-world problems the dynamics governing the environment are often complex and unknown. In this work we present the MuZero algorithm which, by combining a tree-based search with a learned model, achieves superhuman performance in a range of challenging and visually complex domains, without any knowledge of their underlying dynamics. MuZero learns a model that, when applied iteratively, predicts the quantities most directly relevant to planning: the reward, the action-selection policy, and the value function. When evaluated on 57 different Atari games - the canonical video game environment for testing AI techniques, in which model-based planning approaches have historically struggled - our new algorithm achieved a new state of the art. When evaluated...

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mathena: Holy Cow this is a good step towards AGI. https://t.co/LPVSTxu08J

BrundageBot: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model. Schrittwieser, Antonoglou, Hubert, Simonyan, Sifre, Schmitt, Guez, Lockhart, Hassabis, Graepel, Lillicrap, and Silver https://t.co/gWUdaaVgg5

rosinality: https://t.co/ymLJ2gITxL 오 이젠 알파고가 아타리도 하네. 모델 기반 RL로의 확장이라 흥미로움.

StatsPapers: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model. https://t.co/kuLNUldJLn

mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

KaiLashArul: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

KazuSamejima: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

tak_yamm: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

morioka: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

turkeyfiend: RT @rosinality: https://t.co/ymLJ2gITxL 오 이젠 알파고가 아타리도 하네. 모델 기반 RL로의 확장이라 흥미로움.

cute_na_piglets: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

ETCShogi: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

ihme_vaeltaa: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

pranjaltandon2: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

THsama2: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

MoTaylor95: RT @mooopan: Mastering Atari, Go, Chess and Shogi by Planning with a Learned Model https://t.co/wvd4kKaSpc 😲

Github

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Sample Sizes : None.

Authors: 12

Total Words: 0

Unqiue Words: 0

2.299 Mikeys

#4. Retrospective and Prospective Mixture-of-Generators for Task-oriented Dialogue Response Generation

Jiahuan Pei, Pengjie Ren, Christof Monz, Maarten de Rijke

Dialogue response generation (DRG) is a critical component of task-oriented dialogue systems (TDSs). Its purpose is to generate proper natural language responses given some context, e.g., historical utterances, system states, etc. State-of-the-art work focuses on how to better tackle DRG in an end-to-end way. Typically, such studies assume that each token is drawn from a single distribution over the output vocabulary, which may not always be optimal. Responses vary greatly with different intents, e.g., domains, system actions. We propose a novel mixture-of-generators network (MoGNet) for DRG, where we assume that each token of a response is drawn from a mixture of distributions. MoGNet consists of a chair generator and several expert generators. Each expert is specialized for DRG w.r.t. a particular intent. The chair coordinates multiple experts and combines the output they have generated to produce more appropriate responses. We propose two strategies to help the chair make better decisions, namely, a retrospective...

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SciFi: Retrospective and Prospective Mixture-of-Generators for Task-oriented Dialogue Response Generation. https://t.co/57kXy0l2XQ

arxiv_cscl: Retrospective and Prospective Mixture-of-Generators for Task-oriented Dialogue Response Generation https://t.co/mbmKDKcZJp

Github

Source code for end-to-end dialogue model from the MultiWOZ paper (Budzianowski et al. 2018, EMNLP)

Repository: multiwoz
User: budzianowski
Language: Python

Stargazers: 129
Subscribers: 7

Forks: 31
Open Issues: 4

Youtube

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Sample Sizes : None.

Authors: 4

Total Words: 7028

Unqiue Words: 2223

2.232 Mikeys

#5. Faster AutoAugment: Learning Augmentation Strategies using Backpropagation

Ryuichiro Hataya, Jan Zdenek, Kazuki Yoshizoe, Hideki Nakayama

Data augmentation methods are indispensable heuristics to boost the performance of deep neural networks, especially in image recognition tasks. Recently, several studies have shown that augmentation strategies found by search algorithms outperform hand-made strategies. Such methods employ black-box search algorithms over image transformations with continuous or discrete parameters and require a long time to obtain better strategies. In this paper, we propose a differentiable policy search pipeline for data augmentation, which is much faster than previous methods. We introduce approximate gradients for several transformation operations with discrete parameters as well as the differentiable mechanism for selecting operations. As the objective of training, we minimize the distance between the distributions of augmented data and the original data, which can be differentiated. We show that our method, Faster AutoAugment, achieves significantly faster searching than prior work without a performance drop.

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yu4u: 👀 https://t.co/je9uFHy3KU https://t.co/r6krqvLlAn

BrundageBot: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation. Ryuichiro Hataya, Jan Zdenek, Kazuki Yoshizoe, and Hideki Nakayama https://t.co/PgeMC3BfLH

mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on arXiv. We approximate gradients of the DA pipeline to enable gradient-based searching. Faster AutoAugment is 20k times faster than the original AutoAugment.

mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugmentの2万倍高速です。

ZFPhalanx: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/2ExxhTu0wo https://t.co/IYEsWjCi5I

arxivml: "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation", Ryuichiro Hataya, Jan Zdenek, Kazuki … https://t.co/x5hjN6vb3h

arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tQd95X

arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tPVxHn

kazoo04: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

learn_learning3: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

n_hidekey: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

jaguring1: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

hayashiyus: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

hayashiyus: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

HirokatuKataoka: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

mosko_mule: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

mosko_mule: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

imenurok: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

shunk031: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

jaialkdanel: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

Scaled_Wurm: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

udmrzn: RT @arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tQd95X

kibo35: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

hrs1985: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

jd_mashiro: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

momiji_fullmoon: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

matsui_kota: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

matsui_kota: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

toorun12: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

StaPriEG2: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

morioka: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

doiken23: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

morioka: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

muktabh: RT @arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tQd95X

muktabh: RT @arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tPVxHn

_naoto_inoue: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

_naoto_inoue: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

ssky_ryo: RT @yu4u: 👀 https://t.co/je9uFHy3KU https://t.co/r6krqvLlAn

SythonUK: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

kud_wata: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

Eseshinpu: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

FBWM8888: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

eve_yk: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

harujoh: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

63556poiuytrewq: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

chachay: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

ponpokoz: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

ko_ash: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

hengcherkeng: RT @ZFPhalanx: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/2ExxhTu0wo https://t.co/IYEsWjCi5I

f16xl: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

nskm_m: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

nightwalker: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

toto_toilet: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

ashi__no: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

MatsElctrcBlu: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

MktO740123: RT @mosko_mule: Our paper "Faster AutoAugment: Learning Augmentation Strategies using Backpropagation" https://t.co/9UMKK9uvJr is now on ar…

MktO740123: RT @mosko_mule: IBISでも発表するFaster AutoAugmentがこちらです https://t.co/9UMKK9uvJr ブラックボックス最適化を用いる既存手法とは異なり、勾配を近似することでSGDでデータ拡張戦略を学習します。AutoAugment…

kuz44ma69: RT @arxiv_cscv: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/NXq3tPVxHn

MassBassLol: RT @ZFPhalanx: Faster AutoAugment: Learning Augmentation Strategies using Backpropagation https://t.co/2ExxhTu0wo https://t.co/IYEsWjCi5I

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Sample Sizes : None.

Authors: 4

Total Words: 5665

Unqiue Words: 1807

2.197 Mikeys

#6. A note on the number of irrational odd zeta values

Li Lai, Pin Yu

By modifying the auxiliary rational functions of Fischler, Sprang and Zudilin in \cite{FSZ2019}, we prove that, for all odd integer $s \geq 10^4$, there are at least $\frac{1}{10}\frac{s^{1/2}}{(\log s)^{1/2}}$ irrational numbers among the following odd zeta values: $\zeta(3),\zeta(5),\zeta(7),\cdots,\zeta(s)$. This improves the lower bound $2^{(1-\varepsilon)\frac{\log s}{\log\log s}}$ in \cite{FSZ2019}.

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tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

mathNTb: Li Lai, Pin Yu : A note on the number of irrational odd zeta values https://t.co/2N6mNSaoQb https://t.co/myOztkcIzs

adhara_mathphys: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

691_7758337633: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

691_7758337633: RT @mathNTb: Li Lai, Pin Yu : A note on the number of irrational odd zeta values https://t.co/2N6mNSaoQb https://t.co/myOztkcIzs

suugaku_arai: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

sugar_underkey: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

akira_chem: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

Lbfuvab: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

chibafx: RT @tyamada1093: https://t.co/HU0FChkA1o ζ関数の奇数での値の無理数性に新たな結果。 s が10000より大きい奇数のとき ζ(n), n=3, 5,...,s のうち少なくとも (s/log s)^{1/2}/10 個は無理数。

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2.188 Mikeys

#7. Non-linear effects in early Universe cosmology

Pedro Carrilho

In this thesis, we discuss several instances in which non-linear behaviour affects cosmological evolution in the early Universe. We begin by reviewing the standard cosmological model and the tools used to understand it theoretically and to compute its observational consequences. This includes a detailed exposition of cosmological perturbation theory and the theory of inflation. We then describe the results in this thesis, starting with the non-linear evolution of the curvature perturbation in the presence of vector and tensor fluctuations, in which we identify the version of that variable that is conserved in the most general situation. Next, we use second order perturbation theory to describe the most general initial conditions for the evolution of scalar perturbations at second order in the standard cosmological model. We compute approximate solutions valid in the initial stages of the evolution, which can be used to initialize second order Boltzmann codes, and to compute many observables taking isocurvature modes into account....

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OSablin: "Non-linear effects in early Universe cosmology. (arXiv:1911.08313v1 [gr-qc])" https://t.co/EldV4uNnMg

RelativityPaper: Non-linear effects in early Universe cosmology. https://t.co/dGfXtFbrGf

Github

A Python Package for the calculation of inflationary correlation functions.

Repository: PyTransport
User: jronayne
Language: C++

Stargazers: 8
Subscribers: 3

Forks: 3
Open Issues: 4

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Authors: 1

Total Words: 76804

Unqiue Words: 9565

2.173 Mikeys

#8. Live Face De-Identification in Video

Oran Gafni, Lior Wolf, Yaniv Taigman

We propose a method for face de-identification that enables fully automatic video modification at high frame rates. The goal is to maximally decorrelate the identity, while having the perception (pose, illumination and expression) fixed. We achieve this by a novel feed-forward encoder-decoder network architecture that is conditioned on the high-level representation of a person's facial image. The network is global, in the sense that it does not need to be retrained for a given video or for a given identity, and it creates natural looking image sequences with little distortion in time.

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Tweets

BrundageBot: Live Face De-Identification in Video. Oran Gafni, Lior Wolf, and Yaniv Taigman https://t.co/qw6TrNRa3s

roadrunning01: Live Face De-Identification in Video pdf: https://t.co/rOW3Df0Fxm abs: https://t.co/Y1f3j5vTdp video: https://t.co/lUY5y0OA0w https://t.co/HQJ5yibeiI

StatsPapers: Live Face De-Identification in Video. https://t.co/8UPhikRg2O

arxiv_csgr: Live Face De-Identification in Video https://t.co/H69Qn2CCLk

arxiv_csgr: Live Face De-Identification in Video https://t.co/H69Qn2Ue9U

hey_kishore: RT @roadrunning01: Live Face De-Identification in Video pdf: https://t.co/rOW3Df0Fxm abs: https://t.co/Y1f3j5vTdp video: https://t.co/lUY5y…

MassBassLol: RT @roadrunning01: Live Face De-Identification in Video pdf: https://t.co/rOW3Df0Fxm abs: https://t.co/Y1f3j5vTdp video: https://t.co/lUY5y…

Github

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2.163 Mikeys

#9. HighEr-Resolution Network for Image Demosaicing and Enhancing

Kangfu Mei, Juncheng Li, Jiajie Zhang, Haoyu Wu, Jie Li, Rui Huang

Neural-networks based image restoration methods tend to use low-resolution image patches for training. Although higher-resolution image patches can provide more global information, state-of-the-art methods cannot utilize them due to their huge GPU memory usage, as well as the instable training process. However, plenty of studies have shown that global information is crucial for image restoration tasks like image demosaicing and enhancing. In this work, we propose a HighEr-Resolution Network (HERN) to fully learning global information in high-resolution image patches. To achieve this, the HERN employs two parallel paths to learn image features in two different resolutions, respectively. By combining global-aware features and multi-scale features, our HERN is able to learn global information with feasible GPU memory usage. Besides, we introduce a progressive training method to solve the instability issue and accelerate model convergence. On the task of image demosaicing and enhancing, our HERN achieves state-of-the-art performance...

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BrundageBot: HighEr-Resolution Network for Image Demosaicing and Enhancing. Kangfu Mei, Juncheng Li, Jiajie Zhang, Haoyu Wu, Jie Li, and Rui Huang https://t.co/gZ5SoLGnEl

arxiv_cscv: HighEr-Resolution Network for Image Demosaicing and Enhancing https://t.co/JDabMM1ehW

Github

Winning solution in AIM 2019 RAW to RGB Mapping Challenge (ICCV2019W)

Repository: RAW2RGBNet
User: MKFMIKU
Language: Python

Stargazers: 5
Subscribers: 1

Forks: 1
Open Issues: 0

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Authors: 6

Total Words: 4612

Unqiue Words: 1450

2.156 Mikeys

#10. Extended Answer and Uncertainty Aware Neural Question Generation

Hongwei Zeng, Zhuo Zhi, Jun Liu, Bifan Wei

In this paper, we study automatic question generation, the task of creating questions from corresponding text passages where some certain spans of the text can serve as the answers. We propose an Extended Answer-aware Network (EAN) which is trained with Word-based Coverage Mechanism (WCM) and decodes with Uncertainty-aware Beam Search (UBS). The EAN represents the target answer by its surrounding sentence with an encoder, and incorporates the information of the extended answer into paragraph representation with gated paragraph-to-answer attention to tackle the problem of the inadequate representation of the target answer. To reduce undesirable repetition, the WCM penalizes repeatedly attending to the same words at different time-steps in the training stage. The UBS aims to seek a better balance between the model confidence in copying words from an input text paragraph and the confidence in generating words from a vocabulary. We conduct experiments on the SQuAD dataset, and the results show our approach achieves significant...

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Tweets

BrundageBot: Extended Answer and Uncertainty Aware Neural Question Generation. Hongwei Zeng, Zhuo Zhi, Jun Liu, and Bifan Wei https://t.co/DyoNZSgtVR

SciFi: Extended Answer and Uncertainty Aware Neural Question Generation. https://t.co/HRZBETc3wp

arxiv_cscl: Extended Answer and Uncertainty Aware Neural Question Generation https://t.co/1Ims5kfElt

arxiv_cscl: Extended Answer and Uncertainty Aware Neural Question Generation https://t.co/1Ims5jY2WT

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Authors: 4

Total Words: 0

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About

Assert is a website where the best academic papers on arXiv (computer science, math, physics), bioRxiv (biology), BITSS (reproducibility), EarthArXiv (earth science), engrXiv (engineering), LawArXiv (law), PsyArXiv (psychology), SocArXiv (social science), and SportRxiv (sport research) bubble to the top each day.

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