<i>In silico</i> modeling is a crucial milestone in modern drug design and development. Although computer-aided approaches in this field are well-studied, the application of deep learning methods in this research area is at the beginning. In this work, we present an original deep neural network (DNN) architecture named RANC (Reinforced Adversarial Neural Computer) for the <i>de novo</i> design of novel small-molecule organic structures based on the generative adversarial network (GAN) paradigm and reinforcement learning (RL). As a generator RANC uses a differentiable neural computer (DNC), a category of neural networks, with increased generation capabilities due to the addition of an explicit memory bank, which can mitigate common problems ...
This work introduces a method to tune a sequence-based generative model for molecular de novo design...
© 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group. Introduction: Deep discrimin...
Machine learning (ML) and Artificial Intelligence (AI) have had a renaissance during the last few ye...
In this article, we propose the deep neural network Adversarial Threshold Neural Computer (ATNC). Th...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
Generative artificial intelligence models present a fresh approach to chemogenomics and de novo drug...
In de novo drug design, computational strategies are used to generate novel molecules with good affi...
In <i>de novo</i> drug design, computational strategies are used to generate novel molecules with go...
Drug discovery benefits from computational models aiding the identification of new chemical matter w...
Deep learning has acquired considerable momentum over the past couple of years in the domain of de-n...
In medicinal chemistry programs it is key to design and make compounds that are efficacious and safe...
De novo drug design is a computational approach that generates novel molecular structures from atomi...
We describe a method for construction of specific types of Neural Networks composed of structures di...
Over the last five years deep learning has progressed tremendously in both image recognition and nat...
This work introduces a method to tune a sequence-based generative model for molecular de novo design...
© 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group. Introduction: Deep discrimin...
Machine learning (ML) and Artificial Intelligence (AI) have had a renaissance during the last few ye...
In this article, we propose the deep neural network Adversarial Threshold Neural Computer (ATNC). Th...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
Generative artificial intelligence models present a fresh approach to chemogenomics and de novo drug...
In de novo drug design, computational strategies are used to generate novel molecules with good affi...
In <i>de novo</i> drug design, computational strategies are used to generate novel molecules with go...
Drug discovery benefits from computational models aiding the identification of new chemical matter w...
Deep learning has acquired considerable momentum over the past couple of years in the domain of de-n...
In medicinal chemistry programs it is key to design and make compounds that are efficacious and safe...
De novo drug design is a computational approach that generates novel molecular structures from atomi...
We describe a method for construction of specific types of Neural Networks composed of structures di...
Over the last five years deep learning has progressed tremendously in both image recognition and nat...
This work introduces a method to tune a sequence-based generative model for molecular de novo design...
© 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group. Introduction: Deep discrimin...
Machine learning (ML) and Artificial Intelligence (AI) have had a renaissance during the last few ye...