<span id="ctl00_pageContent_ctl01_lblScope" class="Scope">Green Computing is nowadays one of the major challenges for most IT organizations that involve medium and large scale distributed infrastructures like Grids, Clouds and Clusters. The conference will focus on solutions for all aspects of green computing such as energy efficiency, carbon footprint reduction and cooling management. The tradeoffs between energy efficiency and performance have become key challenges that must be addressed in both, distributed and traditional performance–oriented infrastructures. Particularly relevant is the so–called Smart Grid technology, seeking to optimize distributed electricity generation, especially from renewable sources, and to promote the use of smart devices (including smart home and new vehicular energy approaches) that require further research on distributed communications, energy storage and integrations of various sources of energy.<br>Papers describing advanced prototypes, systems, tools and techniques and general survey papers indicating future directions are also encouraged. Papers describing original work are invited in any of the areas listed below. Accepted papers, presented at the conference by one of the authors, will be published in the Proceedings of SMARTGREENS. Acceptance will be based on quality, relevance and originality. Both full research reports and work–in–progress reports are welcome. There will be both oral and poster sessions.<br>Special sessions, dedicated to case–studies and commercial presentations, as well as tutorials dedicated to technical/scientific topics are also envisaged: companies interested in presenting their products/methodologies or researchers interested in holding a tutorial, workshop or special session are invited to contact the conference secretariat or visit the SMARTGREENS conference website.<br></span><p> <span id="ctl00_pageContent_ctl02_lblinfoConference_Areas">Each of these topic areas is expanded below but the sub–topics list is not exhaustive. Papers may address one or more of the listed sub–topics, although authors should not feel limited by them. Unlisted but related sub–topics are also acceptable, provided they fit in one of the following main topic areas: </span> </p> <div id="ctl00_pageContent_ctl02_divTopics"> <div id="ctl00_pageContent_ctl02_divAreas"> <span id="ctl00_pageContent_ctl02_lbl245"><b>1</b>. SMART CITIES</span><br><span id="ctl00_pageContent_ctl02_lbl228"><b>2</b>. ENERGY–AWARE SYSTEMS AND TECHNOLOGIES</span><br><span id="ctl00_pageContent_ctl02_lbl229"><b>3</b>. SUSTAINABLE COMPUTING AND COMMUNICATIONS</span><br></div><br></div> <a name="A1"></a> <h3> <span id="ctl00_pageContent_ctl02_rptArea_ctl00_lblArea" style="font–weight:bold;">AREA 1: SMART CITIES</span></h3> – Case Studies, Business Models and Innovative Applications for Smart(er) Cities<br>– Human Smart Cities<br>– Intelligent Transport Systems and Traffic Management<br>– e–Mobility and Smart Transport<br>– Intelligent Buildings<br>– Urban Monitoring and Optimization<br>– User–Centred and Participatory Design of Services and Systems for Smart Cities<br>– Innovation Labs, Experimental Test–Beds and Simulation Environments<br>– Mechanisms for Motivating Behaviour Change<br>– Internet–Enabled Infrastructures and Services<br>– Service Innovation and Design to Support Smart Cities<br>– e–Health systems<br>– Smart Sensor–Based Networks and Applications<br>– Big Data and Urban Data Analytics<br>– IS Architecture Designs and Platforms for Smart Cities<br>– Case Studies and Innovative Applications for Smart(er) Cities<br>– Planning and Design Challenges for Smart Cities<br>– Frameworks and models for Smart City Initiatives<br>– Safety, Security, and Privacy for Smart Cities <a name="A2"></a> <h3> <span id="ctl00_pageContent_ctl02_rptArea_ctl01_lblArea" style="font–weight:bold;">AREA 2: ENERGY–AWARE SYSTEMS AND TECHNOLOGIES</span><br></h3>– Architectures for Smart Grids<br>– Load Balancing in Smart Grids<br>– Energy Management Systems (EMS)<br>– Economic Models of Energy Efficiency<br>– Energy Monitoring<br>– Renewable Energy Resources<br>– Greener Systems Planning and Design<br>– Virtualization for Reducing Power Consumption<br>– Evolutionary Algorithms in Energy Applications<br>– Scheduling and Switching Power Supplies<br>– Energy Profiling and Measurement<br>– Harvesting Energy<br>– Energy–Aware Process Optimisation<br>– Optimization Techniques for Efficient Energy Consumption<br>– Microgeneration<br>– Smart Energy Storage <a name="A3"></a> <h3> <span id="ctl00_pageContent_ctl02_rptArea_ctl02_lblArea" style="font–weight:bold;">AREA 3: SUSTAINABLE COMPUTING AND COMMUNICATIONS</span></h3>– Wireless Systems and Networks<br>– Security and Privacy<br>– Wearable Computing<br>– Green Data Centers<br>– Algorithms for Reduced Power, Energy and Heat<br>– Green Communications Architectures and Frameworks<br>– Qos and Green Computing<br>– Integration of Smart Appliances<br>– Embedded Sensor Networks<br>– Smart Homes (Domotics)<br>– Educational Ecosystems<br>– Green Computing and Education<br>– Case Studies on Green Computing and Communications<br>– Interoperability<br>– Energy Efficient Network Hardware<br>– Energy–Efficient Communication Protocols<br>– Internet of Things<br>– Green Software Engineering Methodologies and Tools<br>– Virtualization Impact for Green Computing<br>– Green Computing Models, Methodologies and Paradigms<br>
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SMARTGREENS
City
Rome
Country
Italy
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