391,351 research outputs found
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mPower: A component-based development framework for multi-agent systems to support business processes
One of the obstacles preventing the widespread adoption of multi-agent systems in industry is the difficulty of implementing heterogeneous interactions among participating agents via asynchronous messages. This difficulty arises from the need to understand how to combine elements of various content languages, ontologies, and interaction protocols in order to construct meaningful and appropriate messages. In this paper mPower, a component-based layered framework for easing the development of multi-agent systems, is described, and the facility for customising the components for reuse in similar domains is explained. The framework builds on the JADE-LEAP platform, which provides a homogeneous layer over diverse operating systems and hardware devices, and allows ubiquitous deployment of applications built on multi-agent systems both in wired and wireless environments. The use of the framework to develop mPowermobile , a multi-agent system to support mobile workforces, is reported
Three applications for mobile epidemic algorithms
This paper presents a framework for the pervasive sharing of data using wireless networks. 'FarCry' uses the mobility of users to carry files between separated networks. Through a mix of ad-hoc and infrastructure-based wireless networking, files are transferred between users without their direct involvement. As users move to different locations, files are then transmitted on to other users, spreading and sharing information. We examine three applications of this framework. Each of these exploits the physically proximate nature of social gatherings. As people group together in, for example, business meetings and cafés, this can be taken as an indication of similar interests, e.g. in the same presentation or in a type of music. MediaNet affords sharing of media files between strangers or friends, MeetingNet shares business documents in meetings, and NewsNet shares RSS feeds between mobile users. NewsNet also develops the use of pre-emptive caching: collecting information from others not for oneself, but for the predicted later sharing with others. We offer observations on developing this system for a mobile, multi-user, multi-device environment
POSTER: Exploiting asymmetric multi-core processors with flexible system sofware
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mobile asymmetric multi-core architectures to build future multi-core systems is an approach towards energy savings while keeping high performance. However, it is not known yet whether such systems are ready to handle parallel applications. This paper fills this gap by evaluating emerging parallel applications on an asymmetric multi-core. We make use of the PARSEC benchmark suite and a processor that implements the ARM big.LITTLE architecture. We conclude that these applications are not mature enough to run on such systems, as they suffer from load imbalance.
Furthermore, we explore the behaviour of dynamic scheduling solutions on either the Operating System (OS) or the runtime level. Comparing these approaches shows us that the most efficient scheduling takes place in the runtime level, influencing the future research towards such solutions.This work has been supported by the Spanish Government (SEV2015-0493), by the Spanish Ministry of Science and Innovation (contracts TIN2015-65316-P), by Generalitat de
Catalunya (contracts 2014-SGR-1051 and 2014-SGR-1272), by the RoMoL ERC Advanced Grant (GA 321253) and the
European HiPEAC Network of Excellence. The Mont-Blanc project receives funding from the EU's Seventh Framework Programme (FP7/2007-2013) under grant agreement number 610402 and from the EU's H2020 Framework Programme (H2020/2014-2020) under grant agreement number 671697.
M. Moretó has been partially supported by the Ministry of Economy and Competitiveness under Juan de la Cierva postdoctoral fellowship number JCI-2012-15047. M. Casas
is supported by the Secretary for Universities and Research of the Ministry of Economy and Knowledge of the Government of Catalonia and the Cofund programme of the Marie
Curie Actions of the 7th R&D Framework Programme of the European Union (Contract 2013 BP B 00243).Peer ReviewedPostprint (author's final draft
Multi-purpose infrastructure for delivering and supporting mobile context-aware applications
The use of contextual information in mobile devices is receiving increasing attention in mobile and ubiquitous computing research. An important requirement for mobile development today is that devices should be able to interact with the context. In this paper we present a series of contributions regarding previous work on context-awareness. In the first place, we describe a client-server architecture that provides a mechanism for preparing target non context-aware applications in order to be delivered as context-aware applications in a semi-automatic way. Secondly, the framework used in the server to instantiate specific components for context-awareness, the Implicit Plasticity Framework, provides independence from the underlying mobile technology used in client device, as it is shown in the case studies presented. Finally, proposed infrastructure deals with the interaction among different context constraints provided by diverse sensors. All of these contributions are extensions to the infrastructure based on the Dichotomic View of plasticity, which now offers multi-purpose support
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Bridging the gap between mobile CPU design and user satisfaction via crowdsourcing
This report aims to provide an understanding of how the mobile CPU designs have evolved and its influence on end-user satisfaction. To that end, a quantitative performance analysis is conducted across ten cutting-edge mobile CPU designs studied within top-selling off-the-shelf smartphones released over the past seven years. This analysis is then used to guide a large-scale user study spanning over 25,000 participants via crowdsourcing on the Amazon Mechanical Turk service. The user study asks participants to assess the responsiveness of interactive application use cases for a set of current-generation applications (e.g. Angry Birds and FaceBook) and next-generation applications (i.e. face recognition and augmented reality) relative to the performance capabilities of the devices studied. This framework allows us to quantitatively link how the mobile CPU designs studied impacted end-user satisfaction. The study results indicate that mobile CPU designs have exhibited signifiant performance improvements through aggressive core scaling techniques prevalent in desktop CPUs. Just as was observed in desktop CPU design, these same techniques have lead to excessive mobile CPU power consumption. However, from an end-user perspective this power consumption was not without success. Mobile CPUs have evolved to provide satisfactory experiences for the studied current- generation applications. The reason is that many of these applications rely heavily on single-threaded performance. Other, more recent applications, actually multi-thread user-critical parts of the applications, which also demonstrates that multi- core mobile CPUs are an important design consideration – contrary to conventional wisdom. However, looking ahead, the same mobile CPUs where not able to provide satisfactory experiences for many of the next-generation applications studied, questioning the sustainability of these power-hungry design techniques in future mobile CPU designs.Electrical and Computer Engineerin
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