BSI PD IEC/PAS 62883:2014
$167.15
The universAAL framework for user interaction in multimedia AAL spaces
| Published By | Publication Date | Number of Pages |
| BSI | 2014 | 40 |
IEC/PAS 62883:2014(E) specifies a framework for adaptive handling of explicit interaction among humans and AAL spaces. This is based on a differentiation between explicit and implicit interaction as a consequence of the paradigm shift from Human-Computer Interaction to Human-Environment Interaction, further explained in the definition of the latter term. As a framework, a main subject matter of the specification is the identification of relevant areas for further standardization, thereby also looking at the interrelationships among the identified areas. The PAS also provides a first extensible specification in some of those areas.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | CONTENTS |
| 6 | FOREWORD |
| 8 | INTRODUCTION Figures Figure 1 – Paradigm shift from HCI to HEI |
| 9 | Figure 2 – logical separation of application and presentation layers |
| 10 | 1 Scope Figure 3 – The scope of the specified UI framework marked by the green colour |
| 11 | 2 Normative references 3 Terms, definitions and abbreviations 3.1 Terms and definitions Figure 4 – The notion of AAL spaces |
| 12 | Figure 5 – The need of smart environments to utilize channelsfor bridging between the physical world and the virtual realm |
| 13 | Figure 7 – The notion of a smart environment |
| 14 | 3.2 Abbreviation 4 The Specification of the universAAL UI Framework 4.1 Overview |
| 15 | 4.2 Analysis of the relationships between UI Handlers and I/O Channels Figure 8 – An open system for plugging in applicationsand UI handlers independently from each other Figure 9 – Channel binding by I/O devices |
| 16 | Figure 10 – The notion of a driver with the case of a UPNP-aware driver Figure 11 – The case of a universAAL aware driver |
| 17 | 4.3 Dialog descriptions Figure 12 – Possible relationship between UI handlers and drivers |
| 18 | Figure 13 – The dialog package based on the notion of a form |
| 19 | Figure 14 – A possible graphical visualization of the mapping between dialog types and the predefined standard groups |
| 20 | 4.4 The Adaptation Concept 4.4.1 Overview 4.4.2 Responsibilities of Applications Figure 15 – The universAAL framework for supporting adaptivity, which builds on top of the universAAL context and service buses (see footnote 4) |
| 21 | 4.4.3 Responsibilities of UI handlers |
| 22 | 4.4.4 Responsibilities on the brokerage layer Figure 16 – A model for describing access impairments |
| 23 | Figure 17 – Summary of the adaptation parameters |
| 24 | 4.5 Provisions of the UI Framework 4.5.1 Introduction 4.5.2 The UI Bus and its brokerage protocols Figure 18 – The components comprising the universAAL UI framework |
| 25 | Figure 19 – The main messages exchanged on the UI Bus Figure 20 – The notion of a UI request as constructed by applications |
| 26 | Figure 21 – Overview of the sequence of actions when the priority check is positive |
| 27 | Figure 22 – The case of switching to a new UI handlerwhen handling changes in the context |
| 30 | 4.5.3 The dialog manager and its role in assisting the UI Bus Figure 24 – The abstract class to be extended by applicationsthat want to send UI requests to the UI bus Figure 25 – The abstract class to be extended by UI handlersthat accept UI requests forwarded by the UI bus for rendering Figure 26 – The interface of the UI Bus |
| 32 | 4.5.4 The Resource Manager Figure 27 – Access to the resources managed by the RM |
| 33 | Annex A (informative) Use cases A.1 Use Case: Supporting rich human computer interaction |
| 34 | A.2 Use Case: Healthy Lifestyle Service Package Use Case (universAAL) |
| 35 | Annex B (informative) An Overview of the universAAL Project Figure B.1 – Project ID Card |
| 36 | Figure B.2 – The three pillars of the universAAL platform |
| 37 | Bibliography |
