This page provides an overview of the various posters related to Ambient-Oriented Programming. A pdf version of each poster is available, together with a brief abstract describing it.
Abstract Software development for mobile devices (such as smart phones and PDA’s) is given a new impetus with the advent of mobile networks. Mobile networks surround a mobile device equipped with wireless technology and are demarcated dynamically as users move about. Mobile networks turn the applications running on mobile devices from mere isolated programs into smart applications that can cooperate with their environment. Recently, this vision has been termed Ambient Intelligence (AmI for short) by the European Council's IST Advisory Group. Connections in mobile networks are volatile (because the communication range of the wireless technology is limited) and the network topology is open (because devices can appear and disappear unheraldedly). Developing application software for mobile networks still remains difficult because programming languages lack abstractions that deal with these mobile hardware characteristics. This observation justifies the need for a new Ambient-Oriented Programming paradigm (AmOP for short) that consists of programming languages that explicitly incorporate potential network failures in the very heart of their basic computational steps. The poster ilustrates the design of the distributed programming language AmbientTalk, a first scion of this AmOP programming language family. AmbientTalk offers the programmer features to deal with the conceptual properties of wireless networks without having to deal with their technological characteristics.
On display at OOPSLA 2005, ECOOP 2006 Download
Abstract A significant body of research in ubiquitous computing deals with mobile networks, i.e. networks of mobile devices interconnected by wireless communication links. Due to the very nature of such mobile networks, addressing and communicating with remote objects is significantly more difficult than in their fixed counterparts. This poster describes ambient references, a novel remote object referencing abstraction in the context of such mobile networks. Remote object references are one of the most fundamental programming abstractions of any distributed object-oriented programming language. The poster describes why novel referencing abstractions are needed and describes the benefits of ambient references over classic remote object references in mobile networks.
On display at ECOOP 2006 Download
Abstract Exception handling mechanisms are essential parts of current-day programming language because they provide a clean mechanism to separate the handling of exceptional events from default behaviour. In the context of mobile ad hoc networks, the increasing probability of exceptional events (such as disconnections, software mobility, changing environmental conditions) clearly necessitates the introduction of adequate support to handle exceptions. This poster presents a systematic analysis of the requirements for an exception handling mechanism for mobile ad hoc networks and outlines how these criteria can be mapped onto a set of easily implementable and reusable language constructs.
On display at ECOOP 2006 Download
Abstract In the context of mobile networks, distributed garbage collection (DGC) must deal with volatile connections which may break remote references unexpectedly for an undetermined amount of time. This poster discusses the new challenges that mobile networks pose to DGC and describes a new approach called semi-automatic garbage collection to cope with them. The rationale behind semi-automatic garbage collection is that automatic transparent DGC is irreconcilable with such highly partial disconnected network topology. We propose to share the responsibility of DGC among collector and developer in such a way that the collector is steered by the developer who has semantic knowledge of the object graph.
On display at ECOOP 2006 Download
Abstract This position paper focusses on the context-awareness feature in the domain of pervasive computing. Our particular interest is to investigate how context information may influence the communication between applications in this domain. We identify the problem of tangling context information with the definition of functional behaviour, and propose a solution based on a role-model to overcome this problem.
On display at ECOOP 2006 Download
Abstract Pervasive computing in mobile ad hoc networks requires that applications react to a plethora of events fired by other devices in the mobile ad hoc network. Current context-aware and event-driven architectures require the programmer to react to these events via a carefully crafted network of observers and event handlers, around which the whole application is structured. The object oriented, distributed and concurrent language AmbientTalk offers Reactive Programming as an alternative paradigm to be able to write such pervasive applications while retaining a conventional programming style. However, due to the asynchronous communication between remote objects, event handlers are still required to capture and process results computed in parallel. We show that, by exploiting the Reactive Programming mechanisms and the first class messages offered by AmbientTalk, it is possible to implement group communication abstractions that allow connecting asynchronous group communication with Reactive Programming without resorting to event handlers.
On display at ECOOP 2008 Download