Your search keyword '"Coenen F"' showing total 4 results

1. Weakly supervised learning of RNA modifications from low-resolution epitranscriptome data.

Author

Huang D, Song B, Wei J, Su J, Coenen F, and Meng J

Subjects

Algorithms, Protein Binding, Sequence Analysis, RNA, Supervised Machine Learning, RNA genetics, RNA metabolism, Software

Abstract

Motivation: Increasing evidence suggests that post-transcriptional ribonucleic acid (RNA) modifications regulate essential biomolecular functions and are related to the pathogenesis of various diseases. Precise identification of RNA modification sites is essential for understanding the regulatory mechanisms of RNAs. To date, many computational approaches for predicting RNA modifications have been developed, most of which were based on strong supervision enabled by base-resolution epitranscriptome data. However, high-resolution data may not be available., Results: We propose WeakRM, the first weakly supervised learning framework for predicting RNA modifications from low-resolution epitranscriptome datasets, such as those generated from acRIP-seq and hMeRIP-seq. Evaluations on three independent datasets (corresponding to three different RNA modification types and their respective sequencing technologies) demonstrated the effectiveness of our approach in predicting RNA modifications from low-resolution data. WeakRM outperformed state-of-the-art multi-instance learning methods for genomic sequences, such as WSCNN, which was originally designed for transcription factor binding site prediction. Additionally, our approach captured motifs that are consistent with existing knowledge, and visualization of the predicted modification-containing regions unveiled the potentials of detecting RNA modifications with improved resolution., Availability Implementation: The source code for the WeakRM algorithm, along with the datasets used, are freely accessible at: https://github.com/daiyun02211/WeakRM., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2021. Published by Oxford University Press.)

Published

2021

2. MetaTX: deciphering the distribution of mRNA-related features in the presence of isoform ambiguity, with applications in epitranscriptome analysis.

Author

Wang Y, Chen K, Wei Z, Coenen F, Su J, and Meng J

Subjects

Protein Isoforms genetics, RNA, Messenger genetics, Algorithms, Software

Abstract

Motivation: The distribution of biological features strongly indicates their functional relevance. Compared to DNA-related features, deciphering the distribution of mRNA-related features is non-trivial due to the existence of isoform ambiguity and compositional diversity of mRNAs., Results: We propose here a rigorous statistical framework, MetaTX, for deciphering the distribution of mRNA-related features. Through a standardized mRNA model, MetaTX firstly unifies various mRNA transcripts of diverse compositions, and then corrects the isoform ambiguity by incorporating the overall distribution pattern of the features through an EM algorithm. MetaTX was tested on both simulated and real data. Results suggested that MetaTX substantially outperformed existing direct methods on simulated datasets, and that a more informative distribution pattern was produced for all the three datasets tested, which contain N6-Methyladenosine sites generated by different technologies. MetaTX should make a useful tool for studying the distribution and functions of mRNA-related biological features, especially for mRNA modifications such as N6-Methyladenosine., Availability and Implementation: The MetaTX R package is freely available at GitHub: https://github.com/yue-wang-biomath/MetaTX.1.0., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

3. Combining Task Execution and Background Knowledge for the Verification of Medical Guidelines

Author

Hommersom, A.J., Groot, P.C., Lucas, P., Balser, M., Schmitt, J., Bramer, M., Coenen, F., Tuson, A., Bramer, M., Coenen, F., and Tuson, A.

Subjects

Information Systems and Management, Information Retrieval and Information Systems, Research and Development in Intelligent Systems, business.industry, Computer science, media_common.quotation_subject, Proof assistant, Guideline, Symbolic execution, computer.software_genre, Medical guideline, Management Information Systems, Conjunction (grammar), Task (project management), Artificial Intelligence, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Quality (business), Data mining, Software engineering, business, computer, Security of Systems, Software, media_common

Abstract

The use of a medical guideline can be seen as the execution of computational tasks, sequentially or in parallel, in the face of patient data. It has been shown that many of such guidelines can be represented as a 'network of tasks', i.e., as a number of steps that have a specific function or goal. To investigate the quality of such guidelines we propose a formalization of criteria for good practice medicine a guideline should comply to. We use this theory in conjunction with medical background knowledge to verify the quality of a guideline dealing with diabetes mellitus type 2 using the interactive theorem prover KIV. Verification using task execution and background knowledge is a novel approach to quality checking of medical guidelines.

Published

2007

4. Resource Allocation in Communication Networks Using Market-Based Agents

Author

Luc Moreau, Nadim Haque, Nicholas R. Jennings, Bramer, M, Coenen, F, Allen, T, Bramer, Max, Coenen, Frans, and Allen, Tony

Subjects

Technology, Information Systems and Management, Computer science, Distributed computing, resource allocation, Computer Science, Artificial Intelligence, Management Information Systems, 17 Psychology And Cognitive Sciences, Reverse auction, Resource (project management), Artificial Intelligence, Order (exchange), communication network, markets, Bandwidth (computing), Artificial Intelligence & Image Processing, 08 Information And Computing Sciences, Science & Technology, business.industry, Reservation, Telecommunications network, agents, Software agent, Max-min fairness, Computer Science, 15 Commerce, Management, Tourism And Services, Resource allocation, business, Software, Computer network

Abstract

This work describes a system that allocates end-to-end bandwidth, in a switched meshed communications network. The solution makes use of market-based software agents that compete in a number of decentralised marketplaces to buy and sell bandwidth resources. Agents perform a distributed depth first search with decentralised markets in order to allocate routes for calls. The approach relies on a resource reservation and commit mechanism in the network. Initial results show that under a light network load, the system sets up a high percentage of calls which is comparable to the optimum value and that, under all network loads, it performs significantly better than a random strategy.

Published

2007