Top 10 Arxiv Papers Today
2.099 Mikeys
#1. The compositionality of neural networks: integrating symbolism and connectionism
Dieuwke Hupkes, Verna Dankers, Mathijs Mul, Elia Bruni
Despite a multitude of empirical studies, little consensus exists on whether
neural networks are able to generalise compositionally, a controversy that, in
part, stems from a lack of agreement about what it means for a neural model to
be compositional. As a response to this controversy, we present a set of tests
that provide a bridge between, on the one hand, the vast amount of linguistic
and philosophical theory about compositionality and, on the other, the
successful neural models of language. We collect different interpretations of
compositionality and translate them into five theoretically grounded tests that
are formulated on a task-independent level. In particular, we provide tests to
investigate (i) if models systematically recombine known parts and rules (ii)
if models can extend their predictions beyond the length they have seen in the
training data (iii) if models' composition operations are local or global (iv)
if models' predictions are robust to synonym substitutions and (v) if models
favour rules or exceptions during...
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BrundageBot:
The compositionality of neural networks: integrating symbolism and connectionism. Dieuwke Hupkes, Verna Dankers, Mathijs Mul, and Elia Bruni https://t.co/J7B77ypydw
IntuitMachine:
A proposed test to see if connectionist architectures (i.e. deep learning) are capable of the composition found in symbolic systems. https://t.co/N947NoU0VP #ai
omarsar0:
This study uses several methods to test the compositionality of neural networks in particular as it relates to language modeling. Models tested: recurrent, convolution, and the recently popular transformer. The notes on linguistic theory are nice!
https://t.co/gmySHE8Yyc https://t.co/YGkwpU5VTS
arxivml:
"The compositionality of neural networks: integrating symbolism and connectionism",
Dieuwke Hupkes, Verna Dankers, …
https://t.co/It3Q62RS4t
_dieuwke_:
Why? What else? And what does this have to do with compositionality in natural language?
For more results, motivation and elaborate discussion, have a look: https://t.co/AqyUZUGHNg!
_dieuwke_:
Curious what people may mean when they say a neural network is (not) compositional? And how that relates to linguistics and philosophy literature on compositionality?
Check our new paper on compositionality in neural networks: https://t.co/AqyUZUGHNg! https://t.co/Z9bj1FYKiS
_dieuwke_:
Why? What else? And what does this have to do with compositionality in natural language?
For more results, motivation and elaborate discussion, have a look: https://t.co/AqyUZUGHNg!
SciFi:
The compositionality of neural networks: integrating symbolism and connectionism. https://t.co/DlFVf4cGMz
arxiv_cscl:
The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCD4y2
arxiv_cscl:
The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCD4y2
arxiv_cscl:
The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCUFpA
arxiv_cscl:
The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCD4y2
arxiv_cscl:
The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCD4y2
stjaco:
The compositionality of neural networks: integrating
symbolism and connectionism https://t.co/IPR96bXeyc
KnXChg:
RT @arxiv_cscl: The compositionality of neural networks: integrating symbolism and connectionism https://t.co/K0vPlCD4y2
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Subscribers: 3
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Total Words: 21534
Unqiue Words: 4245
2.078 Mikeys
#2. Automated quantum programming via reinforcement learning for combinatorial optimization
Keri A. McKiernan, Erik Davis, M. Sohaib Alam, Chad Rigetti
We develop a general method for incentive-based programming of hybrid
quantum-classical computing systems using reinforcement learning, and apply
this to solve combinatorial optimization problems on both simulated and real
gate-based quantum computers. Relative to a set of randomly generated problem
instances, agents trained through reinforcement learning techniques are capable
of producing short quantum programs which generate high quality solutions on
both types of quantum resources. We observe generalization to problems outside
of the training set, as well as generalization from the simulated quantum
resource to the physical quantum resource.
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arxiv_org:
Automated quantum programming via reinforcement learning for combinatorial optimization. https://t.co/oRFlu6QJJw https://t.co/SwmtWqNqtq
kenjikun__:
https://t.co/3CTGZMeGcm
強化学習を使って組合せ最適化問題のより良い解を出すような浅い量子回路を生成する方法を提案した.
量子回路を実行する環境としてはシミュレーションと実機を用いた.
エージェントとしてはPPO (Proximal Policy Optimization)を用いた
QAOAより短い回路がえられた.
arxivml:
"Automated quantum programming via reinforcement learning for combinatorial optimization",
Keri A. McKiernan, Erik …
https://t.co/3jcEn5sMwj
k_mckiern:
New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization
with @braised_babbage, @sohaib_alam, @ChadRigetti
code, datasets, models:
https://t.co/I73YtZIs7F
#QuantumComputing #ReinforcementLearning #optimization
arxiv_cs_LG:
Automated quantum programming via reinforcement learning for combinatorial optimization. Keri A. McKiernan, Erik Davis, M. Sohaib Alam, and Chad Rigetti https://t.co/SECujs1PrZ
Memoirs:
Automated quantum programming via reinforcement learning for combinatorial optimization. https://t.co/4sov0F4REi
trisetyarso:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
HubBucket:
RT @arxiv_org: Automated quantum programming via reinforcement learning for combinatorial optimization. https://t.co/oRFlu6QJJw https://t.c…
matt_reagor:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
stuart_hadfield:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
ChadRigetti:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
snuffkin:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
nalidoust:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
blake_johnson:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
nicolasochem:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
notmgsk:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
fifcsml:
RT @arxiv_org: Automated quantum programming via reinforcement learning for combinatorial optimization. https://t.co/oRFlu6QJJw https://t.c…
sohaib_alam:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
braised_babbage:
RT @k_mckiern: New paper! https://t.co/p4QZMpHi3p
Automated quantum programming via reinforcement learning for combinatorial optimization…
JawaeChan:
RT @arxiv_org: Automated quantum programming via reinforcement learning for combinatorial optimization. https://t.co/oRFlu6QJJw https://t.c…
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2.068 Mikeys
#3. VL-BERT: Pre-training of Generic Visual-Linguistic Representations
Weijie Su, Xizhou Zhu, Yue Cao, Bin Li, Lewei Lu, Furu Wei, Jifeng Dai
We introduce a new pre-trainable generic representation for visual-linguistic
tasks, called Visual-Linguistic BERT (VL-BERT for short). VL-BERT adopts the
simple yet powerful Transformer model as the backbone, and extends it to take
both visual and linguistic embedded features as input. In it, each element of
the input is either of a word from the input sentence, or a region-of-interest
(RoI) from the input image. It is designed to fit for most of the
vision-and-language downstream tasks. To better exploit the generic
representation, we pre-train VL-BERT on massive-scale Conceptual Captions
dataset with three tasks: masked language modeling with visual clues, masked
RoI classification with linguistic clues, and sentence-image relationship
prediction. Extensive empirical analysis demonstrates that the pre-training
procedure can better align the visual-linguistic clues and benefit the
downstream tasks, such as visual question answering, visual commonsense
reasoning and referring expression comprehension. It is worth noting...
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BrundageBot:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations. Weijie Su, Xizhou Zhu, Yue Cao, Bin Li, Lewei Lu, Furu Wei, and Jifeng Dai https://t.co/eeqrCgbZze
arxiv_in_review:
#ICLR2020 VL-BERT: Pre-training of Generic Visual-Linguistic Representations. (arXiv:1908.08530v1 [cs\.CV]) https://t.co/lfDcjcuN0B
arxivml:
"VL-BERT: Pre-training of Generic Visual-Linguistic Representations",
Weijie Su, Xizhou Zhu, Yue Cao, Bin Li, Lewei…
https://t.co/2PSRBL6rsn
Memoirs:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations. https://t.co/WDh5Mgf5Jx
arxiv_cscv:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/AKQoR6pinr
arxiv_cscv:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/AKQoR6pinr
arxiv_cscv:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/AKQoR67GYR
arxiv_cscl:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/YjcG15hrIq
arxiv_cscl:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/YjcG15hrIq
arxiv_cscl:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/YjcG15hrIq
arxiv_cscl:
VL-BERT: Pre-training of Generic Visual-Linguistic Representations https://t.co/YjcG15z2zY
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Authors: 7
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2.061 Mikeys
#4. More unlabelled data or label more data? A study on semi-supervised laparoscopic image segmentation
Yunguan Fu, Maria R. Robu, Bongjin Koo, Crispin Schneider, Stijn van Laarhoven, Danail Stoyanov, Brian Davidson, Matthew J. Clarkson, Yipeng Hu
Improving a semi-supervised image segmentation task has the option of adding
more unlabelled images, labelling the unlabelled images or combining both, as
neither image acquisition nor expert labelling can be considered trivial in
most clinical applications. With a laparoscopic liver image segmentation
application, we investigate the performance impact by altering the quantities
of labelled and unlabelled training data, using a semi-supervised segmentation
algorithm based on the mean teacher learning paradigm. We first report a
significantly higher segmentation accuracy, compared with supervised learning.
Interestingly, this comparison reveals that the training strategy adopted in
the semi-supervised algorithm is also responsible for this observed
improvement, in addition to the added unlabelled data. We then compare
different combinations of labelled and unlabelled data set sizes for training
semi-supervised segmentation networks, to provide a quantitative example of the
practically useful trade-off between the two data planning...
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arxiv_org:
More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https://t.co/mVvz8lX6zm
arxivml:
"More unlabelled data or label more data? A study on semi-supervised laparoscopic image segmentation",
Yunguan Fu, …
https://t.co/KaiiV79I1g
mathpluscode:
Proud of my latest research on laparoscopic image segmentation. We showed that independent of an increase in unlabelled data, the semi-supervised training strategy improves the segmentation accuracy. Accepted for the @miccai2019 MIL3ID workshop, https://t.co/zoCvsJIqTt. https://t.co/VPGHnvHR4E
arxiv_cs_LG:
More unlabelled data or label more data? A study on semi-supervised laparoscopic image segmentation. Yunguan Fu, Maria R. Robu, Bongjin Koo, Crispin Schneider, Stijn van Laarhoven, Danail Stoyanov, Brian Davidson, Matthew J. Clarkson, and Yipeng Hu https://t.co/YIfBNx9nB2
StatsPapers:
More unlabelled data or label more data? A study on semi-supervised laparoscopic image segmentation. https://t.co/ItH0NVRNI0
arxiv_cscv:
More unlabelled data or label more data? A study on semi-supervised laparoscopic image segmentation https://t.co/kdbuVlX7qX
Rosenchild:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
Rosenchild:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
HubBucket:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
jaialkdanel:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
udmrzn:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
JawaeChan:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
junsukchoe:
RT @arxiv_org: More unlabelled data or label more data? A study on semi-supervised laparoscopic image se... https://t.co/92rdqAHP2W https:/…
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Authors: 9
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2.06 Mikeys
#5. Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning
Jyoti Aneja, Harsh Agrawal, Dhruv Batra, Alexander Schwing
Diverse and accurate vision+language modeling is an important goal to retain
creative freedom and maintain user engagement. However, adequately capturing
the intricacies of diversity in language models is challenging. Recent works
commonly resort to latent variable models augmented with more or less
supervision from object detectors or part-of-speech tags. Common to all those
methods is the fact that the latent variable either only initializes the
sentence generation process or is identical across the steps of generation.
Both methods offer no fine-grained control. To address this concern, we propose
Seq-CVAE which learns a latent space for every word position. We encourage this
temporal latent space to capture the 'intention' about how to complete the
sentence by mimicking a representation which summarizes the future. We
illustrate the efficacy of the proposed approach to anticipate the sentence
continuation on the challenging MSCOCO dataset, significantly improving
diversity metrics compared to baselines while performing on par...
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BrundageBot:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning. Jyoti Aneja, Harsh Agrawal, Dhruv Batra, and Alexander Schwing https://t.co/OiveCQyKXK
arxivml:
"Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning",
Jyoti Aneja, Harsh Agrawal, …
https://t.co/2y1MO0bGqf
StatsPapers:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning. https://t.co/POo18z8uVP
arxiv_cscv:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/aIbW4Syhw5
arxiv_cscv:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/aIbW4Syhw5
arxiv_cscv:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/aIbW4SPSnD
arxiv_cscl:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/qtC2wMy9aU
arxiv_cscl:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/qtC2wMy9aU
arxiv_cscl:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/qtC2wMy9aU
arxiv_cscl:
Sequential Latent Spaces for Modeling the Intention During Diverse Image Captioning https://t.co/qtC2wMPK2s
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2.06 Mikeys
#6. ViCo: Word Embeddings from Visual Co-occurrences
Tanmay Gupta, Alexander Schwing, Derek Hoiem
We propose to learn word embeddings from visual co-occurrences. Two words
co-occur visually if both words apply to the same image or image region.
Specifically, we extract four types of visual co-occurrences between object and
attribute words from large-scale, textually-annotated visual databases like
VisualGenome and ImageNet. We then train a multi-task log-bilinear model that
compactly encodes word "meanings" represented by each co-occurrence type into a
single visual word-vector. Through unsupervised clustering, supervised
partitioning, and a zero-shot-like generalization analysis we show that our
word embeddings complement text-only embeddings like GloVe by better
representing similarities and differences between visual concepts that are
difficult to obtain from text corpora alone. We further evaluate our embeddings
on five downstream applications, four of which are vision-language tasks.
Augmenting GloVe with our embeddings yields gains on all tasks. We also find
that random embeddings perform comparably to learned embeddings...
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BrundageBot:
ViCo: Word Embeddings from Visual Co-occurrences. Tanmay Gupta, Alexander Schwing, and Derek Hoiem https://t.co/RFVPCPQQEy
arxivml:
"ViCo: Word Embeddings from Visual Co-occurrences",
Tanmay Gupta, Alexander Schwing, Derek Hoiem
https://t.co/ZTor7QoRhE
tanmay2099:
Need a break from BERTmania? Checkout ViCo -- multi-sense word embeddings from visual (as opposed to textual) co-occurrences. Work done in collaboration with @HoiemDerek and @alexschwing at @IllinoisCS. To be presented at ICCV 2019!
https://t.co/ieT0BHTXbk
arxiv_cscv:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/iY04LVqvJx
arxiv_cscv:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/iY04LVqvJx
arxiv_cscv:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/iY04LVI6B5
arxiv_cscl:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/4h4xR1CRTn
arxiv_cscl:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/4h4xR1CRTn
arxiv_cscl:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/4h4xR1UsKV
arxiv_cscl:
ViCo: Word Embeddings from Visual Co-occurrences https://t.co/4h4xR1CRTn
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Authors: 3
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2.057 Mikeys
#7. Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks
Dominique Beaini, Sofiane Achiche, Alexandre Duperré, Maxime Raison
Current saliency methods require to learn large scale regional features using
small convolutional kernels, which is not possible with a simple feed-forward
network. Some methods solve this problem by using segmentation into superpixels
while others downscale the image through the network and rescale it back to its
original size. The objective of this paper is to show that saliency
convolutional neural networks (CNN) can be improved by using a Green's function
convolution (GFC) to extrapolate edges features into salient regions. The GFC
acts as a gradient integrator, allowing to produce saliency features from thin
edge-like features directly inside the CNN. Hence, we propose the gradient
integration and sum (GIS) layer that combines the edges features with the
saliency features. Using the HED and DSS architecture, we demonstrated that
adding a GIS layer near the network's output allows to reduce the sensitivity
to the parameter initialization and overfitting, thus improving the
repeatability of the training. By adding a GIS layer...
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BrundageBot:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks. Dominique Beaini, Sofiane Achiche, Alexandre Duperré, and Maxime Raison https://t.co/IctwizHzKt
arxivml:
"Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks",
Dominique Beaini, Sofian…
https://t.co/wymUZvQlxO
Memoirs:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks. https://t.co/hUyiPOdMGz
arxiv_cscv:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XUqzN
arxiv_cscv:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XUqzN
arxiv_cscv:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XUqzN
arxiv_cscv:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XCPbd
arxiv_cscv:
Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XCPbd
dirackuma:
@momiji_fullmoon https://t.co/wh54b4raGw
文字化け…
disigandalf:
RT @arxiv_cscv: Deep Green Function Convolution for Improving Saliency in Convolutional Neural Networks https://t.co/RPwL6XUqzN
Github
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Authors: 4
Total Words: 7846
Unqiue Words: 2066
2.057 Mikeys
#8. Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation
Alfio Gliozzo, Michael R. Glass, Sarthak Dash, Mustafa Canim
In this paper, we propose a fully automated system to extend knowledge graphs
using external information from web-scale corpora. The designed system
leverages a deep learning based technology for relation extraction that can be
trained by a distantly supervised approach. In addition to that, the system
uses a deep learning approach for knowledge base completion by utilizing the
global structure information of the induced KG to further refine the confidence
of the newly discovered relations. The designed system does not require any
effort for adaptation to new languages and domains as it does not use any
hand-labeled data, NLP analytics and inference rules. Our experiments,
performed on a popular academic benchmark demonstrate that the suggested system
boosts the performance of relation extraction by a wide margin, reporting error
reductions of 50%, resulting in relative improvement of up to 100%. Also, a
web-scale experiment conducted to extend DBPedia with knowledge from Common
Crawl shows that our system is not only scalable but...
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arxiv_org:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and... https://t.co/DgCt5UR7vo https://t.co/jL19zQCEIl
BrundageBot:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation. Alfio Gliozzo, Michael R. Glass, Sarthak Dash, and Mustafa Canim https://t.co/2zukydGiLf
arxivml:
"Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation",
Alfio Gliozz…
https://t.co/DsD6m7K2nQ
arxiv_cscl:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation https://t.co/OBOkZsIKXH
arxiv_cscl:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation https://t.co/OBOkZsIKXH
arxiv_cscl:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation https://t.co/OBOkZt0lPf
arxiv_cscl:
Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation https://t.co/OBOkZsIKXH
HubBucket:
RT @arxiv_org: Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and... https://t.co/DgCt5UR7vo https://…
RexDouglass:
RT @arxiv_org: Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and... https://t.co/DgCt5UR7vo https://…
RexDouglass:
RT @arxiv_cscl: Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and Validation https://t.co/OBOkZt0lPf
fifcsml:
RT @arxiv_org: Populating Web Scale Knowledge Graphs using Distantly Supervised Relation Extraction and... https://t.co/DgCt5UR7vo https://…
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Authors: 4
Total Words: 6197
Unqiue Words: 1952
2.054 Mikeys
#9. Deep Reinforcement Learning for Foreign Exchange Trading
Chun-Chieh Wang, Yun-Cheng Tsai
Reinforcement learning can interact with the environment and is suitable for
applications in decision control systems. Therefore, we used the reinforcement
learning method to establish a foreign exchange transaction, avoiding the
long-standing problem of unstable trends in deep learning predictions. In the
system design, we optimized the Sure-Fire statistical arbitrage policy, set
three different actions, encoded the continuous price over a period of time
into a heat-map view of the Gramian Angular Field (GAF) and compared the Deep Q
Learning (DQN) and Proximal Policy Optimization (PPO) algorithms. To test
feasibility, we analyzed three currency pairs, namely EUR/USD, GBP/USD, and
AUD/USD. We trained the data in units of four hours from 1 August 2018 to 30
November 2018 and tested model performance using data between 1 December 2018
and 31 December 2018. The test results of the various models indicated that
favorable investment performance was achieved as long as the model was able to
handle complex and random processes and the...
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arxiv_org:
Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
peisuke:
ほう。 https://t.co/lGrAP38qzz
arxivml:
"Deep Reinforcement Learning for Foreign Exchange Trading",
Chun-Chieh Wang, Yun-Cheng Tsai
https://t.co/GpbOUTr3m4
arxiv_cs_LG:
Deep Reinforcement Learning for Foreign Exchange Trading. Chun-Chieh Wang and Yun-Cheng Tsai https://t.co/VAKGQqgsmT
SciFi:
Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/gcftM8TJVV
udmrzn:
RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
muktabh:
RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
fullNam35087976:
RT @arxivml: "Deep Reinforcement Learning for Foreign Exchange Trading",
Chun-Chieh Wang, Yun-Cheng Tsai
https://t.co/GpbOUTr3m4
puneethmishra:
RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
jajaldo:
RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
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RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
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RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
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RT @arxiv_org: Deep Reinforcement Learning for Foreign Exchange Trading. https://t.co/erZz0R9w47 https://t.co/DIhiLSWrLP
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#10. Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning
Ningyu Zhang, Shumin Deng, Zhanlin Sun, Jiaoyan Chen, Wei Zhang, Huajun Chen
Relation extraction aims to extract relational facts from sentences. Previous
models mainly rely on manually labeled datasets, seed instances or
human-crafted patterns, and distant supervision. However, the human annotation
is expensive, while human-crafted patterns suffer from semantic drift and
distant supervision samples are usually noisy. Domain adaptation methods enable
leveraging labeled data from a different but related domain. However, different
domains usually have various textual relation descriptions and different label
space (the source label space is usually a superset of the target label space).
To solve these problems, we propose a novel model of relation-gated adversarial
learning for relation extraction, which extends the adversarial based domain
adaptation. Experimental results have shown that the proposed approach
outperforms previous domain adaptation methods regarding partial domain
adaptation and can improve the accuracy of distance supervised relation
extraction through fine-tuning.
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BrundageBot:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning. Ningyu Zhang, Shumin Deng, Zhanlin Sun, Jiaoyan Chen, Wei Zhang, and Huajun Chen https://t.co/hG3KO1Dx1v
arxiv_in_review:
#AAAI2020 Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning. (arXiv:1908.08507v1 [cs\.LG]) https://t.co/3QeQGg7RlQ
arxivml:
"Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning",
Ningyu Zhang, Shumin Deng, Zha…
https://t.co/mkaqr7tNTA
StatsPapers:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning. https://t.co/q6rxjvxx4J
arxiv_cscl:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning https://t.co/fZUQfGLypG
arxiv_cscl:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning https://t.co/fZUQfGLypG
arxiv_cscl:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning https://t.co/fZUQfGtX16
arxiv_cscl:
Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning https://t.co/fZUQfGLypG
RexDouglass:
RT @arxiv_cscl: Transfer Learning for Relation Extraction via Relation-Gated Adversarial Learning https://t.co/fZUQfGtX16
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Authors: 6
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