ELIXIR

NAR Database Paper

The new year started with a new publication, an article in the 2018 NAR Database issue about the IUPHAR Guide to Pharmacology Database.

My involvement came from Liam Bruce’s honours project. Liam developed the RDB2RDF mappings that convert the existing relational content into an RDF representation. The mappings are executed using the Morph-RDB R2RML engine.

To ensure that we abide by the FAIR data principles, we also generate machine processable metadata descriptions of the data that conform to the HCLS Community Profile.

Below is an altmetric donut so you can see what people are saying about the paper.

ISWC2017 Papers

I have had two papers accepted within the events that make up ISWC2017.

My PhD student Qianru Zhou has been working on using RDF stream processing to detect anomalous events through telecommunication network messages. The particular scenario in our paper that will be presented at the Web Stream Processing workshop focuses on detecting a disaster such as the capsizing of the Eastern Star on the Yangtze River [1].

The second paper is a poster in the main conference that provides an overview of the Bioschemas project where we are identifying the Schema.org markup that is of primary importance for life science resources. Hopefully the paper title will pull the punters in for the session [2].

[1] Qianru Zhou, Stephen McLaughlin, Alasdair J. G. Gray, Shangbin Wu, and Chengxiang Wang. Lost Silence: An emergency response early detection service through continuous processing of telecommunication data streams. In Web Stream Processing 2017, Vienna, Austria, oct 2017.
[Bibtex]
@InProceedings{ZhouEtal2017:LostSilence:WSP2017,
abstract = {Early detection of significant traumatic events, e.g. terrorist events, ship capsizes, is important to ensure that a prompt emergency response can occur. In the modern world telecommunication systems can and do play a key role in ensuring a successful emergency response by detecting such incidents through significant changes in calls and access to the networks. In this paper a methodology is illustrated to detect such incidents immediately (with the delay in the order of milliseconds), by processing semantically annotated streams of data in cellular telecommunication systems. In our methodology, live information of phones' positions and status are encoded as RDF streams. We propose an algorithm that processes streams of RDF annotated telecommunication data to detect abnormality. Our approach is exemplified in the context of capsize of a passenger cruise ship but is readily translatable to other incidents. Our evaluation results show that with properly chosen window size, such incidents can be detected effectively.},
author = {Qianru Zhou and Stephen McLaughlin and Alasdair J G Gray and Shangbin Wu and Chengxiang Wang},
title = {Lost Silence: An emergency response early detection service through continuous processing of telecommunication data streams},
OPTcrossref = {},
OPTkey = {},
booktitle = {Web Stream Processing 2017},
year = {2017},
OPTeditor = {},
OPTvolume = {},
OPTnumber = {},
OPTseries = {},
OPTpages = {},
month = oct,
address = {Vienna, Austria},
OPTorganization = {},
OPTpublisher = {},
OPTnote = {},
url = {http://ceur-ws.org/Vol-1936/paper-03.pdf},
OPTannote = {}
}
[2] Unknown bibtex entry with key [grayetal2017:bioschemas:iswc2017]
[Bibtex]

Supporting Dataset Descriptions in the Life Sciences

Seminar talk given at the EBI on 5 April 2017.

Abstract: Machine processable descriptions of datasets can help make data more FAIR; that is Findable, Accessible, Interoperable, and Reusable. However, there are a variety of metadata profiles for describing datasets, some specific to the life sciences and others more generic in their focus. Each profile has its own set of properties and requirements as to which must be provided and which are more optional. Developing a dataset description for a given dataset to conform to a specific metadata profile is a challenging process.

In this talk, I will give an overview of some of the dataset description specifications that are available. I will discuss the difficulties in writing a dataset description that conforms to a profile and the tooling that I’ve developed to support dataset publishers in creating metadata description and validating them against a chosen specification.