Mourad Gridach scite author profile

Biomedical named entity recognition (BNER), which extracts important named entities such as genes and proteins, is a challenging task in automated systems that mine knowledge in biomedical texts. The previous state-of-the-art systems required large amounts of task-specific knowledge in the form of feature engineering, lexicons and data pre-processing to achieve high performance. In this paper, we introduce a novel neural network architecture that benefits from both word- and character-level representations automatically, by using a combination of bidirectional long short-term memory (LSTM) and conditional random field (CRF) eliminating the need for most feature engineering tasks. We evaluate our system on two datasets: JNLPBA corpus and the BioCreAtIvE II Gene Mention (GM) corpus. We obtained state-of-the-art performance by outperforming the previous systems. To the best of our knowledge, we are the first to investigate the combination of deep neural networks, CRF, word embeddings and character-level representation in recognizing biomedical named entities.

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Deep learning for detection and segmentation of artefact and disease instances in gastrointestinal endoscopy

Ali

Dmitrieva

Ghatwary

et al. 2021

Medical Image Analysis

103

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Churn Identification in Microblogs using Convolutional Neural Networks with Structured Logical Knowledge

Gridach¹,

Haddad²,

Mulki³

2017

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For brands, gaining new customer is more expensive than keeping an existing one. Therefore, the ability to keep customers in a brand is becoming more challenging these days. Churn happens when a customer leaves a brand to another competitor. Most of the previous work considers the problem of churn prediction using CDRs. In this paper, we use micro-posts to classify customers into churny or nonchurny. We explore the power of CNNs since they achieved state-of-the-art in various computer vision and NLP applications. However, the robustness of end-toend models has some limitations such as the availability of a large amount of labeled data and uninterpretability of these models. We investigate the use of CNNs augmented with structured logic rules to overcome or reduce this issue. We developed our system called Churn teacher by using an iterative distillation method that transfers the knowledge, extracted using just the combination of three logic rules, directly into the weight of Deep Neural Networks (DNNs). Furthermore, we used weight normalization to speed up training our convolutional neural networks. Experimental results showed that with just these three rules, we were able to get state-of-the-art on publicly available Twitter dataset about three Telecom brands.

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Empirical Evaluation of Word Representations on Arabic Sentiment Analysis

Gridach

Haddad

Mulki

2018

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PyDiNet: Pyramid Dilated Network for medical image segmentation

Gridach¹

2021

Neural Networks

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Mourad Gridach

Character-level neural network for biomedical named entity recognition

Deep learning for detection and segmentation of artefact and disease instances in gastrointestinal endoscopy

Churn Identification in Microblogs using Convolutional Neural Networks with Structured Logical Knowledge

Empirical Evaluation of Word Representations on Arabic Sentiment Analysis

PyDiNet: Pyramid Dilated Network for medical image segmentation

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