-------- Weitergeleitete Nachricht -------- Betreff: [TCCC-ANNOUNCE] Deadline extended to Nov. 8 - SI on IoT - IEEE Wireless Communications Datum: Wed, 26 Oct 2016 10:56:13 +0800 Von: Dr Ying-Dar Lin ydlin@CS.NCTU.EDU.TW Antwort an: Dr Ying-Dar Lin ydlin@CS.NCTU.EDU.TW An: tccc-announce@COMSOC.ORG
IEEE Wireless Communications
Special Issue on IoT: Protocol Stack, Cross-Layer, and Power Consumption Issues
Extended due date: November 8, 2016 Publication date: June 2017
With the Internet of Things (IoT) revolution, over 50 billion connected things in the world are expected by year 2020 and 40% of all world data will come from IoT devices and sensors (expected to generate a total of 129 yottabytes) - nearly reaching 90% of the world’s data created in the last 2 years. Things and devices forming IoT are a variety of microcontrollers (MCUs), special systems-on-chip (SoC), sensors and sensor networks.
With this dramatic evolution in the types and volume of connected devices and the generated data from these devices, radio technologies need to accommodate the IoT device environments and characteristics, including different environments of “outdoor, indoor, urban, rural”, battery operated devices, form factors, and communication ranges. In addition, communication protocols should adapt to IoT service requirements for real-time and mission critical applications. Consequently, there is a need for smart radio technologies and communication protocols that support low-power and ultra-low power operation, multiple communication ranges, diversity of traffic ranging from 3 bytes of data for telemetry to HD video streams for surveillance, as well as indoor and outdoor environments. Some unique exemplary challenges include efficient service discovery between devices, sleep mode management, communication between devices, smart choice of the appropriate radio to use, application requirement, and power constraint.
In this context, Bluetooth Low Energy (BLE), Zigbee, and Z-Wave emerge as short range and low power wireless communication technologies on one hand. On the other hand, cellular and sub-GHz communication technologies are also emerging within 3GPP and IEEE standards to allow for long coverage especially in rural environments but still facing low power challenges. Sigfox appears to provide a cellular system for devices continuously on and emitting small amounts of data. mmWave represents another opportunity for IoT communication and is being discussed within the 5G network framework working in higher frequency bands and providing very high throughput.
Despite of all these radio technology evolution and advancement in communication protocols to satisfy IoT traffic and communication requirements, there is not yet a clear vision of how IoT radio and communication eco-system will look like by 2020 besides green communication. All these unique challenges demand great effort in academic, industry, standardization organizations, and governments.
The aim of this Special Issue is to present a collection of high-quality articles that report the latest research advances on*Next Generation Wireless Technologies for IoT*. It will include various topics of interest, but not limited to:
* Short, medium and long range radio access (RFID, NFC, DASH7, 4G, 5G, 6LowPAN, Zigbee, Z-Wave, WirelessHART, ISA100.11a, IEEE 802.15.4) * Smart sleep and wake up modes for IoT with efficiency and context awareness * Efficient transport and routing protocols for IoT standards and architectures (IETF, IEEE, ETSI, oneM2M, IoT6, IoT-A, ISA, ISO/IEC, IPSO, ITU-T, U2IoT) * Smart bandwidth utilization including network coding techniques for 5G * Wireless wearable and IoT communication architectures and systems * 5G heterogeneous wireless access technologies enabling low latency and low power IoT access networks * Standardization and regulation on mmWave usage in 5G and IoT * Edge networking in IoT including challenges for low power transmissions, security and privacy of cognitive radio * Near-zero energy and renewable energy radios for IoT and PHY/MAC layer techniques for long range low power IoT * Proof of concepts and experimental work on long range low power wireless technologies
SUBMISSIONS
Prospective authors should prepare their submissions in accordance with the rules specified in the Information for Authors of the/IEEE Wireless Communications/guidelines (http://www.comsoc.org/wirelessmag/paper-submission-guidelines). Authors should submit a PDF version of their complete manuscript tohttp://mc.manuscriptcentral.com/ieee-wcm. The timetable is as follows:
IMPORTANT DATES
* Submission Deadline: November 8, 2016 * Initial Decision: January 1, 2017 * Revised Manuscript Due: February 1, 2017 * Final Decision: March 15, 2017 * Final Manuscript Due: April 1, 2017 * Publication: June 2017
GUEST EDITORS
Abderrahim Benslimane University of Avignon, France benslimane@ieee.org mailto:benslimane@ieee.org(corresponding editor) siiot2016@gmail.com mailto:siiot2016@gmail.com
Hassnaa Moustafa Intel, USA
Milena Radenkovic University of Nottingham, UK
Ying-Dar Lin National Chiao Tung University, Taiwan
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