-------- Weitergeleitete Nachricht -------- Betreff: [comsoc-etc-sub-iot] Re: IEEE WF-IoT 2019 - Extended Call for Papers Datum: Mon, 22 Oct 2018 23:55:22 +0530 Von: Soumya Kanti Datta soumyakanti.datta.fr@ieee.org An: ierc@internet-of-things-research.eu, iot-news@ieee.org, comsoc-etc-sub-iot@ipv6forum.com, cloudcomputing@ieee.org, itc@comsoc.org, 5g-mwi-comsoc-subtc@ipv6forum.com, TactileInternet@comsoc.org, ehealth@comsoc.org, internetinitiative@ieee.org
******* Apologies if you have received multiple copies of the call for papers *******
The World Forum on Internet of Things 2019 (WF-IoT 2019) seeks submissions and proposals for original technical papers that address but are not limited to the following topics and the more detailed list further in this document:
IoT Enabling Technologies and Topics http://wfiot2019.iot.ieee.org/authors/call-for-papers/call-for-technical-papers/#topics
* Sensors and Actuators * Power and Energy for IoT * Connectivity for IoT * Computing Platforms * IoT Data Acquisition, Storage and Management * IoT Application oriented Technologies * Security and Privacy Enhancing Technologies * IoT System Interfaces * Design, Integration and Testing Methods
IoT Application and Services for the Verticals
http://wfiot2019.iot.ieee.org/authors/call-for-papers/call-for-technical-papers/#verticals
* IoT Applications * IoT Services for the Verticals * IoT Multimedia and Societal Impacts * IoT Experimental Results and Deployment Scenarios
View Technical Paper Submission Guidelines >>
http://wfiot2019.iot.ieee.org/authors/call-for-papers/call-for-technical-papers/#submission
Horizontal IoT Enabling Technologies
Sensors and Actuators
* Sensor Architectures * Self-Calibration & Testing Techniques * Discrete Sensors, Networked Sensors * Sensor Integration * Complex and Compound Sensors * Cooperative Sensor Systems * Sensor Co-registration * MEMS Sensors, Fluidic Sensors * Fiber-based Sensors, Physical Sensors
* High Dynamic Range Sensors * Sensor Swarms * Video Sensors * Acoustic Sensors * Electro-magnetic Sensors * Chemical Sensors, Biological Sensors * Wearables, Body Sensor Networks * Smart Portable Devices * Mobile platforms as Sensors * Crowd Sensing, Vision Systems
* Radar and Lidar * Hyper-spectral Sensors * Human Centric Sensing * Nano Things * Miniaturized Actuators * Discrete Actuators * Mechanical Actuators * Information Actuators * Bionic Systems * Augmented Human Capabilities * MEMS, Robotics
Power and Energy for IoT
* High Reliability Power supplies and power components * Renewable Energy * Energy Harvesting * Solid State Batteries * Battery Safety Systems * Super Capacitors * New Battery Materials
* Fuel Cells * Batteries * Transmitted Power * Battery Packaging for Small Systems * Battery Standards * Integration of Remote IoT Systems with Mobile or Renewable Energy Sources
* High Efficiency Charging Algorithms and Systems * Power Regulation * Ultra Low Power Technologies * Integration of Battery Systems with the Smart Grid and Micro Grids
Connectivity for IoT
* 5G Networks * Legacy Networks * Software Defined Networks for IoT * Virtualization IoT Network Functions * IPv6, 6LoWPAN, RPL, 6TiSCH, W3C * Mesh Networks * Network Coding * Satellite, High Altitude Communications
* D2D and M2M Communications * Heterogeneous Networks High Band, Narrow Band Networks * Mixed Licensed, Unlicensed, and Share Spectrum Systems * Millimeter Wave Technologies * Spectrum Efficiency * Dense Communication Environments
* Body and Wearable Networks * Special Purpose Networks * Low Power LAN and WAN Networks * Broadcasting Systems for IoT * Routing and Control Protocols for IoT * Named IoT Networking * IoT and Future Internet architectures * Communication Security
Computing for IoT
* Computing Architectures * Cloud Computing * Fog Computing * Edge Computing * Mobile Computing * Platform Based Computing * Real Time Computing * Distributed Computing * Operating Systems * Resource Optimization Software
* Virtualization * Hypervisors * Autonomic Computing * Embedded Computing * Low Power Computing * Cooperative Computing * Quantum Computing * Computing Platforms and Frameworks * Advanced Computing Concepts
* Communications Intensive Computing * Sensors Data Management * Multi-use IoT Platforms * Software Frameworks * Development Environments * Analytic Frameworks * Languages * Graphics
Data Storage and Management for IoT
* Memory Systems * Device Storage, Storage Migration * Distributed Storage * File Systems, Archival Storage * Near Line Storage * Cloud Based Storage * Fog Data Banks
* Collaborative Shared File Systems * High Performance File Systems * Storage for Real Time Processing * Storage for Streaming Data * Data Buffering Methods * Data Capture, Data Retrieval
* Data Provenance and Curation * Data Compression, Data Aggregation * Data Cleanup and Filtering * Structured & Unstructured Data Types * Self-Describing Data Methods * Transactional Data Systems
IoT Application Oriented Technologies
* Big Data * IoT Data Analytics * Machine Learning * Deep Learning * Neural Networks
* Classification * IoT Mining and Analytics * Trend Analysis * Resource Management * Localization Technologies
* Adaptive Systems and Models at Runtime * Mobility, Localization and Management Aspects * Identity Management * Object Recognition
Security and Privacy Enhancing Technologies
* IoT Privacy and Security Concerns * Identification and Authentication Issues * Wireless Sensor Network for IoT Security
* Intrusion Detection in IoT * Cryptography, Key Management and Authorization for IoT * Physical/MAC/Network Attacks in Internet of Things
* Cross-layer Attacks in IoT * Privacy Based Channel Access in IoT * Big Data and Information Integrity in IoT
IoT System Interfaces
* Visual * Speech * Tactile * Cooperative Actuator Systems
* Biologically Inspired Actuators * Gestural * Contextual
* Brain Driven * Virtual Reality * Augmented Reality
Design, Integration and Testing Methods
* Requirement Gathering * Modeling and Simulation Tools * Tradeoff Systems * Managing Software, Electronic, and Mechanical Design * IoT Standards
* Naming Conventions * Design Space Exploration Techniques for IoT Devices and Systems * Operational Technologies and Processes * Open Source Activities
* Design Automation * Product Lifecycle Management * Analysis * Estimation * Synthesis * Testing and Validation * Verification
IoT Application and Services
IoT Application Domains
* Cyber-physical Systems * Real Time Control Systems and Functions * Context and Situation Aware Services * Self-Forming Services, Service Chains * Service Experiences and Analysis
* Internet Applications Naming and Identifiers * Semantic Technologies, Collective Intelligence * Cognitive and Reasoning about Things and Smart Objects
* Horizontal Application Development for IoT * Design Principals and Best Practices for IoT Application Development * Ambient Intelligence
IoT Services and Applications for Verticals
* Smart Cities * Smart Home * Assisted Living * Building Management and Operation Automation * Smart Public Places * Hospitality * Retail * Large Event Management * Public Safety * Healthcare, e-Health * Environmental Monitoring
* Connected Car, Automotive * Intelligent Transport * Transport and Logistics * Highway and Rail Systems * Aerospace and Defense * Industrial IoT * Industry 4.0 * Manufacturing * Industrial Service Creation and Management
* Smart Grid, Energy Management * Utilities Management and Operation * Mining, Oil & Gas, Digital Oilfield, Electronic Oilfield * Consumer Electronics * Agriculture and Rural * Financial Services
IoT Multimedia and Societal Impacts
* The Human Role in 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 * Urban Dynamics and Crowdsourcing Services * Business Models for IoT
* Allocation of Responsibility and Obligation in IoT Services and Offerings * Metrics, Measurements, and Evaluation of IoT Sustainability and ROI
IoT Experimental Results and Deployment Scenarios
* Closing the Gap between Research and Implementation * Experimental prototypes, Test-Bed and Field Trial Experiences * Multi-Objective IoT System Modeling and Analysis & Performance, Energy, Reliability, Robustness
* IoT Interconnections Analysis & QoS, Scalability, Performance, Interference * Real Case Deployment Scenarios and Results * IoT Deployment at Government and ISPs * IoT Deployment in Agriculture, Retail, Smart Cities, etc.
* IoT Deployment in Industry * Gaps Analysis for Real Deployment * Standardization and Regulation
Instructions for Submission:
Technical Paper Submissions
The 5th IEEE World Forum on Internet of Things (WF-IoT 2019) solicits full paper technical paper submissions describing original research. Suggested size is four pages; papers up to six pages will be accepted. Extended versions of selected papers may be considered for publication in IEEE IoT Journal http://ieee-iotj.org/.
How to Submit
All papers must be submitted in PDF and US letter format. Submitted papers must conform to the IEEE formatting guidelines as specified in the Word and LaTeX templates https://www.ieee.org/conferences/publishing/templates.html .
Peer Review Process
All submitted technical papers will be peer reviewed by an international Technical Program Committee (TPC). If the paper is accepted and presented, it will be included in the conference proceedings and be submitted to the Xplore Digital Library. IEEE takes the protection of intellectual property very seriously. All submissions will be screened for plagiarism using CrossCheck. All submitted papers are subject to the IEEE ComSoc plagiarism policy, see: https://www.comsoc.org/conferences/plagiarism-policy
Oral vs. Poster Presentations
Prospective authors will be given the choice to submit with a preference for oral or poster presentation or either. The TPC will respect the author’s choice as much as possible when building a coherent program. Authors will respect the TPCs decision regarding presentation format. All technical session paper submissions must comply with the templates defined above, whether they are oral or poster presentations or either mode.* *
Important Dates for Paper Submissions
*Technical Paper Submission Due Date:* 1 November 2018 *Acceptance Notification:* 15 January 2019 *Camera-Ready Submission:* 20 February 2019
Papers must be submitted electronically via EDAS https://edas.info/N25109. - https://edas.info/N25109
Contacts for Technical Papers
Soumya Kanti Datta mailto:soumya-kanti.datta@eurecom.fr, EURECOM, France - dattas@eurecom.fr mailto:dattas@eurecom.fr Elfed Lewis mailto:elfed.lewis@ul.ie, University of Limerick, Ireland - elfed.lewis@ul.ie mailto:elfed.lewis@ul.ie
Best Regards, Soumya Kanti Datta TPC Co-Chiar, WF-IoT 2019 Research Engineer EURECOM, France Website: https://sites.google.com/site/skdunfolded