Vassiliki Andronikou

Managing service level agreement contracts in OGSA-based Grids

Grids and mobile Grids can form the basis and the enabling technology for pervasive and utility computing due to their ability to be open, highly heterogeneous and scalable. However, the process of selecting the appropriate resources and initiating the execution of a job is not enough to provide quality in a dynamic environment such as a mobile Grid, where changes are numerous, highly variable and with unpredictable effects. In this paper we present a scheme for advancing and managing Quality of Service (QoS) attributes contained in Service Level Agreement (SLA) contracts of Grids that follow the Open Grid Services Architecture (OGSA). In order to achieve this, the execution environment of the Grid infrastructure establishes and exploits the synergies between the various modules of the architecture that participate in the management of the execution and the enforcement of the SLA contractual terms. We introduce an Execution Management Service which is in collaboration with both the application services and the network services in order to provide an adjustable quality of the requested services. The components that manage and control the execution in the Grid environment interact with the suit of the SLA-related services exchanging information that is used to provide the quality framework of the execution with respect to the agreed contractual terms. The described scheme has been implemented in the framework of the Akogrimo IST project.

A novel query rewriting mechanism for semantically interlinking clinical research with electronic health records

Electronic Health Records (EHRs) contain a rapidly increasing volume of data which is, in general, distributed in autonomous heterogeneous databases. An emerging trend is the secondary use of such data (in most cases anonymized for privacy reasons), for purposes other than healthcare, such as for generating accurate disorder epidemiology datasets, real world treatment progress assessment and patient selection for clinical trials among others. The structure and purpose of the EHRs pose significant limitations in the richness and the complexity of the questions to be posed. In fact, the latter case introduces a greater challenge; it requires that two different domains (in terms of semantics) need to be interlinked - clinical research and healthcare. This paper aims at presenting a novel SPARQL query rewriting mechanism as part of an ontology-based approach for interlinking clinical research with healthcare EHRs for supporting automatic selection of patients who satisfy the eligibility criteria of clinical trials.

Case-based approach using behavioural biometrics aimed at Assisted Living

Behavioural biometrics aims at providing means of automating the recognition of a person’s behavioral traits in every-day life, derived from specific actions, attitude, expressions and general conduct. Behavioural biometrics recognition and profiling systems should incorporate reliable schemes to determine and ascertain the psychological and physical status of a person. Behavioural biometrics find a special field of application in the case of Assisted Living, in which individuals suffering from various diseases in different stages need supervision in their daily activities as they cannot function on their own or are in need of help—minor or not. By using biometrics, unobtrusive support for daily life activities can be provided to elderly people through smart interfaces incorporating emotion classification, movement detection, person identification, pattern and activity recognition techniques integrated in their personal environment. Thus, an elderly individual’s mood and activities could be determined and appropriate solutions suggested by the system, such as calls for help in case of a fall and alarms to relatives or doctors, and all this inside the framework of “what are the patient’s actions and status”.

A novel semantic representation for eligibility criteria in clinical trials

Eligibility Criteria (EC) comprise an important part of a clinical study, being determinant of its cost, duration and overall success. Their formal, computer-processable description can significantly improve clinical trial design and conduction by enabling their intelligent processing, replicability and linkability with other data. For EC representation purposes, related standards were investigated, along with published literature. Moreover, a considerable number of clinicaltrials.gov studies was analyzed in collaboration with clinical experts for the determination and classification of parameters of clinical research importance. The outcome of this process was the EC Representation; a CDISC-compliant schema for organizing criteria along with a patient-centric model for their formal expression, properly linked with international classifications and codifications. Its evaluation against 200 randomly selected EC indicated that it can adequately serve its purpose, while it can be also combined with existing tools and components developed for both EC specification and especially application to Electronic Health Records.

Meaning Inference of Abbreviations Appearing in Clinical Studies

The number of publicly available clinical studies is constantly increasing, formulating a rather promising corpus of documents for clinical research purposes. However, the abbreviations used in these studies pose a serious barrier to any text mining technique. This paper presents a study conducted in the above domain, which used specifically developed tools and mechanisms in order to process a number of randomly selected documents from clinicaltrialsregister.eu. The analysis performed indicated that abbreviations appear at a large scale without their long form (aka expansion). In order to assess the abbreviations’ true meaning, it is necessary to utilize the appropriate corpus of documents, apply innovative algorithms and techniques to detect their possible expansions, and accordingly select the appropriate ones. Furthermore, the discrimination power of tokens has a distinctive role in abbreviations construction, and hence, it can facilitate the detection of acronym-type abbreviations. Additionally, the expressions in which abbreviations appear, as well as the preceding or following text are of primary importance for selecting the appropriate meaning.

The OpenScienceLink architecture for novel services exploiting open access data in the biomedical domain

The rapidly growing wealth of published scientific work, produced by researchers and scholars, has resulted in a pressing need for more effective processes towards reviewing scientific articles and research data, organizing data journals, as well as for improved tools and techniques for bibliographic analysis and management of scientometrics. The ongoing EU research project OpenScienceLink aims to provide a remedy for the aforementioned problems, as well as offer a wide range of opportunities for better collaboration between researchers, by introducing a web based Platform which offers efficient and intelligent added-value applications and services for exploiting open access scientific information in the biomedical domain. The Platform is empowered by the semantic and social networking capabilities of three leading edge background infrastructures, which have been adapted and integrated for the scopes of the project. In this paper, we present the architecture of the first iteration of the OpenScienceLink Platform, including detailed information regarding the integration of the background infrastructures and services, as well as the open access data sources utilized.

A Classification of NoSQL Data Stores Based on Key Design Characteristics

Abstract Traditional Relational Database Management Systems are continuously being replaced by NoSQL data stores as a result of the growing demand for big data applications. The emergence of a large number of implementations of such like systems is a contributing indicator. This paper deals with the analysis of some key design characteristics of NoSQL systems and uses these for their characterization based on their capabilities. Furthermore, it highlights the relationship between NoSQL systems and cloud infrastructures and explains the impact that the existence of one has to the other.

An Advanced Query and Result Rewriting Mechanism for Information Retrieval Purposes from RDF Datasources

The volume and variety of data published on the Semantic Web is constantly increasing with a growing number of entities and stakeholders expressing their data in the form of OWL and/or RDFS ontologies. However, a large amount of data is still maintained in relational databases. The recent developments in SPARQL endpoints, such as D2R server, constitute an important step towards the introduction of relational databases in the Semantic Web. However, the underlying models are tightly linked with the data structure and controlled terminologies employed, and hence, they pose a serious barrier to accessing the data by using different languages. In our previous work, we presented an Ontology Alignment Tool for bridging the gap among the terms of two ontologies based on the instantiation of one or more Ontology Patterns. In this paper, we analytically describe a novel approach and an accordingly designed system for enabling users to access data residing in relational databases by using different models and vocabularies than the ones supported by the SPARQL endpoint. The approach is based on the specification and consumption of correspondences with particular focus on SPARQL query and RDF data rewriting mechanisms, which are responsible for making the necessary changes in the queries and optionally results retrieved from the SPARQL endpoint taking into account the models and vocabularies used in each side.

Semantic Interoperability Between Clinical Research and Healthcare: The PONTE Approach

The adoption of ICT technologies in healthcare for recording patients’ health events and progression in Electronic Health Records (EHRs) and Clinical Information Systems (CLIS) has led to a rapidly increasing volume of data which is, in general, distributed in autonomous heterogeneous databases. The secondary use of such data (commonly anonymised for privacy reasons) for purposes other than healthcare (such as patient selection for clinical trials) comprises an emerging trend. However, this trend encapsulates a great challenge; semantic interlinking of two different, yet highly related, domains (in terms of semantics) i.e., clinical research and healthcare. This paper aims at presenting an analysis of the heterogeneity issues met in this effort and describing the semantically-enabled multi-step process followed within the PONTE project for achieving the interlinking of these two domains for the provision of the size of the eligible patients for participation in a trial at the cooperating sites.

Exploiting Ontology Based Search and EHR Interoperability to Facilitate Clinical Trial Design

Clinical trials often fail to demonstrate beneficial effects and might overestimate the unwanted effects, with their results having low external validity. They focus on single interventions, whereas the clinical practice environment comprises various features that affect the efficacy, feasibility, duration and costs of a clinical trial. In this chapter we discuss PONTE, a platform which effectively guides medical researchers through clinical trial protocol design and offers intelligent services that address clinical needs, such as effective inclusion/exclusion criteria specification, intelligent search through a wide range of databases, clinical findings and background knowledge, and automated estimation of eligible patient population at cooperating healthcare entities. To the best of our knowledge, and to date, the PONTE platform is the first paradigm of an automated system that can effectively guide clinical trials protocol design, by linking data with drug, target and disease knowledge databases, clinical care and clinical research information systems, and guiding the users automatically though the whole pipeline of the clinical trial protocol design.