Graph Neural Networks in Natural Language Processing

Deep neural networks are hegemonic approaches to many machine learning areas, including natural language processing (NLP). Thanks to the availability of large corpora collections and the capability of deep architectures to shape internal language mechanisms in self-supervised learning processes (also known as “pre-training”), versatile and performing models are released continuously for every new network design. These networks, somehow, learn a probability distribution of words and relations across the training collection used, inheriting the potential flaws, inconsistencies and biases contained in such a collection. As pre-trained models have been found to be very useful approaches to transfer learning, dealing with bias has become a relevant issue in this new scenario. We introduce bias in a formal way and explore how it has been treated in several networks, in terms of detection and correction. In addition, available resources are identified and a strategy to deal with bias in deep NLP is proposed.

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Natural Language Processing with Subsymbolic Neural Networks

Neural Network Perspectives on Cognition and Adaptive Robotics ◽

10.1201/9780367813239-8 ◽

2019 ◽

pp. 120-139

Author(s):

Risto Miikkulainen

Keyword(s):

Neural Networks ◽

Natural Language Processing ◽

Natural Language ◽

Language Processing

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Prediction of Emergency Department Hospital Admission Based on Natural Language Processing and Neural Networks

Methods of Information in Medicine ◽

10.3414/me17-01-0024 ◽

2017 ◽

Vol 56 (05) ◽

pp. 377-389 ◽

Cited By ~ 21

Author(s):

Xingyu Zhang ◽

Joyce Kim ◽

Rachel E. Patzer ◽

Stephen R. Pitts ◽

Aaron Patzer ◽

...

Keyword(s):

Neural Network ◽

Neural Networks ◽

Emergency Department ◽

Logistic Regression ◽

Natural Language Processing ◽

Natural Language ◽

Hospital Admission ◽

Language Processing ◽

Predictive Accuracy ◽

Free Text

SummaryObjective: To describe and compare logistic regression and neural network modeling strategies to predict hospital admission or transfer following initial presentation to Emergency Department (ED) triage with and without the addition of natural language processing elements.Methods: Using data from the National Hospital Ambulatory Medical Care Survey (NHAMCS), a cross-sectional probability sample of United States EDs from 2012 and 2013 survey years, we developed several predictive models with the outcome being admission to the hospital or transfer vs. discharge home. We included patient characteristics immediately available after the patient has presented to the ED and undergone a triage process. We used this information to construct logistic regression (LR) and multilayer neural network models (MLNN) which included natural language processing (NLP) and principal component analysis from the patient’s reason for visit. Ten-fold cross validation was used to test the predictive capacity of each model and receiver operating curves (AUC) were then calculated for each model.Results: Of the 47,200 ED visits from 642 hospitals, 6,335 (13.42%) resulted in hospital admission (or transfer). A total of 48 principal components were extracted by NLP from the reason for visit fields, which explained 75% of the overall variance for hospitalization. In the model including only structured variables, the AUC was 0.824 (95% CI 0.818-0.830) for logistic regression and 0.823 (95% CI 0.817-0.829) for MLNN. Models including only free-text information generated AUC of 0.742 (95% CI 0.7310.753) for logistic regression and 0.753 (95% CI 0.742-0.764) for MLNN. When both structured variables and free text variables were included, the AUC reached 0.846 (95% CI 0.839-0.853) for logistic regression and 0.844 (95% CI 0.836-0.852) for MLNN.Conclusions: The predictive accuracy of hospital admission or transfer for patients who presented to ED triage overall was good, and was improved with the inclusion of free text data from a patient’s reason for visit regardless of modeling approach. Natural language processing and neural networks that incorporate patient-reported outcome free text may increase predictive accuracy for hospital admission.

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Word Recognition as a First Step Towards Natural Language Processing with Artificial Neural Networks

Konnektionismus in Artificial Intelligence und Kognitionsforschung - Informatik-Fachberichte ◽

10.1007/978-3-642-76070-9_27 ◽

1990 ◽

pp. 221-225 ◽

Cited By ~ 1

Author(s):

Renate Deffner ◽

Klaus Eder ◽

Hans Geiger

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Natural Language Processing ◽

Word Recognition ◽

Natural Language ◽

Language Processing ◽

Artificial Neural

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Advances in Computational Linguistics and Text Processing Frameworks

Advances in Computer and Electrical Engineering - Handbook of Research on Engineering Innovations and Technology Management in Organizations ◽

10.4018/978-1-7998-2772-6.ch012 ◽

2020 ◽

pp. 217-244

Author(s):

Ayush Srivastav ◽

Hera Khan ◽

Amit Kumar Mishra

Keyword(s):

Neural Networks ◽

Natural Language Processing ◽

Natural Language ◽

Computational Linguistics ◽

Language Processing ◽

Text Processing ◽

Named Entity Recognition ◽

Entity Recognition ◽

Named Entity ◽

Part Of Speech

The chapter provides an eloquent account of the major methodologies and advances in the field of Natural Language Processing. The most popular models that have been used over time for the task of Natural Language Processing have been discussed along with their applications in their specific tasks. The chapter begins with the fundamental concepts of regex and tokenization. It provides an insight to text preprocessing and its methodologies such as Stemming and Lemmatization, Stop Word Removal, followed by Part-of-Speech tagging and Named Entity Recognition. Further, this chapter elaborates the concept of Word Embedding, its various types, and some common frameworks such as word2vec, GloVe, and fastText. A brief description of classification algorithms used in Natural Language Processing is provided next, followed by Neural Networks and its advanced forms such as Recursive Neural Networks and Seq2seq models that are used in Computational Linguistics. A brief description of chatbots and Memory Networks concludes the chapter.

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A Matter of Perspective

Legal Regulations, Implications, and Issues Surrounding Digital Data - Advances in Information Security, Privacy, and Ethics ◽

10.4018/978-1-7998-3130-3.ch010 ◽

2020 ◽

pp. 182-202

Author(s):

Katie Miller

Keyword(s):

Artificial Intelligence ◽

Neural Networks ◽

Human Rights ◽

Natural Language Processing ◽

Natural Language ◽

Language Processing ◽

Equal Opportunity ◽

Facial Recognition ◽

Phone Service

The challenge presented is an age when some decisions are made by humans, some are made by AI, and some are made by a combination of AI and humans. For the person refused housing, a phone service, or employment, the experience is the same, but the ability to understand what has happened and obtain a remedy may be very different if the discrimination is attributable to or contributed by an AI system. If we are to preserve the policy intentions of our discrimination, equal opportunity, and human rights laws, we need to understand how discrimination arises in AI systems; how design in AI systems can mitigate such discrimination; and whether our existing laws are adequate to address discrimination in AI. This chapter endeavours to provide this understanding. In doing so, it focuses on narrow but advanced forms of artificial intelligence, such as natural language processing, facial recognition, and cognitive neural networks.

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