Renata Bandelloni scite author profile

Conti

et al.

The Bluetooth wireless technology is an emerging technology originally designed as a short-range connectivity solution for personal, portable, and handheld electronic devices. This paper briefly presents the functionality and the architecture of an indoor positioning service based on this technology. Most of the design choices for the service have been strongly influenced by Bluetooth features. The effectiveness of the indoor positioning service is critically analyzed. Experimental and simulation results used for defining the policy of mobile device discovery are shown.

Flexible interface migration

Bandelloni¹,

Paternò²

2004

The goal of this work is to provide users immersed in a multi-platform environment with the possibility of interacting with an application while freely moving from one device to another. We describe the solution that we have developed for a service to support platform-aware runtime migration for Web applications. This allows users interacting with an application to change device and continue their interaction from the same point. The service performs the migration of the application taking into account its runtime state and adapting the application interface to the features of the target platforms. The service is optimized for applications developed through a modelbased, multiple-level approach. The intelligence of the adaptive interfaces resides in the migration server, which adapts data collected at runtime from their original format to the format best fitting the features of the target platform. We also indicate how it is possible to extend this result in order to support partial migration and synergistic access, by which a part of the user interface is kept on one device during runtime and the remaining part is moved to another with different characteristics.

Flexible interface migration

Paternò

2004

Migratory user interfaces able to adapt to various interaction platforms

International Journal of Human-Computer Studies

Paternò

2004

Abstract. The goal of this work is the design of an environment for supporting runtime migration of Web applications among different platforms. This allows users interacting with an application to change device and continue their interaction from the same point. The migration takes into account the runtime state of the interactive application and the different features of the devices involved. We consider applications developed through a multiple-level approach using: the definition of the tasks to support, the abstract description of the user interface, and the actual code. The runtime migration engine exploits information regarding the application runtime state and higher-level information on the platform-dependent application versions. Runtime application data are used to achieve interaction continuity and preserve usability, while information on the different platforms is considered to adapt the application's appearance and behaviour to the specific device. The paper also discusses a sample application in order to provide concrete examples of the results that can be achieved through our approach.

Dynamic generation of web migratory interfaces

Mori

Paternò

2005

In this paper, we present a solution for dynamic generation of Web user interfaces that can dynamically migrate among different platforms. The solution is based on a migration/proxy server able to automatically convert a desktop service into a service accessible from a different platform, such as a mobile one. This solution can support new environments where users can freely move about and change interaction device while still continuing task performance and accessing the application in a usable manner.