Your search keyword '"information extractions"' showing total 4 results

1. Using machine learning to extract information and predict outcomes from reports of randomised trials of smoking cessation interventions in the Human Behaviour-Change Project [version 1; peer review: 2 approved, 1 approved with reservations]

Author

Pol Mac Aonghusa, Alison J. Wright, Robert West, Janna Hastings, Yufang Hou, Alison O'Mara-Eves, Francesca Bonin, Martin Gleize, Susan Michie, Marie Johnston, and James Thomas

Subjects

behaviour change interventions, artificial intelligence, machine learning, natural language processing, prediction systems, information extractions, eng, Medicine, Science

Abstract

Background Using reports of randomised trials of smoking cessation interventions as a test case, this study aimed to develop and evaluate machine learning (ML) algorithms for extracting information from study reports and predicting outcomes as part of the Human Behaviour-Change Project. It is the first of two linked papers, with the second paper reporting on further development of a prediction system. Methods Researchers manually annotated 70 items of information (‘entities’) in 512 reports of randomised trials of smoking cessation interventions covering intervention content and delivery, population, setting, outcome and study methodology using the Behaviour Change Intervention Ontology. These entities were used to train ML algorithms to extract the information automatically. The information extraction ML algorithm involved a named-entity recognition system using the ‘FLAIR’ framework. The manually annotated intervention, population, setting and study entities were used to develop a deep-learning algorithm using multiple layers of long-short-term-memory (LSTM) components to predict smoking cessation outcomes. Results The F1 evaluation score, derived from the false positive and false negative rates (range 0-1), for the information extraction algorithm averaged 0.42 across different types of entity (SD=0.22, range 0.05-0.88) compared with an average human annotator’s score of 0.75 (SD=0.15, range 0.38-1.00). The algorithm for assigning entities to study arms (e.g., intervention or control) was not successful. This initial ML outcome prediction algorithm did not outperform prediction based just on the mean outcome value or a linear regression model. Conclusions While some success was achieved in using ML to extract information from reports of randomised trials of smoking cessation interventions, we identified major challenges that could be addressed by greater standardisation in the way that studies are reported. Outcome prediction from smoking cessation studies may benefit from development of novel algorithms, e.g., using ontological information to inform ML (as reported in the linked paper (1)).

Published

2023

2. Using machine learning to extract information and predict outcomes from reports of randomised trials of smoking cessation interventions in the Human Behaviour-Change Project.

Author

West R, Bonin F, Thomas J, Wright AJ, Mac Aonghusa P, Gleize M, Hou Y, O'Mara-Eves A, Hastings J, Johnston M, and Michie S

Abstract

Background   Using reports of randomised trials of smoking cessation interventions as a test case, this study aimed to develop and evaluate machine learning (ML) algorithms for extracting information from study reports and predicting outcomes as part of the Human Behaviour-Change Project. It is the first of two linked papers, with the second paper reporting on further development of a prediction system. Methods   Researchers manually annotated 70 items of information ('entities') in 512 reports of randomised trials of smoking cessation interventions covering intervention content and delivery, population, setting, outcome and study methodology using the Behaviour Change Intervention Ontology. These entities were used to train ML algorithms to extract the information automatically. The information extraction ML algorithm involved a named-entity recognition system using the 'FLAIR' framework. The manually annotated intervention, population, setting and study entities were used to develop a deep-learning algorithm using multiple layers of long-short-term-memory (LSTM) components to predict smoking cessation outcomes. Results   The F1 evaluation score, derived from the false positive and false negative rates (range 0-1), for the information extraction algorithm averaged 0.42 across different types of entity (SD=0.22, range 0.05-0.88) compared with an average human annotator's score of 0.75 (SD=0.15, range 0.38-1.00). The algorithm for assigning entities to study arms ( e.g. , intervention or control) was not successful. This initial ML outcome prediction algorithm did not outperform prediction based just on the mean outcome value or a linear regression model. Conclusions   While some success was achieved in using ML to extract information from reports of randomised trials of smoking cessation interventions, we identified major challenges that could be addressed by greater standardisation in the way that studies are reported. Outcome prediction from smoking cessation studies may benefit from development of novel algorithms, e.g. , using ontological information to inform ML (as reported in the linked paper 3 )., Competing Interests: Competing interests: RW and SM are unpaid directors of the Unlocking Behaviour Change Community Interest Company., (Copyright: © 2023 West R et al.)

Published

2023

3. Automatic extraction of requirements-related information from regulatory documents cited in the project contract

Author

Fotouhi, Sara

Subjects

information extractions, Elasticsearch, Regulatory compliance, External cross-references, Dependency parsing

Abstract

[Context and motivation] Project contracts for building a system contain a large number of cross-references to regulatory documents such as environmental regulations, quality standards, and regulatory “codes”. The system being developed must comply with regulatory requirements in such documents. Thus, a domain expert needs to read and interpret the relevant regulatory documents. [Problem] This can be an arduous and time-consuming task in large projects because the relevant regulatory requirements may be scattered across numerous regulatory documents. [Principal idea and novelty] The text prior to or following an external cross-reference in a contract contains information that can assist in automatically locating relevant information from the target regulatory documents. This study used dependency parsing, Part of Speech tagging and Regular Expression to extract the Target Phrase, which is the text referencing more elaborate content in the cited external document, and the target position, which is the location of the referenced text within the external document. The study then conducted a search operation using Elasticsearch and query DSL to retrieve relevant information from the cited legal documents and standards. [Research Contribution] This thesis describes a software solution that, to our knowledge, for the first time automatically extracts requirement-related information from external documents cross-referenced in the contract. [Conclusion] The final output displays the relevant text, the content of relevant pages and the page number for a corresponding regulatory requirement ordered by relevance score. For Target Phrase extraction, we obtained Precision = 0.81, Recall = 0.98 and F-measure = 0.89. We obtained Precision = 1 and Recall = 1 in target position extraction. Automatically extracting the relevant information from disparate sources will save an enormous amount of time and reduce workload for requirement analysts and domain experts.

Published

2021

4. Semantic sensor information description and processing

Author

Huang, V., Javed, Muhammad Kashif, Huang, V., and Javed, Muhammad Kashif

Abstract

Wireless sensor networks (WSN) generate large volumes of raw data which possess natural heterogeneity. WSNs are normally application specific with no sharing or reusability of sensor data among applications. In order for applications and services to be developed independently of particular WSNs, sensor data need to be enriched with semantic information. In this paper, we propose a Semantic Web Architecture for Sensor Networks (SWASN). This information oriented architecture allows the sensor data to be understood and processed in a meaningful way by a variety of applications with different purposes. We develop ontologies for sensor data and use the Jena API for processing which includes querying and inference over sensor data. By studying a building fire emergency scenario, we show that semantic web technologies can provide high level information extraction and inference of sensor data., QC 20141023

Published

2008