Generation of Realistic Navigation Paths for Web Site Testing Using Recurrent Neural Networks and Generative Adversarial Neural Networks

Generation of Realistic Navigation Paths for Web Site Testing Using RNN and GAN

Journal of Web Engineering ◽

10.13052/jwe1540-9589.20816 ◽

2021 ◽

Author(s):

Silvio Pavanetto ◽

Marco Brambilla

Keyword(s):

Neural Networks ◽

Web Sites ◽

Recurrent Neural Networks ◽

Lower Cost ◽

Automated Testing ◽

Learning Approaches ◽

Site Testing ◽

Model Driven ◽

Program Testing ◽

Development Tools

For applications that have not yet been launched, a reliable way for creating online navigation logs may be crucial, enabling developers to test their products as though they were being used by real users. This might lead to faster and lower-cost program testing and enhancement, especially in terms of usability and interaction. In this work we propose a method for using deep learning approaches such as recurrent neural networks (RNN) and generative adversarial neural networks (GANN) to produce high-quality weblogs. Eventually, we can utilize the created data for automated testing and improvement of Web sites prior to their release with the aid of model-driven development tools such as IFML Editor.

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Spike timing-dependent plasticity in sparse recurrent neural networks

IEICE Proceeding Series ◽

10.15248/proc.1.485 ◽

2014 ◽

Vol 1 ◽

pp. 485-488

Author(s):

Hideyuki Kato ◽

Tohru Ikeguchi

Keyword(s):

Neural Networks ◽

Recurrent Neural Networks ◽

Spike Timing ◽

Spike Timing Dependent Plasticity ◽

Dependent Plasticity

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Direct Adaptive Control of Process Systems Using Recurrent Neural Networks

1992 American Control Conference ◽

10.23919/acc.1992.4792020 ◽

1992 ◽

Author(s):

Sanjay Parthasarathy ◽

Alexander G. Parlos ◽

Amir F. Atiya

Keyword(s):

Neural Networks ◽

Adaptive Control ◽

Recurrent Neural Networks ◽

Process Systems ◽

Direct Adaptive Control

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L2 approximation properties of recurrent neural networks

1997 European Control Conference (ECC) ◽

10.23919/ecc.1997.7082360 ◽

1997 ◽

Cited By ~ 1

Author(s):

A. Ruiz ◽

D.H. Owens ◽

S. Townley

Keyword(s):

Neural Networks ◽

Recurrent Neural Networks ◽

Approximation Properties

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Levenshtein Augmentation Improves Performance of SMILES Based Deep-Learning Synthesis Prediction

10.26434/chemrxiv.12562121 ◽

2020 ◽

Author(s):

Dean Sumner ◽

Jiazhen He ◽

Amol Thakkar ◽

Ola Engkvist ◽

Esben Jannik Bjerrum

Keyword(s):

Neural Networks ◽

Pattern Recognition ◽

Deep Learning ◽

Recurrent Neural Networks ◽

Data Augmentation ◽

State Of The Art ◽

Sequence Similarity ◽

Learning Models ◽

Underlying Network

<p>SMILES randomization, a form of data augmentation, has previously been shown to increase the performance of deep learning models compared to non-augmented baselines. Here, we propose a novel data augmentation method we call “Levenshtein augmentation” which considers local SMILES sub-sequence similarity between reactants and their respective products when creating training pairs. The performance of Levenshtein augmentation was tested using two state of the art models - transformer and sequence-to-sequence based recurrent neural networks with attention. Levenshtein augmentation demonstrated an increase performance over non-augmented, and conventionally SMILES randomization augmented data when used for training of baseline models. Furthermore, Levenshtein augmentation seemingly results in what we define as <i>attentional gain </i>– an enhancement in the pattern recognition capabilities of the underlying network to molecular motifs.</p>

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