E-Book, Englisch, Band 1, 232 Seiten
Weerasinghe / Akan / Bellavista Electronic Healthcare
1. Auflage 2009
ISBN: 978-3-642-00413-1
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
First International Conference, eHealth 2008, London, September 8-9, 2008, Revised Selected Papers
E-Book, Englisch, Band 1, 232 Seiten
ISBN: 978-3-642-00413-1
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book constitutes the thoroughly refereed post-conference proceedings of the First International Conference on Electronic Healthcare for the 21st century, eHealth 2008, held in London, UK, in September 2008. Organized as a meeting point for telecare product vendors, policy makers, government ministers, academics, clinicians and all those involved in electronic and mobile health the eHealth conference provides a forum to examine and to share ideas contributing to the advancement of telecare into the 21st century.
The 21 revised full papers and 8 revised short papers presented together with 1 invited lecture were carefully reviewed and selected from the presentations at the conference. The papers cover various topics such as data mining for personalized healthcare services, healthcare supply chain management and implementing the electronic health record, diagnostics and intelligent real-time monitoring, human factors, policies, regulations and standards, interoperability solutions, security, privacy, trust and risk management, as well as novel telecare products. This volume is the first in the LNICST series that aims at serving the scientific community at large by deploying digital age access and use of information tools by putting knowledge in the service of digital economy and quality of life.
Autoren/Hrsg.
Weitere Infos & Material
1;Title Page;2
2;Preface;5
3;Organization;6
4;Table of Contents;8
5;Full Papers;8
5.1;Continuous Monitoring of Children with Suspected Cardiac Arrhythmias;11
5.1.1;Introduction;11
5.1.2;Example Cases;12
5.1.3;Methodology;13
5.1.4;System Architecture;15
5.1.5;Concluding Remarks;17
5.1.6;References;18
5.2;An Evaluation Framework for EU Research and Development e-Health Projects’ Systems;19
5.2.1;Introduction;19
5.2.2;Aims and Objectives;20
5.2.3;Methodology;21
5.2.3.1;STEP ONE: Evaluating the System’s Architecture;21
5.2.3.2;STEP TWO: Evaluating the System’s Software;22
5.2.3.3;STEP THREE: Evaluation of the Prototype;24
5.2.4;SAPHIRE Results;24
5.2.4.1;Architecture Analysis of SAPHIRE;24
5.2.4.2;SAPHIRE Software Evaluation Metrics;25
5.2.4.3;SAPHIRE Prototype Evaluation;25
5.2.5;Business Benefits – Conclusions;25
5.2.6;References;26
5.3;Health@Home – An e-Service Model for Disease Prevention and Healthcare in the Home;27
5.3.1;Introduction;27
5.3.2;Stakeholders in Home-Based Prevention and Healthcare;28
5.3.3;The Health@Home Service Model;29
5.3.4;Feasibility and Mid-Term Implementation Prospects;32
5.3.5;Conclusions;34
5.3.6;References;34
5.4;Agent-Based Simulation of Emergency Departments with Patient Diversion;35
5.4.1;Introduction;35
5.4.2;Applications;36
5.4.2.1;Local Area Patient Tracking;36
5.4.2.2;Wide Area ED Scenario;37
5.4.3;Visual Simulation Suite;38
5.4.3.1;Emergency Department Model;39
5.4.3.2;Basic Architecture;40
5.4.3.3;Data Driven Simulation;41
5.4.4;Simulations;42
5.4.4.1;Staffing Change Scenario;42
5.4.4.2;Data Infrastructure Scenario;44
5.4.5;Summary;46
5.4.6;References;46
5.5;Weird Project: E-Health Service Improvement Using WiMAX;48
5.5.1;Introduction;48
5.5.2;Service Framework;49
5.5.3;Equipment and Network Evolution;52
5.5.4;Privacy and Data Integrity;53
5.5.5;Telecommunication Technology;53
5.5.6;Weird Applications Scenario;54
5.5.7;E-Health Demo Scenarios;55
5.5.8;Conclusion;56
5.5.9;References;58
5.6;Data Management in an Intelligent Environment for Cognitive Disabled and Elderly People;60
5.6.1;Introduction;60
5.6.2;Project Principal Objectives;61
5.6.3;Platform Functionality;61
5.6.4;Data Management Mechanisms;63
5.6.4.1;Frame Sensor Adapter (FSA);63
5.6.4.2;Context Management;65
5.6.4.3;Enterprise Service Bus - ESB;65
5.6.5;Conclusions;66
5.6.6;References;67
5.7;3P: Personalized Pregnancy Prediction in IVF Treatment Process;68
5.7.1;Introduction;68
5.7.1.1;Machine Learning Methods in IVF Data Analysis;69
5.7.1.2;Proposed System for Embryo Implantation Prediction;69
5.7.2;Dataset Characteristics;70
5.7.3;SVM Classification;71
5.7.3.1;Performance Measures;72
5.7.4;Experiments and Results;73
5.7.4.1;Threats to Validity;74
5.7.5;Conclusions and Future Work;74
5.7.6;References;74
5.8;Bridging the Self-care Deficit Gap: Remote Patient Monitoring and the Hospital-at-Home;76
5.8.1;Introduction;76
5.8.2;Methods;77
5.8.3;Results;79
5.8.4;Discussion;80
5.8.5;Conclusion;82
5.8.6;References;83
5.9;Cognitive Network Infrastructures and Virtualization Platforms in Support of Healthcare Applications;84
5.9.1;Introduction;84
5.9.2;Indicative Healthcare Scenario;85
5.9.3;Wireless, B3G Systems;87
5.9.4;Service-Oriented Management Platform for Offering Virtualization and Cognition;88
5.9.5;Summary and Conclusions;90
5.9.6;References;91
5.10;Device Data Protection in Mobile Healthcare Applications;92
5.10.1;Introduction;92
5.10.2;Mobile Healthcare Architecture;94
5.10.3;Security Capsule Architecture;95
5.10.3.1;Request and Retrieval Unit;96
5.10.3.2;Identity Management Unit;96
5.10.3.3;Token Management Unit;96
5.10.3.4;Storage Unit;96
5.10.3.5;Decryption and Processing Unit;97
5.10.4;Token Management;97
5.10.4.1;Registration Token;98
5.10.4.2;Authorization Token;98
5.10.4.3;Trust Token;98
5.10.5;Conclusion;98
5.10.6;References;99
5.11;Persuasive Mobile Health Applications;100
5.11.1;Introduction;100
5.11.2;Heart Angel;101
5.11.2.1;Connectivity;102
5.11.2.2;Cardio-Respiratory Workouts;102
5.11.2.3;Persuasive Physical Exercise through User Feedback;104
5.11.3;Further Work;105
5.11.4;Conclusion;105
5.11.5;References;106
5.12;Teledermatology Helps Doctors and Hospitals to Serve Their Clients;108
5.12.1;Need for Change in Healthcare Delivery;108
5.12.2;Health Management Practice (HMP);109
5.12.2.1;Phase I: Telemedicine Development;109
5.12.2.2;Phase II and III: Health Management Research;109
5.12.2.3;Phase IV: Health Management Implementation;109
5.12.3;Success of Teledermatology in The Netherlands;110
5.12.3.1;Development: KSYOS Teledermatology Consultation System (TDCS®) as an Integrated Service;110
5.12.3.2;Research: Performance Indicators;110
5.12.3.3;Unique Health Worker Identification Pass Implementation;111
5.12.3.4;Number of Prevented Physical Referrals to the Dermatologist;111
5.12.3.5;Cost Reducing Effect of Teledermatology;111
5.12.3.6;Service for the Patient: Response Time of the Dermatologist;112
5.12.3.7;Perceived Benefits of TeleDermatologie;112
5.12.3.8;Implementation of Teledermatology;113
5.12.4;KSYOS TeleMedical Centre: The First Virtual Hospital in The Netherlands;113
5.12.5;TeleDermatology as a Service Tool for General Hospitals;114
5.13;AXARM: An Extensible Remote Assistance and Monitoring Tool for ND Telerehabilitation;116
5.13.1;Introduction;116
5.13.1.1;The Illness;116
5.13.1.2;TRiEM Project;117
5.13.2;AXARM: Beyond TRiEM;118
5.13.2.1;Refactoring;118
5.13.2.2;Plugins;119
5.13.3;The User Interface;121
5.13.4;Conclusions and Future Work;122
5.13.5;References;122
5.14;A Group Decision Support System for Staging of Cancer;124
5.14.1;Introduction;124
5.14.2;Group Decision Support;126
5.14.3;The Electronic Medical Record;127
5.14.4;The System;128
5.14.5;Conclusions and Future Work;129
5.14.6;References;130
5.15;A Trust Framework of Ubiquitous Healthcare with Advanced Petri Net Model;132
5.15.1;Introduction;132
5.15.2;Background;133
5.15.3;Building Trust with Advanced Petri Net Model;133
5.15.4;Modeling Trust Framework of Ubiquitous Healthcare;135
5.15.4.1;Modeling Healthcare Behaviors with Petri Net;135
5.15.4.2;Trust Framework of Ubiquitous Healthcare Based on Trust Activities withAdvanced Petri Net;137
5.15.5;Conclusion;138
5.15.6;References;139
5.16;PPEPR for Enterprise Healthcare Integration;140
5.16.1;Introduction;140
5.16.2;PPEPR: Plug and Play Electronic Patient Records;141
5.16.3;HL7, EPR, and PPEPR;141
5.16.4;PPEPR’s sSOA for EPR Integration;142
5.16.5;Example Scenario;143
5.16.6;PPEPR Assessment;144
5.16.7;Related Works;146
5.16.8;Conclusion and Future Work;146
5.16.9;References;147
5.17;VirtualECare: Intelligent Assisted Living;148
5.17.1;Introduction;148
5.17.1.1;Contextualization;149
5.17.2;Application Scenario;149
5.17.3;VirtualECare;150
5.17.3.1;Infrastructure;151
5.17.4;VirtualECare Simulation Environment;152
5.17.5;Conclusion;153
5.17.6;References;153
5.18;Privacy and Access Control for IHE-Based Systems;155
5.18.1;Introduction;155
5.18.2;Related Work;156
5.18.3;Background;156
5.18.3.1;Integrating the Healthcare Enterprise (IHE);156
5.18.3.2;Access Control;157
5.18.4;Security and Privacy Requirement;157
5.18.5;Design Model;158
5.18.5.1;Policy Types;158
5.18.5.2;Decision Making Process;159
5.18.5.3;Security Architecture;159
5.18.6;Prototypical Implementation;160
5.18.7;Conclusion and Future Work;162
5.18.8;References;162
5.19;An Avatar-Based Italian Sign Language Visualization System;164
5.19.1;Introduction;164
5.19.2;State of the Art;165
5.19.3;System Architecture and Organization;165
5.19.4;ISL Sentence Grammar;166
5.19.5;ISL Gestures;167
5.19.6;The Database;168
5.19.7;Graphic Engine Commands;169
5.19.8;Conclusion;170
5.19.9;References;170
5.20;Web Based Personal Nutrition Management Tool;171
5.20.1;Introduction;171
5.20.2;Method;172
5.20.3;The Nutrition Web Portal;172
5.20.4;Conclusions;175
5.20.5;References;175
5.21;Event-Based Data Dissemination Control in Healthcare;177
5.21.1;Introduction;177
5.21.2;Event-Driven Healthcare;178
5.21.2.1;Incidents in Homecare;178
5.21.3;Healthcare Information Protection;179
5.21.4;Event-Based Middleware;180
5.21.4.1;Middleware;180
5.21.4.2;Publish/Subscribe;180
5.21.4.3;Interaction Control;180
5.21.5;Cross-Domain Communication;181
5.21.6;Health Scenarios;182
5.21.7;Discussion and Conclusion;183
5.21.8;References;184
6;Short Papers;9
6.1;Decision Support Systems: Improving Levels of Care and Lowering Costs in Anticoagulation Therapy;185
6.1.1;Introduction;185
6.1.2;Methods and Challenges;186
6.1.3;Experimental Results;186
6.1.4;Conclusions and Future Work;187
6.1.5;References;188
6.2;NHS Blood Tracking Pilot: City University Evaluation Project;189
6.2.1;References;191
6.3;eHealth and Global Health: Investments Opportunities and Challenges for Industry in Developing Countries;192
6.3.1;Introduction;192
6.3.2;Challenges to eHealth Investments;193
6.3.3;Conclusion;194
6.3.4;References;194
6.4;Web-Based Architecture to Enable Compute-Intensive CAD Tools and Multi-user Synchronization in Teleradiology;196
6.4.1;Introduction;196
6.4.2;CADTools;197
6.4.2.1;Synchronization Tools;198
6.4.3;Case Studies;199
6.4.4;References;200
6.5;Research Challenges in Future Health Care Systems;201
6.5.1;Introduction;201
6.5.2;Research Challenges;201
6.5.3;Control Theoretic Approach;202
6.5.4;Case Study: Queueing Models in Health Care;203
6.5.4.1;Background;203
6.5.4.2;Control Framework for Optimal Resource Allocation;204
6.6;Aligning Technology with the Organisation Using Focus and User Groups;205
6.6.1;Introduction;205
6.6.2;Aligning IT and the Organisation;206
6.6.3;Focus Groups;206
6.6.3.1;Aims;206
6.6.3.2;Structure;206
6.6.3.3;Functions;206
6.6.3.4;Challenges;207
6.6.3.5;When Things Go Wrong;207
6.6.4;User Groups;208
6.6.4.1;Structure;208
6.6.4.2;Aims;208
6.6.4.3;Functions;208
6.6.5;Conclusion;209
6.7;Diabetes City: How Urban Game Design Strategies Can Help Diabetics;210
6.7.1;Introduction;210
6.7.2;How Ubiquitous Computing Evolves into Pervasive Games;211
6.7.3;Serious Games and Pervasive Healthcare;211
6.7.4;Prototyping a Game for Diabetics;212
6.7.4.1;Objectives – The Spatial Diary;213
6.7.4.2;Medical Game Design Concept;213
6.7.4.3;Realisation / Work in Progress;213
6.7.5;References;214
6.8;Potentials of Web 2.0 for Diabetes Education of Adolescent Patients;215
6.8.1;References;217
7;Invited Paper;10
7.1;Induction for Radiology Patients;218
7.1.1;Introduction;218
7.1.1.1;Problem Definition and Algorithm Task Definition;219
7.1.1.2;Inductive Inferencing Algorithms;219
7.1.1.3;Description of the ILA Algorithm with a Running Example;220
7.1.2;Experimental Evaluation Methodology;223
7.1.3;Results;225
7.1.4;Discussion;228
7.1.5;Related Work;228
7.1.6;Conclusion;229
7.1.7;References;230
8;Author Index;231
