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活动简介

第一届云计算与物联网国际会议定于2014年12月13日至14日在长春召开。 CCIOT 2014主要议题包括云平台、格林数据中心、映射规约、数据挖掘、HPC云应用、传感器和执行器网络、绿色物联网,及其他相关议题,本次会议旨在为学术、工业及商业界的专业人士在云计算及物联网领域的最新进展及成果的讨论提供一个交流平台。 此次会议由长春师范大学主办,大连师范大学、东北师范大学等学术团体协办,IEEE哈尔滨分会提供技术支持。

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重要日期

2014-11-15
初稿截稿日期

征稿范围

CCIOT 2014 consists of several tracks, including, but not limited to, the following specific topics: I. Cloud computing 1. Architecture ·Cloud Infrastructure as a Service ·Cloud Platform as a Service ·Cloud federation and hybrid cloud infrastructure ·Programming models and systems/tools ·Green data center ·Networking technologies for data center ·Cloud system design with FPGA, GPU, APU ·Monitoring, management and maintenance ·Dynamic resource provisioning 2. MapReduce ·Performance characterization and optimization ·MapReduce on multi-core, GPU ·MapReduce on hybrid distributed environments ·MapReduce on opportunistic / heterogeneous computing systems ·Extension of the MapReduce programming model ·Debugging and simulation of MapReduce systems ·Data-intensive applications using MapReduce ·Optimized storage for MapReduce applications ·Fault-tolerance & Self-* capabilities 3. Security and Privacy ·Accountability ·Audit in clouds ·Authentication and authorization ·Cryptographic primitives ·Reliability and availability ·Trust and credential management ·Usability and security ·Security and privacy in clouds ·Legacy systems migration ·Cloud Integrity and Binding Issues 4. Services and Applications ·Cloud Service Composition ·Query and discovery models for cloud services ·Trust and Security in cloud services ·Change management in cloud services ·Organization models of cloud services ·Innovative cloud applications and experiences ·Business process and workflow management ·Service-Oriented Architecture in clouds 5. Virtualization ·Server, storage, network virtualization ·Resource monitoring ·Virtual desktop ·Resilience, fault tolerance ·Modeling and performance evaluation ·Security aspects ·Enabling disaster recovery, job migration ·Energy efficient issues 6. HPC on Cloud ·Load balancing for HPC clouds ·Middleware framework for HPC clouds ·Scalable scheduling for HPC clouds ·HPC as a Service ·Performance Modeling and Management ·Programming models for HPC clouds ·HPC cloud applications ·Optimal cloud deployment for HPC 7. Big Data ·Machine learning ·Data mining ·Approximate and scalable statistical methods ·GraphAlgorithms ·Querying and search ·Data Lifecycle Management for Big Data (sources, cleansing, federation, preservation, privacy, etc.) ·Frameworks, tools and their composition ·Storage and analytic architectures ·Performance and debugging ·Hardware optimizations for Big Data (multi-core, GPU, networking, etc.) ·Data Flow management and scheduling II. Internet of things 1. Technologies ·Sensor and Actuator Networks ·Ultra-low power IoT Technologies and Embedded Systems Architectures, Body Sensor Networks and Smart Portable Devices ·NFC, EPCGlobal and Short Range Evolution ·Energy- and Power-Constrained Devices and Gateways ·Design Space Exploration Techniques for Internet-of-Things Devices and Systems ·Routing and Control Protocols ·Software Architectures and Middleware, Heterogeneous Networks, Web of Things ·Sensors Data Management, Big Data and Data Mining, Distributed Storage, Data Fusion, Distributed Sensing and Control, Resource Management and Access Control ·Mobility, Localization and Management Aspects ·Security, Trust and Privacy ·Identity Management and Objects Recognition ·Localization Technologies ·Internet Applications Naming and Identifiers ·Semantic Technologies, Collective Intelligence, Cognitive and Reasoning about Things and Smart Objects, New ·Sensing 2. Application and Services ·Collaborative Applications and Systems, Context Awareness, Ambient Intelligence ·Service Experiences and Analysis including, but not limited to: Smart Cities, Home/Building Automation, e-Health, e-Wellness, Automotive, Intelligent Transport, Energy Management, Consumer Electronics, Assisted Living, Rural Services and Production, Industrial IoT Service Creation and Management Aspects 3. Societal Impacts ·Human Role in the IoT, Social Aspects and Services ·Value Chain Analysis and Evolution Aspects ·New Human-Device Interactions for IoT, Do-It-Yourself ·Social Models and Networks ·Green IoT: Sustainable Design and Technologies ·Metrics, Measurements, and Evaluation of the IoT Sustainability and ROI ·Privacy and Security Concerns 4. Experimental Results ·Experimental prototypes, Test-Beds and Field Trials Experiences ·Multi-Objective IoT System Modeling and Analysis (Performance, Power, Energy, Reliability, Robustness, etc.) ·IoT Interconnections Analysis (QoS, Scalability, Performance, Interference etc.) ·Gaps Analysis for Future Research and Standardization ·Standardization and Regulation
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重要日期

  • 会议日期

    12月13日

    2014

    12月14日

    2014

  • 11月15日 2014

    初稿截稿日期

  • 12月14日 2014

    注册截止日期

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东北师范大学
大连师范大学
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东北师范大学
大连师范大学
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