| |||||||||||||||
ICFNDS 2017 : The 2017 International Conference on Future Networks and Distributed Systems (ICFNDS 2017) | |||||||||||||||
Link: http://www.icfnds.org/ | |||||||||||||||
| |||||||||||||||
Call For Papers | |||||||||||||||
The 2017 International Conference on Future Networks and Distributed Systems (ICFNDS 2017) aims at addressing advances in research on distributed systems and future networks, covering topics ranging from enabling technologies to emerging applications and industrial experiences. ICFNDS aims to encourage both researchers and practitioners to exchange and share their experiences and recent studies in an interactive atmosphere. Authors are solicited to contribute original, unpublished contributions in all aspects of future networking and distributed systems. Submitted articles must not be concurrently considered elsewhere for publication. The ICFNDS 2017 proceedings will be published as part of the International Conference Proceedings Series published by the ACM and available online from the ACM Digital Library. Topics of interest include, but are not limited to, the following: 1. Future Networks . Future Internet . Future Generation Communication Networks . Future Warehousing . Wireless Sensor Networks . Crowd Sourcing and Cloud Computing . Multi-Cores, Virtualization . Clusters and Grid Computing . Web-services and SOA . 5G, 4G, LTE, LTE-Advanced, WLAN, WPAN . Small cell Networks . Cognitive Radio Network . QoE, QoS, SLA, and GoS . Heterogeneous Networks . Optical Wireless, VLC and LED Communication . Big Data Networks and Data Center Architecture . CCN/CDN/ICN/Delay-tolerant networks . Future Network Platforms, Software and Services . Network Theory and Network Science . Intelligent Internet Communication . Mobile computing . Peer to peer, ATM, Optical, IP/ATM and Interconnection networks . Network routing and communication algorithms . Reliability and fault-tolerance . Security . Personal Computing 2. Distributed and Parallel systems . Parallel and distributed architectures . Theory of parallel and distributed computing . Parallel algorithms and their implementation . Resource allocation and management . Task mapping and job scheduling . Super Computing . Distributed data and knowledge based systems . Database applications and data mining . Web technologies . Performance evaluation and measurements . Wireless networks and Protocols . Optimization . Language, Compliers and Operating systems . Reliability, Reusability, Scheduling . Formal methods and programming languages . Modelling and simulation 3. Internet of Things . Data collection, deep learning, reality mining, and prediction methods . Real-time decision making and information extraction . Methods for seamless human-to-object and object-to-object interactions . Augmented reality and virtual reality interactions . Advanced manufacturing and logistics with IoT . Evaluation of challenges of real world deployments of Industrial Internet and GS1 . Information architecture design on field device, edge device and servers in cloud . Technologies for supporting transitioning functional and processing allocation across system entities . Advanced data capturing and networking technology . Object identification and access . Image recognition, 3D scanning methods for capturing events . Interoperability of IoT systems . Service and device discovery . Synchronization of distributed directory systems, and semantic data description frameworks . Data sharing and acceptance of IoT Systems . Data security, authentication and authorization . Privacy protection, data sharing technologies, tampering protection and detection 4. Pervasive Platforms and Applications for Assisted Living . Inclusive design of smart cities and smart environments . New innovative IoT applications and services supporting accessibility . Adaptivity and personalization - design for one vs. design for all . Wearable technology for independent living . Accessible design of welfare and everyday technology . Sensor networks for enabling technologies for precision healthcare . Citizen services, e-government accessibility, e-inclusion . Successful case studies in development or deployment of IoT applications and services in the area of accessibility 5. General Conference Track .Papers from related Computer Science disciplines that do not fit to the above tracks can be submitted to the general conference track. |
|