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活动简介

Welcome to participate in DependSys 2016, Zhangjiajie, China, November 16-18, 2016! Zhangjiajie is an emerging tourist destination famous for its unique natural scenery and abundant tourism resources. It is located in the northwest of Hunan province, about 400 kilometers away from Changsha, the capital of Hunan province, covering a total area of 9,563 square kilometers, of which 76% are mountainous area. Zhangjiajie was listed into the World Natural Heritage Catalogue by the UNESCO in 1992. Zhangjiajie was awarded the title of "World Geological Park" in 2004.

The DependSys 2016 symposium in the second event, which is a timely event bringing together new ideas, techniques, and solutions for dependability and its issues in sensor, cloud, and big data systems and applications. The first event (DependSys 2015) was held at the same place, which was of a great success. As we are deep into the Information Age, we witness the explosive growth of data available on the Internet. Human beings are producing quintillion bytes of data every day, which come from sensors, individual archives, social networks, Internet of Things, enterprise and Internet in all scales and formats. One of the most challenging issues we face in achieving designed system performance to an expected level, i.e., how to effectively provide dependability in sensor, cloud, and big data systems. These systems need to typically run continuously, which often tend to become inert, brittle, and vulnerable after a while. We can observe that this trend is further stimulated by an ever-increasing cost pressure.

The focus of DependSys 2016 is to create a forum for individuals, academics, practitioners, and organizations, who are developing or procuring sophisticated computer systems on whose dependability of services they need to place great confidence. Future systems need to close the dependability gap in face of challenges in different circumstances. The emphasis will be on differing properties of such services, e.g., continuity, effective performance, real-time responsiveness, ability to overcome data fault/corruption/anomaly, ability to avoid catastrophic failures, prevention of deliberate privacy intrusions, reliability/availability/sustainability/adaptability/heterogeneity/security/safety, and so on.

征稿信息

重要日期

2016-07-15
初稿截稿日期
2016-09-15
终稿截稿日期

征稿范围

Fundamentals and Technologies

  • Concepts, theory, principles, standardization and modelling, and methodologies for dependability

  • Security and privacy

  • Anomaly detection and protection

  • Dependability of sensor, wireless, and Ad-hoc networks dependability in mobile computing

  • Dependability of software defined networks (SDN)

  • Dependability issues in clouds (e.g., cloud storage, computing)

  • Software and hardware dependability

  • Reliability and fault-tolerant computing

  • Dependability by virtualization

  • Dependability in distributed scheduling and resource management

  • Dependability issues in parallel and distributed databases

  • Dependability issues in autonomic computing

  • Dependable Biocomputing, Quantum computing, etc.

  • Dependable big data foundation and management

  • Big data privacy and security

  • Dependable IoT supporting technologies

  • Social networks and crowdsensing

 

Systems

  • Dependable sensor systems

  • Dependability and availability issues in distributed systems

  • Cyber-physical systems (e.g. networked embedded systems, automotive, aerospace, healthcare, smart grid systems)

  • Dependability issues in socio-technical systems

  • Dependability issues in database and transaction processing systems

  • Safety and security in distributed computing systems

  • Self-healing, self-protecting, and fault-tolerant systems

  • IoT smart sensors and systems

  • RFID Systems

  • Reliability issues in long-distance telemetry of distributed sensor systems

  • Dependability in automotive systems

  • Dependable computing clouds for cyber-physical systems

  • Dependable integration between sensor systems and the cloud

  • Dependability in big data systems

  • Safety-critical systems and software

  • Software system security

 

Applications

  • Sensor and robot applications, sensor network applications

  • Big data applications

  • Cloud computing applications

  • Datacenter monitoring

  • Safety care, medical care and services, IoT-based healthcare

  • Aerospace, industrial, and transportation applications

  • IoT Energy, smart grid, and utility applications

  • Scientific applications

  • e-commerce and e-government

  • Activity monitoring

  • Mobile sensing applications, detection and tracking

 

Measures and Assessments

  • Dependability metrics and measures for safety, trust, faith, amenity, easiness, comfort, and worry

  • Dependability levels and relations, assessment criteria and authority

  • Dependability assessment standards

  • Dependability measurement, modeling, evaluation, and tools

  • Dependability evaluation of parallel, distributed systems

  • Software and hardware reliability, testing, verification and validation

  • Evaluation of fault-tolerant systems

  • Evaluations and tools of anomaly detection and protection in sensor, cloud, big data systems

  • Experimental performance of parallel & distributed systems

  • Practical experiences and prototypes

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重要日期
  • 会议日期

    11月16日

    2016

    11月18日

    2016

  • 07月15日 2016

    初稿截稿日期

  • 09月15日 2016

    终稿截稿日期

  • 11月18日 2016

    注册截止日期

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