IEEE WCNC 2016 Workshops Technical Program

Sunday April 3, 2016

IEEE WCNC 2016 will organize 11 half-day workshops on Sunday April 3, 2016. A total of 82 papers will be presented in 14 Oral presentation sessions and 2 Interactive flash presentation sessions. More than 28 invited distinguished speakers will give keynote speeches and panel presentations. For more details follow technical program grid and visit website of each workshop.

IEEE WCNC 2016 Workshops Technical Program

Workshops Technical Program in PDF - Click here >>



Morning Workshops (08:00 am – 12:20 pm)
Morning Workshops Invited/Keynote Speakers:
  1. Marc Dacier, QCRI, Qatar (WS-10)
  2. Bob Frankston, IEEE CE Society, USA (WS-10)
  3. Soumya Kanti Datta, EURECOM, France (WS-10)
  4. Sennur Ulukus, University of Maryland, USA (WS-03)
  5. Stefano Buzzi, University of Cassino and Lazio, Italy (WS-03)
  6. Markus Gruber, Nokia Bell Labs, Germany (WS-03)
  7. Akbar Sayeed, University of Wisconsin-Madison, USA (WS-04)
  8. Jyri Putkonen, Nokia, Finland (WS-04)
  9. Hussein Mouftah, University of Ottawa, Canada (WS-05)
  10. Hossam Hassanein Queens University, Canada (WS-05)
  11. Linus Thrybom, ABB, Sweden (WS-06)
  12. Vladimir Vukadinovic, Nokia, Poland (WS-06)
  13. Mohamed-Slim Alouini, KAUST, Saudi Arabia (WS-01)
  14. Boon Ooi, KAUST,Saudi Arabia (WS-01)
  15. Hany Elgala, State University of New York, USA (WS-01)
Afternoon Workshops (02:00 pm – 06:20 pm):
Afternoon Workshops Invited/Keynote Speakers:
  1. Rui Zhang, National University of Singapore, Singapore (WS-07)
  2. Kaibin Huang, The University of Hong Kong, Hong Kong (WS-07)
  3. Bruno Clerckx, Imperial College London, UK (WS-07)
  4. Brian Mark, George Mason University, USA (WS-08)
  5. Hamid Menouar, Qatar Mobility Innovations Center, Qatar (WS-08)
  6. Ueli Maurer, ETH, Zurich, Switzerland (WS-09)
  7. Jean Claude Belfiore, Huawei French Research Lab., Paris, France (WS-09)
  8. Halim Yanikomeroglu, Carleton University, Canada (WS-02)
  9. Abd-Elhamid M. Taha, Alfaisal University, Saudi Arabia (WS-02)
  10. Mohamad Assaad, SUPÉLEC, France (WS-02)
  11. Najah Abed AbuAli, UAE University, UAE (WS-02)
  12. Mythri Hunukumbr, Samsung, UK (WS-12)
  13. Zexian Li, Nokia, Poland (WS-12)


IEEE WCNC 2016 Workshops Technical Program – Detailed

Sunday, April 3

Sunday, April 3, 08:00 - 08:40

WS-10-Keynote-01: IoT Security: What Are We Talking About?

Marc Dacier, QCRI, Qatar
Room: Dukhan
Chair: Soumya Kanti Datta (EURECOM & Co-Founder, Future Tech Lab, France)

The security of the so called "Internet of Things" but, more generally, the problems linked to the security of cyber physical ecosystems is receiving a lot of attention in the media as well as within the scientific community. In this talk, I will look into the new challenges present in such environments, describe existing approaches that could probably be used to better understand and protect them and finish by looking into some new paths for research.

WS-01-Keynote-01: Addressing Spectrum Scarcity through Optical Wireless Communications

Mohamed-Slim Alouini, KAUST, Saudi Arabia
Room: PR 5
Chair: Mohamed M. Abdallah (Texas A&M University at Qatar, Qatar)

Rapid increase in the use of wireless services over the last two decades has lead the problem of the radio-frequency (RF) spectrum exhaustion. More specifically, due to thisRF spectrum scarcity, additional RF bandwidth allocation, as utilized in the recent past, is not anymore a viable solution to fulfill the demand for more wireless applications and higher data rates. The talk goes first over the potential offered by optical wireless communications to relieve spectrum scarcity. It then summarizes some of the challenges that need to be surpassed before such kind of systems can be massively deployed. Finally the talk offers an overview of some of the recent results for the determination of the capacity of optical wireless channels.

WS-03-Keynote-01: Fighting Exponential Traffic Growth - Is Mobile Network Energy Efficiency a Desperate Game?

Markus Gruber, Nokia Bell Labs, Germany
Room: PR 6
Chair: M. Majid Butt (Trinity College Dublin, Ireland)

This talk starts with presenting energy efficiency in the light of historical developments, highlights energy consumption facts, and reveals the two biggest misconceptions about energy efficiency in networks. It also discusses methodologies for evaluating how green a network is and what to expect till 2020. Finally, a vision towards (near) zero power networking is sketched.

WS-04-Keynote-01: Multi-beam MIMO for Millimeter-Wave Wireless: Architectures, Prototypes, and 5G Use Cases

Akbar Sayeed (Univ. of Wisconsin-Madison, USA)
Room: PR 7
Chair: Miurel Tercero (Ericsson AB, Sweden)

Millimeter-wave (mmW) technology is emerging as a key enabler for meeting the Gigabit rate and millisecond latency requirements for 5G networks. In addition to the larger (multi-GHz) bandwidths, mmW frequencies naturally enable massive MIMO operation with compact-sized high-dimensional 2D antenna arrays. However, harnessing the opportunities of mmW MIMO poses new challenges in communication theory, signal processing, antenna design, RF architecture, analog-digital interface, and baseband processing. In particular, while electronic multi-beamforming and data multiplexing is a key operational functionality, no existing systems can deliver it: conventional digital approaches suffer from a prohibitively high complexity, and the current phased array-based systems for RF beamforming are limited to single beams. I will first outline a beamspace MIMO framework for the design and analysis of 2D massive MIMO systems, and the role of beamspace channel sparsity in reducing complexity. A hybrid analog-digital transceiver architecture - continuous aperture phased (CAP) MIMO - that achieves multi-beamforming with a lens array and enables performance-complexity optimization will be highlighted. Initial theoretical and numerical results on the potential of mmW MIMO will be presented, including dense beamspace multiplexing capability and gains in capacity and power efficiency. Results from ongoing effort in CAP-MIMO prototype development for technology translation will be presented, along with an outlook for emerging Gigabit applications and 5G use cases, including backhaul, last-mile connectivity, and small-cell mobile access networks.

WS-05-Keynote-01: Technology Trends for Communications in Extreme Conditions

Hussein Mouftah, University of Ottawa, Canada
Room: PR 8
Chair: Tuncer Baykas (Istanbul Medipol University, Turkey)

Over the past few decades first responders, namely police, fire department and Emergency Medical Services (EMS) have each developed privately-operated narrowband wireless services to meet their communications needs. However, recent incidents, whether natural or human made, have exposed that the incompatibility between these wireless services, as well as their limited capacity, often presents critical threats to the lives of first responders and the public in general. Thus, there is a persistent need for a unified broadband wireless solution that can support real-time collaboration and information sharing among different types of first responders. LTE presents itself as a promising candidate for such a network due to its numerous advantages such as its large geographical footprint, large bandwidth, Quality of Service (QoS) capabilities, etc. Nevertheless, there are unique requirements and challenges for broadband wireless public safety networks. The most important requirement is interoperability, which means that personnel in different agencies have to be able to communicate directly. This requirement, combined with the limited bandwidth assigned to public safety networks in North America for instance, raises multiple challenges relating to bandwidth allocation, prioritization and scheduling, spectral efficiency, and QoS achievement. Thus, in order to extend the available bandwidth, cognitive radio access can be used in conjunction with the LTE network. Another important requirement for public safety networks is the security and privacy of information, which may not be the same for all emergency agencies. Finally, network robustness is an important requirement that has to be achieved even in the case of major incidents such as natural disasters that take out part of the network. Thus the main objective of this presentation is to address all these issues of LTE interoperability, bandwidth allocation, security and privacy, and robustness, for a first responder network.

WS-06-Keynote-01: Industrial IoT with 5G

Linus Thrybom, ABB Corporate Research, Sweden
Room: PR 9
Chair: Meryem Simsek (Technische Universität Dresden, Germany)

Industrial use of wireless communications is today limited to a few domains but has gained interest the last years within industrial verticals since it can reduce cost, improve flexibility and production. This keynote will exemplify the current industrial usage of wireless communications as well as its requirements, and then address the gap between current research activities in the academia and the actual need in industry, in order to enable a wide scale adoption of 5G.

Sunday, April 3, 08:40 - 09:20

WS-10-Keynote-02: Using Software Defined Relationships to Build the Internet of Things

Bob Frankston, IEEE Consumer Electronics Society, USA
Room: Dukhan
Chair: Soumya Kanti Datta (EURECOM & Co-Founder, Future Tech Lab, France)

Consumer electronics is in transition. We are shifting from creating value and defining products using electronics to creating solutions using software. Consider the smartphone: is it a telephone, or is it a gaming unit, a calendar a camera or a television? With other form factors we can mix or match parts to create a desktop computer, a television, a home control system or whatever we can imagine. Many single-use devices and classic limitations no longer exist. The Internet is central to this revolution. It is a byproduct of creating connectivity solutions using any available means. The Internet represents a fundamental change in how we build systems and in what it means to communicate. You simply click on a URL and you're "there". You don't worry about wires or reserved frequency. You can just assume that the packets will appear at the destination most of the time. Using software defined relationships as building blocks is very different from traditional hardware-based engineering. Welcome to the new world of software and the Internet. There's no dependence on providers or networks. For the IEEE these changes present an opportunity and challenge. Devices are becoming connected, opening up new frontiers as we create and share our own solutions and become less dependent on service providers. We're at the very earliest stages of an exciting new world.

WS-01-Keynote-02: Semiconductor Lasers for Gbps Visible Light and Underwater Communications

Boon S. Ooi, KAUST, Saudi Arabia
Room: PR 5
Chair: Mohamed M. Abdallah (Texas A&M University at Qatar, Qatar)

The unregulated visible light spectrum has recently been harnessed for energy-efficient, ultra-large bandwidth, and secure data transmission. For instance, the deployment of micro light-emitting diode (LED) by mLED for visible-light communications (VLC) provides a data rate of 512 Mbit/s. This considers low cost deployment for the sole function of wireless data communications, without the intention of using the micro LEDs for illumination. YAG:Ce phosphor is also combined with LEDs for full- or half-duplex communications with 10 Mbps links over ~3 m, as developed by pureLiFi. In such scenario, whereby both VLC and solid-state lighting (SSL) are simultaneously implemented, high power light-emitters, such as laser diodes, reliable phosphor for white-light generation and spectral-efficient optical modulation techniques are critical aspects that require further research and development.For advancing the high-power light-emitter architecture, we focused on the development of laser diodes as the illumination source in place of an LED. In our recent investigation, we undertook the challenge of integrating light-generation and modulation functionalities on a semiconductor. This is achieved by employing a small foot-print, low material polarization field waveguide-modulator / laser-diode (WM-LD) configuration, fabricated seamlessly on single crystal (20/2/1) semipolar GaN substrate. The gain section produces the intense coherent beam required for subsequent white-light generation, while the integrated modulator section enabled high performance light modulation. The fabricated WM-LD exhibited a large extinction ratio of 9.4 dB and a low operating voltage range of 0 to 3.5 V, leading to a high modulation efficiency of 2.68 dB/V. The modulation effect, which is resulted from the external-field-induced quantum-confined-Stark-effect (QCSE), suggests that our device was able to operate in a manner similar to other III-V materials typically used in optical telecommunications, due to the reduced inherent piezoelectric field. A -3dB bandwidth of ~1 GHz was measured in the WM-LD, and a data rate of 1 Gbit/s (limited by the detector bandwidth) was demonstrated using non-return-to-zero on-off keying (OOK) modulation.For proof of concept demonstration of VLC and SSL dual functionalities system, we also utilized the commercially available c-plane blue GaN laser diode (LD) in conjunction with a single crystal YAG:Ce phosphor. A high data rate of 2 Gbps of the unfiltered white light was achieved using an NRZ-OOK modulation scheme, with bit-error rate (BER) less than the forward error correction (FEC) limit of 3.5×10-3. The generated white light exhibited a color rendering index (CRI) of 58 and a correlated color temperature (CCT) of 4740 K. Alternately, by using spectral-efficient orthogonal frequency division multiplexing (OFDM) encoding scheme, a significantly higher data rate of 4.4 Gbps was demonstrated, for the individual red, blue and green LDs; the combination of which are suitable for RGB white light generation. In addition, by evaluating the phosphor-film preparation process, and optics-phosphor configurations, the generated white light can be systematically tuned from cool day light to neutral light, and still achieving over 4 Gbps data transmission based on OFDM. It is expected that further development in this area could lead to 100 Gbps data rate VLC-SSL system.In underwater optical wireless communications (UWOC), we took advantage of the low absorption of seawater in blue-green (400-550 nm) window of the electromagnetic spectrum. Using 520 nm green LD, we experimentally demonstrated 2.3 Gbit/s UWOC over 7 m distance using NRZ-OOK modulation scheme. By employing OFDM technique, we achieved 4.8 Gbit/s data rate over 5.4 m water channel using a 450 nm LD.

WS-03-Keynote-02: Doubly-massive MIMO Systems at mmWave Frequencies: Opportunities and Research Challenges

Stefano Buzzi, University of Cassino and Lazio, Italy
Room: PR 6
Chair: M. Majid Butt (Trinity College Dublin, Ireland)

One of the key features of next generation wireless communication systems will be the use of frequencies in the range 10-100GHz (aka mmWave band) in densely populated indoor and outdoor scenarios. Although conventional wisdom has always considered mmWave frequencies unsuited for cellular communications, due to increased path-loss and atmospheric absorption, recent research results have shown that on distances up to one hundred meters or even more they are actually capable of providing astonishing data-rates, larger than 1 Gbps.Due to the reduced wavelength, antenna arrays with a large number of antennas can be packed in very small volumes, making thus it possible to consider, at least in principle, communication links wherein not only the base-station, but also the user device, are equipped with very large antenna arrays. We denote this configuration as a "doubly-massive" MIMO wireless link.This talk will focus on the fundamentals of doubly-massive MIMO systems at mmWave frequencies, showing the ultimate gains that they are able to achieve, but also highlighting the extraordinary research challenges (such as, e.g., the hardware complexity and the channel estimation problem), that they pose.

WS-04-Keynote-02: What mm-waves offer for 5G networks?

Jyri Putkonen (Nokia Bell Labs, Finland)
Room: PR 7
Chair: Miurel Tercero (Ericsson AB, Sweden)

Large variety of unprecedented and dispersed use cases of connected society drive the research of 5th generation mobile global network technologies. Targeted >10x user capacity increase and even higher increase in user densities have turned interest to very high frequencies and bandwidth they can provide. However, it is not only the bandwidth but now it is time to scrutinize all aspects of mm-waves from technology and business point of view, not to forget various standardization and regulation standpoints. We need to identify the challenges and opportunities as well as recognize what we know and where more mmW-related research is needed. This is a challenge for all players in 5G value chain: What could be the differentiators mmWs offer for 5G networks?

WS-05-Keynote-02: Resilient Wireless Sensor Networks for Industrial Monitoring

Hossam Hassanein Queens University, Canada
Room: PR 8
Chair: Tuncer Baykas (Istanbul Medipol University, Turkey)

We present, Sprouts, a modern Wireless Sensor Networks (WSN) platform that utilizes unique service-oriented sensors with an energy-aware architecture in a Zigbee-compliant network. Serviceable sensors allow for the rapid conception of a wide spectrum of applications; efficiently shortening the time gap between design and deployment. The Sprouts platform is the result of an industry related research at Queen's University, and has successfully attracted some of the biggest industrial companies in Canada including Oil & Gas mining, steel production, and Power Grid monitoring. We also describe the deployment of the Sprouts platform to monitor the health conditions of the vibration screens and shovel teeth used by Syncrude in the oil sands of Canada. Previous to WSN, wired sensing solutions have been attempted for this project, but failed to sustain integrity in the harsh conditions imposed by the environment. A complete system was developed at Queen's University Telecommunications Research Lab (TRL) and successfully realized on a miniature working lab model.

WS-06-Keynote-02: The Tactile Internet, Use Cases and 5G Enablers

Vladimir Vukadinovic, Nokia, Poland
Room: PR 9
Chair: Meryem Simsek (Technische Universität Dresden, Germany)

The Tactile Internet will address many challenges that are facing our society in the areas of healthcare, education, manufacturing, and transportation. To achieve this, the Tactile Internet will rely on the new generation of mobile communication systems capable of providing very low round-trip latencies along with carrier grade robustness and availability. This keynote will present Nokia's view on some of the typical use cases for the Tactile Internet and its vision of 5G components and mechanisms that have the potential of providing the performances required by those use cases.

Sunday, April 3, 09:20 - 10:00

WS-10-Keynote-03: Tutorial: Mobile Edge Computing to Enable Consumer Internet of Things

Soumya Kanti Datta, EURECOM, France
Room: Dukhan
Chair: Soumya Kanti Datta (EURECOM & Co-Founder, Future Tech Lab, France)

Mobile Edge Computing (MEC) is a novel paradigm that extends cloud computing capabilities and services to the edge of the network. Due to its proximity to consumers, dense geographical distribution and support for high mobility, MEC platforms can provide services with reduced latency and improved QoS. Thus it is becoming an important enabler for consumer centric Internet of Things applications and services that require real time operations e.g. connected vehicles, smart road intersection management and smart grid. The talk will highlight an architecture for MEC and discuss its applicability to connected vehicles.

WS-01-01: Free Space Optical Communications

Room: PR 5
Chair: Murat Uysal (Ozyegin University, Turkey)
Performance Analysis of MIMO NLOS UV Communications over Atmospheric Turbulence Channels
Unequal Error Protection for MPOLSK based MIMO Communication over Atmospheric Turbulence Channels
Tuğba Özbilgin (Bogazici University & TUBITAK Uekae, Turkey); Mutlu Koca (Bogazici University, Turkey)

WS-03-Keynote-03: Energy Harvesting and Energy Cooperation towards Green and Sustainable Wireless Networks

Sennur Ulukus, University of Maryland, USA
Room: PR 6
Chair: M. Majid Butt (Trinity College Dublin, Ireland)

Wireless networks composed of energy harvesting devices will introduce several transformative changes in wireless networking as we know it: energy self-sufficient, energy self-sustaining, perpetual operation; reduced use of conventional energy and accompanying carbon footprint; untethered mobility; and an ability to deploy wireless networks at hard-to-reach places such as remote rural areas, within the structures, and within the human body. Energy harvesting brings new dimensions to the wireless communication problem in the form of intermittency and randomness of available energy, which necessitates a fresh look at wireless communication protocols at the physical, medium access and networking layers. In addition, energy cooperation through wireless energy transfer enables controlled and optimized energy harvesting at the receiving end. In this talk, I will summarize recent research results on energy harvesting communication and energy cooperation in the fields of communication theory, information theory and wireless networking, and outline several open research problems.

WS-04-01: Panel: Key challenges for mmWave communications in 5G mobile networks

panel session
Akbar Sayeed (Univ. of Wisconsin-Madison, USA), Jyri Putkonen (Nokia Bell Labs, Finland), Laurent Dussopt (CEA-LETI, France), Mythri Hunukumbure (Samsung R&D, UK), Tran Gia Khanh (Tokyo Institute of Technology, Japan)
Room: PR 7
Chair: Miurel Tercero (Ericsson AB, Sweden)

WS-05-01: Panel: Communication in Extreme Conditions

Hossam Hassanein (Queens University), Hussein Mouftah (University of Ottawa)
Room: PR 8
Chair: Tuncer Baykas (Istanbul Medipol University, Turkey)

WS-06-01: Panel: 5G, Vertical Industry & Tactile Internet

Gerhard Fettweis, Linus Thrybom, Vladimir Vukadinovic
Room: PR 9
Chair: Gerhard P. Fettweis (Technische Universitaet Dresden, Germany)

Sunday, April 3, 10:00 - 11:00

WS-01-Interactive-01: Networking Break & Poster Session for Morning WS

Room: Dafna Foyer
Chair: Imran Shafique Ansari (Texas A&M University at Qatar (TAMUQ), Qatar)
P1: On the Performance of Downlink Optical Communication via Relaying in the Presence of Pointing Errors
Selami Şahin (TUBITAK-BILGEM-UEKAE, Turkey); Tuğba Özbilgin (Bogazici University & TUBITAK Uekae, Turkey)

P2: Quad-LED Complex Modulation (QCM) for Visible Light Wireless Communication
Robbi Tejaswi (Indian Institute of Science, Bangalore, India); T. Lakshmi Narasimhan (National Instruments, Bangalore, India); A. Chockalingam (Indian Institute of Science, India)

WS-03-Interactive-01: Networking Break & Poster Session for Morning WS

Room: Dafna Foyer
Chair: Imran Shafique Ansari (Texas A&M University at Qatar (TAMUQ), Qatar)
P3: Cooperative Uplink OFDMA-MIMO Resource Allocation with Multiplexing Relays
Salma Hamda and Mylene Pischella (CNAM, France); Daniel Roviras (Cnam, France); Ridha R. Bouallegue, B. (Ecole Supérieure des Communications de Tunis, Tunisia)

P4: A TDMA-Based MAC between Gateway and Devices in M2M Networks
Seungmo Kim (Virginia Tech, USA)

WS-04-Interactive-01: Networking Break & Poster session for morning WS

Room: Dafna Foyer
Chair: Laurent Dussopt (CEA, LETI, Minatec, France)
P5: mmWave Channel Sounder based on COTS Instruments for 5G and Indoor Channel Measurement
Zhu Wen (Keysight Technologies Co. Ltd, P.R. China); Hongwei Kong (Keysight Technologies Co Ltd., P.R. China); Qi Wang, Shu Li and Xiongwen Zhao (North China Electric Power University, P.R. China); Mengjun Wang (China Academy of Telecommunication Technology, P.R. China); Shaohui Sun (China Academy of Telecommunications Technology (CATT), P.R. China)

P6: Time-Domain Sounder Validation and Reflectivity Measurements for mm-Wave Applications
Angelos Goulianos (University of Bristol & University of Bristol, United Kingdom); Tom Barratt, Wenfang Yuan, Siming Zhang, Mark Beach, Andrew Nix and Evangelos Mellios (University of Bristol, United Kingdom); Peter Cain (Keysight Technologies, United Kingdom); Moray Rumney (KeysightTechnologies, United Kingdom); Tim Masson (Keysight Technologies, United Kingdom)

WS-05-Interactive-01: Networking Break & Poster session for morning WS

Room: Dafna Foyer
Chair: Tuncer Baykas (Istanbul Medipol University, Turkey)
P7: Image Restoration for Through-The-Earth Communications
Sávio Neves and Lucas Silva (Universidade de Brasília, Brazil); Mylene Farias (University of Brasilia, Brazil); Andre Barreto (University of Brasilia and Nokia, Brazil)

P8: Resource Allocation for Multibeam MISO Satellite Systems: Sum Rate versus Proportional Fair Optimization
Dai Nguyen and Long Bao Le (INRS, University of Quebec, Canada)

WS-06-Interactive-01: Networking Break & Poster Session for Morning WS

Room: Dafna Foyer
Chair: Toktam Mahmoodi (King's College London, United Kingdom)
P9: The 5G Enabled Tactile Internet: Applications, Requirements, and Architecture
Meryem Simsek (Technische Universität Dresden, Germany); Adnan Aijaz (Toshiba Research Europe Ltd, United Kingdom); Mischa Dohler (King's College London, United Kingdom); Joachim Sachs (Ericsson Research & Ericsson AB, Sweden); Gerhard Fettweis (Technische Universität Dresden, Germany)

P10: Delay-aware and Power-Efficient Resource Allocation in Virtualized Wireless Networks
Saeedeh Parsaeefard and Vikas Jumba (McGill University, Canada); Mahsa Derakhshani (Imperial College London, United Kingdom); Tho Le-Ngoc (McGill University, Canada)

P11: MTC Value Network for Smart City Ecosystems
Amirhossein Ghanbari (KTH Royal Institute of Technology & Wireless@kth, Sweden); Óscar Álvarez (KTH, Royal Institute of Technology, Sweden); Jan Markendahl (Royal Institute of Technology, Sweden)

P12: Coverage and Capacity Self-Optimisation in LTE-Advanced Using Active Antenna Systems
Basel Barakat (University y of Greenwich, United Kingdom); Mohammad Sharsheer and Kamran Arshad (University of Greenwich, United Kingdom)

P13: Effective decentralised segmentation-based scheme for broadcast in large-scale dense VANETs
Chong Han and Mehrdad Dianati (University of Surrey, United Kingdom); Maziar Nekovee (Samsung Electronics, United Kingdom)

P14: Reshaping the Mobile Core Network via Function Decomposition and Network Slicing for the 5G Era
Malla Reddy Sama (DOCOMO Euro-labs, Germany); Xueli An and Qing Wei (Huawei Technologies, Germany); Sergio A. Beker (DOCOMO Euro-Labs, Germany)

WS-10-Interactive-01: Networking Break & Poster Session for Morning WS

Room: Dafna Foyer
Chair: Soumya Kanti Datta (EURECOM & Co-Founder, Future Tech Lab, France)
P15: User-centric Network Selection in Multi-RAT Systems
Alaa Awad Abdellatif and Amr Mohamed (Qatar University, Qatar); Carla-Fabiana Chiasserini (Politecnico di Torino, Italy)

P16: Trickle-Plus: Elastic Trickle Algorithm for Low- Power Networks and Internet of Things
Baraq Ghaleb, Ahmed Y Al-Dubai, Elias Ekonomou, Ben Paechter and Mamoun Qasem (Edinburgh Napier University, United Kingdom)

P17: Dynamic Media Buffer Control Scheme for Seamless Streaming in Wireless Local Area Networks
Hun-je Yeon (Yonsei University & Samsung Electronics, Korea); Seongil Hahm, Pilseob Kang and Hanmin Bang (Samsung Electronics, Korea)

Sunday, April 3, 11:00 - 12:20

WS-10-01: Mobile Edge Computing and Internet of Things

Room: Dukhan
Chair: Soumya Kanti Datta (EURECOM & Co-Founder, Future Tech Lab, France)
A Novel RACH Mechanism for Dense Cellular-IoT Deployments
Sreekanth Dama and Thomas Valerrian Pasca S (IIT Hyderabad, India); Vanlin Sathya (Indian Institute of Technology Hyderabad, India); Kiran Kuchi (IIT Hyderabad, India)

Threshold Sensitive Region-Based Hybrid Routing Protocol for Precision Agriculture
Sonam Maurya (PDPM-Indian Institute of Information Technology, Design and Manufacturing, Jabalpur, India); Vinod Jain (PDPM IIITDM Jabalpur, India)

Mobile Panoramic Video Maps Over MEC Networks
Analysis of recommendation algorithms for Internet of things
Ibrahim Mashal, Osama Alsaryrah and Tein Yaw Chung (Yuan Ze University, Taiwan)

Sunday, April 3, 11:00 - 11:20

WS-01-Invited-Talk: Coexistence of Wi-Fi and Li-Fi Toward 5G

Hany Elgala, State University of New York, USA
Room: PR 5
Chair: Mohamed M. Abdallah (Texas A&M University at Qatar, Qatar)

The growth of Internet-connected and multimedia-capable mobile devices has been exponential and the challenge to cope with the increasing demand of bandwidth-intensive services is expected to continue. Existing RF wireless technologies suffer from the spectrum scarcity, however focusing on spectrum alone to grow capacity is limited and unlikely to solve the expected network congestion. A heterogeneous network (HetNet) is a promising approach to add capacity. As we spend 90% of our times indoors and 80% of the Internet traffic happens indoors, the Wi-Fi technology has been already considered to enable indoor traffic offloading from capacity-stressed licensed RF macro/small-cells. The visible light communications (VLC) or Li-Fi is an emerging technology that uses the existing lighting infrastructure to offer high-speed data transmission combined with high-quality illumination. The Li-Fi technology has the potential for being an attractive complementary to realize indoor gigabit wireless access and to off-load data from existing cellular and Wi-Fi networks. In such multi-tiered HetNet, Wi-Fi provides overshadowing coverage for improved mobility while Li-Fi provides gigabit access for stationary or quasi-static users. In an indoor situation, a coexistence of Wi-Fi and Li-Fi is expected to improve the network throughput as well as the user's quality of service.In this talk, we focus on describing the potential of a hybrid network based on the coexistence of Wi-Fi and Li-Fi. We explore existing research activity in this area and practical framework for coexistence. We also articulate current and future research challenges based on our experience in building a proof-of-concept HetNet combining Wi-Fi and Li-Fi.

Sunday, April 3, 11:00 - 12:20

WS-03-01: Energy Efficiency in 5G Networks

Room: PR 6
Chair: Eduard Jorswieck (TU Dresden, Germany)
Energy-Efficient MIMO Overlay Communications for Device-to-Device and Cognitive Radio Systems
Alessio Zappone (TU Dresden, Germany); Bho Matthiesen (Technische Universität Dresden, Germany); Eduard Jorswieck (TU Dresden, Germany)

Resource Optimization for Energy Efficiency in Multi-cell Massive MIMO with MRC Detectors
K N R Surya Vara Prasad (The University of British Columbia, Canada); Vijay Bhargava (University of British Columbia, Canada)

Energy Efficient Power Control for the Two-tier Networks with Small Cells and Massive MIMO
Ningning Lu and Yanxiang Jiang (Southeast University, P.R. China); Fu-Chun Zheng (The University of Reading, United Kingdom); Xiaohu You (National Mobile communication Research Lab., Southeast University, P.R. China)

Optimal Energy Efficiency Based Scheduling with Impact of Transition Time in Small Cell On/Off
Rao Zhang (Beijing University of Posts and Telecommunications, P.R. China); Xiaodong Xu (Beijing University of Posts and Telecommunications & Wireless Technology Innovation Institute, P.R. China); Shuyan Peng (Beijing University of Posts and Telecommunications, P.R. China)

WS-04-02: Millimeter wave-based mobile networks

Room: PR 7
Chair: Laurent Dussopt (CEA, LETI, Minatec, France)
Millimetre Wave Backhaul/Fronthaul Deployments for Ultra-dense Outdoor Small Cells
Jialu Lun, David Grace and Alister G. Burr (University of York, United Kingdom); Yunbo Han (Huawei Technologies, P.R. China); Kari Leppanen (Huawei Technologies, Finland); Tao Cai (Huawei Technologies Sweden AB, Sweden)

Practical evaluation of on-demand smallcell ON/OFF based on traffic model for 5G cellular networks
Gia Khanh Tran (Tokyo Institute of Technology, Japan); Hidekazu Shimodaira (Tokyo Institute of Technorogy, Japan); Roya Ebrahim Rezagah (Tokyo Institute of Technology, Japan); Kei Sakaguchi (Osaka University & Tokyo Institute of Technology, Japan); Kiyomichi Araki (Tokyo Institute of Technology, Japan)

5G systems: The mmMAGIC project perspective on Use cases and Challenges between 6-100 GHz
Miurel Tercero (Ericsson AB, Sweden); Peter von Wrycza (Ericsson, Sweden); Aditya Umbu Tana Amah (IMDEA Networks, Spain); Joerg Widmer (IMDEA Networks Institute, Spain); Maria Fresia (Intel Deutschland, Germany); Valerio Frascolla (Intel Deutschland Gmbh, Germany); Javier Lorca (Telefonica I+D, Spain); Tommy Svensson (Chalmers University of Technology, Sweden); Marie-Helene Hamon and Sandrine Destouet Roblot (Orange Labs, France); Arnesh Vijay (Nokia Bell Labs, Poland); Victoria Sgardoni (University of Bristol & Technological Educational Institute of Chalkis Greece, United Kingdom); Mythri Hunukumbure (Samsung, United Kingdom); Jian Luo (Huawei Technologies Duesseldorf GmbH, Germany); Michael Peter (Fraunhofer HHI, Germany); Nikola Vucic (Huawei Technologies Duesseldorf GmbH, Germany)

WS-05-02: System Design and Channel Models for Communication in Extreme Conditions

Room: PR 8
Chair: Tuncer Baykas (Istanbul Medipol University, Turkey)
Architecture for Public Safety Network Using D2D Communication
Kamran Ali (MIddlesex Universtiy London, United Kingdom); Huan X Nguyen (Middlesex University, United Kingdom); Purav Shah (Middlesex University & School of Science and Technology, United Kingdom); Quoc-Tuan Vien and Namadev Bhuvanasundaram (Middlesex University, United Kingdom)

Channel Measurements in an Open-pit Mine using USRPs: 5G - Expect the Unexpected
Rickard Nilsson and Jaap van de Beek (Luleå University of Technology, Sweden)

Channel Modelling of Human Tissues at Terahertz Band
Ke Yang (Queen Mary University Of London, United Kingdom); Qammer Hussain Abbasi (Texas A & M University, Qatar); Khalid A. Qaraqe (Texas A&M University at Qatar, USA); Akram Alomainy (Queen Mary University of London, United Kingdom); Yang Hao (Queen Mary University, United Kingdom)

Unmanned Aerial Vehicle based Missing People Detection System employing Phased Array Antenna
Hikari Inata, Sotheara Say, Taisuke Ando and Jiang Liu (Waseda University, Japan); Shigeru Shimamoto (Waseda University & Graduate School of Global Information and Telecommunication Studies, Japan)

WS-06-02: Vertical Industry & Tactile Internet

Room: PR 9
Chair: Meryem Simsek (Technische Universität Dresden, Germany)
Network Coding for High-Reliability Low-Latency Wireless Control
Vasuki Narasimha Swamy and Paul Rigge (University of California, Berkeley, USA); Gireeja Ranade (Microsoft Research, Redmond WA, USA); Anant Sahai and Borivoje Nikolić (UC Berkeley, USA)

Towards 5G-Enabled Tactile Internet: Radio Resource Allocation for Haptic Communications
Adnan Aijaz (Toshiba Research Europe Ltd, United Kingdom)

Software Defined Networking for Cognitive Radio over Fiber systems
Sarra Rebhi, Rim Barrak and Mourad Menif (Higher School of Communications of Tunis, Tunisia)

On Amorphous Nature of Ultra Dense Networks
Guozhen Xu, Sen Wang and Chih-Lin I (China Mobile Research Institute, P.R. China)

Sunday, April 3, 11:20 - 12:20

WS-01-02: Visible Light Communications

Room: PR 5
Chair: Mohamed M. Abdallah (Texas A&M University at Qatar, Qatar)
Space Division Multiple Access in Optical Attocell Networks
Zhe Chen, Dushyantha Basnayaka and Harald Haas (The University of Edinburgh, United Kingdom)

Performance of MIMO Enhanced Unipolar OFDM with Realistic Indoor Visible Light Channel Models
Anil Yesilkaya (Kadir Has University, Turkey); Farshad Miramirkhani (Özyeğin University, Turkey); Ertugrul Basar (Istanbul Technical University, Turkey); Erdal Panayirci (Kadir Has University, Turkey); Murat Uysal (Ozyegin University, Turkey)

On the Impact of Highpass Filtering when using PAM-FDE for Visible Light Communication
Liane Grobe (Fraunhofer Heinrich Hertz Institute, Germany); Mike Wolf and Martin Haardt (Ilmenau University of Technology, Germany); Klaus Langer (HHI, Germany); Volker Jungnickel (Fraunhofer Heinrich Hertz Institute & Technische Universität Berlin, Germany)

Sunday, April 3, 14:00 - 14:40

WS-02-Keynote-01: Promising PHY Research Directions for 5G+ Wireless

Halim Yanikomeroglu, Carleton University, Canada
Room: PR 5
Chair: Abd-Elhamid M. Taha (Alfaisal University, Saudi Arabia)

The 5G exploratory phase is winding down as 2016 marks the beginning of the 5G standardization phase. Accordingly, it is time to reinitiate a brainstorming endeavour for the beyond-5G wireless networks (5G+ wireless). Towards that end, this talk will present some promising PHY research directions for 5G+ wireless, including but not limited to -- 1) Some recent advances in PHY research. 2) Signal constellation design: Revisiting a well-investigated concept with new enablers in novel use cases. 3) Noncoherent communications: Getting away with pilot signals. 4) Faster-than-Nyquist signaling: How fast is too fast?

WS-07-Keynote-01: Wireless Powered Communication Networks: An Overview

Rui Zhang, National University of Singapore, Singapore
Room: PR 6
Chair: Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France)

Wireless powered communication network (WPCN) is a new networking paradigm where the battery of wireless communication devices can be remotely replenished by means of microwave wireless power transfer (WPT) technology. WPCN eliminates the need of frequent manual battery replacement/recharging, and thus significantly improves the cost and performance over conventional battery-powered communication networks. However, the design and future application of WPCN is essentially challenged by the low WPT efficiency over long distance and the complex nature of joint wireless information and power transfer within the same network. In this talk, we will provide an overview of the key networking structures and performance enhancing techniques to build an efficient WPCN. Besides, we point out new and challenging future research directions for WPCN.

WS-08-Keynote-01: Trends, Research Activities, and Views on Future Spectrum Management

Brian Mark, George Mason University, USA
Room: PR 7
Chair: Kenta Umebayashi (Tokyo University of Agriculture and Technology, Japan)

Future wireless systems require more and more throughput to satisfy users' expectations. However, most of the lower frequencies are already allocated. Measurements have shown that actual usage of the frequencies is low. Due to this reason, regulators around the world are interested in how to utilize the unused frequencies for the benefit of the society. Example solutions include databases for TV whitespace, and LSA (licensed shared access), ASA (authorized shared access). Most flexible solution would be full cognitive radio, finding autonomously unused frequencies to use for its own transmissions. The full cognitive radio solution demands high accuracy of spectrum sensing and very efficient spectrum utilization. Recently, it has been proposed that sensing accuracy and spectrum utilization can be improved by using real world measurements and statistics extracted from them. To achieve cognitive radio based spectrum utilization, new spectrum management policies need to be developed. In this keynote, trends, research activities, and views on future spectrum management around the globe are presented.

WS-09-Keynote-01: Information-theoretic Security: Old, New, and Personal Perspectives

Ueli Maurer, ETH, Zurich, Switzerland
Room: PR 8
Chairs: Steven McLaughlin (Georgia Institute of Technology, USA), Zouheir Rezki (King Abdullah University of Science and Technologie (KAUST), Saudi Arabia)

This talk reviews old and new results in information-theoretically secure encryption, authentication, and key agreement, asking the question of their (un-)suitability for an application context. A core issue is composability; for example, if a secret key generated by a provably-secure key-agreement protocol is used in a provably-secure encryption scheme, then the combination should also be secure. But is it? Such questions are addressed, with some surprises, using the constructive cryptography framework.

WS-12-Keynote-01: Mm-Wave Communications for 5G and the Role for D2D/ M2M

Mythri Hunukumbur, Samsung, UK
Room: PR 9
Chair: Afef Feki (France Research Center, Huawei Technologies, France)

5G promises to provide extreme broadband, massive connectivity and ultra-reliable/ low latency communications across multiple vertical sectors. Due to the scarcity of suitable spectrum in the sub 6GHz region, the mm-wave spectrum (loosely defined as 6-100GHz) has become very appealing to the 5G research community. The EU funded mmMAGIC project investigates the suitability of this spectrum for 5G and designs/ develops radio access architectures and schemes to meet the challenges in this spectrum. Under the multi-antenna and multi-node theme of WP5 (work package 5), we have identified 4 use cases to provide a distinct step change in user experience to the early adopters of 5G. In meeting the challenging KPIs, the D2D and M2M communications have a vital role to play. In this talk, I will highlight the envisaged roles for D2D/ M2M in the selected 5G use cases. Also I will present some early results in this domain from the technical work of WP5.

Sunday, April 3, 14:40 - 15:20

WS-02-Keynote-02: Resource Allocation in the D2D Communications

Abd-Elhamid M. Taha, Alfaisal University, Saudi Arabia
Room: PR 5
Chair: Abd-Elhamid M. Taha (Alfaisal University, Saudi Arabia)

Device-to-Device (D2D) continues to hold strong promise, not only for enhancing spectrum utilization, but also for improving wireless services. To date, various efforts have been in both research and industry, with practical implementation instances now emerging. We take a multi-faceted view of resource allocation and management in Device-to-Device Communications (D2D) in different settings: whether overlaid/underlaid; and whether in-band/out-of-band. We review the problem at the heart of the matter, and discuss its tractability, the state of the art solutions, and the road ahead.

WS-07-Keynote-02: Wirelessly Powered Communications: From Theory to Practice

Kaibin Huang, The University of Hong Kong, Hong Kong
Room: PR 6
Chair: Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France)

The advancements in microwave power transfer (MPT) over past decades have enabled wireless power transfer over long distances. The latest breakthroughs in wireless communication, namely massive MIMO, small cells and millimeter-wave communication, make wireless networks suitable platforms for implementing MPT. This can lead to the elimination of the "last wires" connecting mobile devices to the grid for recharging, thereby tackling a long-standing ICT grand challenge. Furthermore, the seamless integration between MPT and wireless communication opens a new and actively area called wirelessly powered communications (WPC). In this talk, I will discuss novel techniques that can transform WPC from theory into practice including superdirectivity transmission, analog decoupling of power and information transfers, safety aware adaptive transmission, new waveform designs and backscattering enabled multiuser MPT.

WS-08-Keynote-02: Vehicle Communications and Spectrum Allocation: State of the Art & Trends

Hamid Menouar, Qatar Mobility Innovations Center, Qatar
Room: PR 7
Chair: Kenta Umebayashi (Tokyo University of Agriculture and Technology, Japan)

Connected and autonomous driving are the future of Intelligent TransportSystem (ITS) and road safety, and they have never been closer to market thantoday. In fact, all big car makers have been working on enabling suchtechnologies, of which some fractions have been already deployed in somenowadays high class vehicles, such as using broadband communication to bringInternet inside the car, or relaying on stand-alone sensors to let the carpark by itself or automatically adjust the distance to the front car on thehighway. Many more life-saving and useful features will come-out in thefuture when the full versions of these emerging technologies are deployed.Connected vehicles technology, which is also a key enabler for autonomousdriving, is based on a WiFi-like short range wireless communication akavehicle to vehicle (V2V) and vehicle to infrastructure (V2I) communication.Such a technology offers a low latency communication which is necessary toenable real-time coordination among nearby vehicles and road infrastructure,which is required to enable critical-safety applications as well asautonomous driving. But it requires a dedicated radio spectrum to ensure thereliability level which is required for the safety applications, therefore aradio spectrum has to be allocated exclusively to this type ofcommunication. For example, in both Europe and US a limited spectrum hasbeen allocated around 5.9Ghz for few years to test and validate thetechnology. But still many other places around the world need to adopt sucha spectrum allocation to facilitate the deployment of the Connected Vehiclestechnology. This talk will provide an overview about Connected Vehicles and relatedinternational and local efforts as well as open challenges towards thecommercial deployment.

WS-09-Keynote-02: Lattice Codes for Wiretap Channels: A Finite Dimensional Analysis

Jean Claude Belfiore, Huawei French Research Lab., Paris, France
Room: PR 8
Chairs: Steven McLaughlin (Georgia Institute of Technology, USA), Zouheir Rezki (King Abdullah University of Science and Technologie (KAUST), Saudi Arabia)

Lattice codes are becoming a key solution to solve multiterminal coding issues. Recent results have shown that they can achieve the secrecy capacity of the Gaussian Wiretap channel. We first explain the nested coding approach. Then we give a design criterion related to the theta series of the lattice: the flatness factor. This design criterion is not easy to analyze but it can be computed for some families of lattices: modular lattices. Some examples of modular lattices will be given as well as the information leakage related to them when they are used for secrecy purpose.

WS-12-Keynote-02: Device-to-device: from 4G to future 5G

Zexian Li, Nokia, Finland
Room: PR 9
Chair: Majed Haddad (University of Avignon, France)

Direct Device-to-Device (D2D) functionality was introduced into the 3GPP LTE-Advanced specifications staring from Release 12 to support proximity services (also known as ProSe).Furthermore it is widely envisioned that D2D will be one of the most important technical enablers of supporting emerging application within 5G era, as shown in for example in METIS ( Starting fromshort explanation of the key motivations for D2D in LTE radio access technology, this talk is focused on D2D development in METIS project: D2D related use cases and scenarios, key technology components developed within METIS project and the role of D2D in METIS concept. Insight will also be provided into the future D2D development.

Sunday, April 3, 15:20 - 16:00

WS-02-Keynote-03: Resource Allocation and Cross Layer Design in 5G Wireless Networks

Mohamad Assaad, SUPÉLEC, France
Room: PR 5
Chair: Abd-Elhamid M. Taha (Alfaisal University, Saudi Arabia)

The proliferation of wireless multimedia applications necessitates the development of new wireless systems that can support the expected high amount of mobile data traffic in the next years. It has been adopted by the 3GPP that the future 5G cellular networks must support the 1000-fold increase in traffic demand. This requires developing new physical layer techniques, e.g. Massive MIMO and Millimeter wave (mmWave), and new network architecture. In fact, Massive MIMO systems where base stations are equipped with hundreds of antennas have been recognized as an efficient technique to increase the spectral efficiency of wireless networks. However, the increase of capacity obtained by physical layer techniques may not be enough to meet the traffic demands and a new architecture is required. 5G networks will have a heterogeneous architecture where macro cells, small cells and D2D co-exist and may cooperate between each other to enhance the performance of the network. This will certainly add additional challenges to the problems of resource allocation. In this talk, we will highlight these challenges and provide some recent results in this area. In particular, a cross layer design framework taking into the physical layer (Massive MIMO), the heterogeneous architecture and the dynamic traffic pattern will be described. The interplay between D2D and Massive MIMO will be covered as well.

WS-07-Keynote-03: Waveform Design for WPT and SWIPT

Bruno Clerckx, Imperial College London, UK
Room: PR 6
Chair: Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France)

Far-field Wireless Power Transfer (WPT) and Simultaneous Wireless Information and Power Transfer (SWIPT) have attracted significant attention in the RF and communication communities. Despite the rapid progress, the problem of waveform design to enhance the output DC power of wireless energy harvester has received limited attention so far. In this talk, we bridge communication and RF design and derive novel multisine waveforms for WPT and SWIPT. The waveforms are adaptive to the channel state information and result from a posynomial/signomial maximization problem that originates from the inherent non-linearity of the wireless power channel (concatenation of the propagation channel and rectenna). They are shown through realistic simulations to provide significant gains (in terms of harvested DC power and rate-energy region) over state-of-the-art waveforms under a fixed transmit power constraint.

WS-08-01: Spectrum Occupancy Measurements and Techniques

Room: PR 7
Chair: Mai Ohta (Fukuoka University, Japan)
Long Term Spectrum Survey of the 2.4 GHz ISM Band in Multiple Hospital Environments
Mohamad Omar Al Kalaa, Gregory Butron and Walid Balid (University of Oklahoma, USA); Hazem Refai (Oklahoma University, USA); Nickolas J LaSorte (University of Oklahoma-Tulsa, USA)

A study on Welch FFT segment size selection method for spectrum awareness
Hiroki Iwata, Kenta Umebayashi and Samuli Tiiro (Tokyo University of Agriculture and Technology, Japan); Janne Lehtomäki (University of Oulu, Finland); Yasuo Suzuki (Tokyo University of Agriculture and Technology, Japan)

WS-09-01: Fundamental Results

Room: PR 8
Chairs: Steven McLaughlin (Georgia Institute of Technology, USA), Zouheir Rezki (King Abdullah University of Science and Technologie (KAUST), Saudi Arabia)
Type II Wiretap Channel with an Active Eavesdropper in Finite Blocklength Regime
Anna Frank (Technische Universität München, Germany); Harout Aydinyan (TUM, Germany); Holger Boche (Technical University Munich, Germany)

Three-User Cognitive Multiple-Access Channels with Confidential Messages
Amir Sonee (Ferdowsi University of Mashhad, Iran); Ghosheh Abed Hodtani (Ferdowsi University of Mashhad, Mashhad, Iran)

WS-12-01: Panel: M2M Communication in 5G: Challenges and Opportunities

Mérouane Debbah (Huawei), Zexian Li (Nokia), Mythri Hunukumbur (Samsung), Rapeepat Ratasuk (Nokia)
Room: PR 9
Chairs: Majed Haddad (University of Avignon, France), Afef Feki (France Research Center, Huawei Technologies, France)

Sunday, April 3, 16:00 - 17:00

WS-02-Interactive-02: Networking Break & Poster session for afternoon WS

Room: Dafna Foyer
Chair: Shahid Mumtaz (Instituto de Telecomunicações, Portugal)
P1: Hardware Experiments on Multi-Carrier Waveforms for 5G
Petra Weitkemper (DOCOMO Euro-Labs, Germany); Johannes Koppenborg (Nokia Bell Labs, Germany); Jamal Bazzi (DOCOMO Euro-Labs, Germany); Rupert Rheinschmitt (Nokia Bell Labs, Germany); Katsutoshi Kusume (DOCOMO Euro-Labs, Germany); Dragan Samardzija (Bell Labs, Nokia, USA); Rolf R.M. Fuchs (Bell Labs, Nokia, Germany); Anass Benjebbour (NTT DOCOMO, INC., Japan)

P2: Centralised and Distributed Interference Management in Coordinated Downlink Beam-forming
Swagato Barman Roy and A S Madhukumar (Nanyang Technological University, Singapore); Francois Chin (Institue for InfoComm Research, Singapore)

P3: On the Performance of Time Constrained OQAM-OFDM Waveforms with Preamble Based Channel Estimation
Toni A Levanen and Markku K. Renfors (Tampere University of Technology, Finland); Tero Ihalainen (Nokia Research Center, Finland); Eeva Lähetkangas (Nokia Networks, Finland); Ville Syrjälä (Tampere University of Technology & Kyoto University, Finland); Mikko Valkama (Tampere University of Technology, Finland)

P4: Performance Analysis for the QoS Support in LTE and WiFi
Amer Saeed, SAEED (University of New Haven, USA); Amir Esmailpour (University of New Haven & Ryerson University, USA); Nidal Nasser (Alfaisal University, Saudi Arabia)

P5: SDRAN-Based User Association and Resource Allocation in Heterogeneous Wireless Networks
Mohamad Zalghout (INSA de Rennes & Institute of Electronics and Telecommunication of Rennes (IETR), France); Ayman Khalil (Institute of Electronics and Telecommunications of Rennes - IETR & INSA, France); Matthieu Crussière (IETR - Electronics and Telecommunications Research Institute of Rennes (IETR) & INSA - National Institute of Applied Sciences, France); Samih Abdul-Nabi (Lebanese International University, Lebanon); Maryline Hélard (INSA Rennes & IETR Institute of Electronics and Telecommunications of Rennes, France)

P6: Block Lower Multi-diagonalization for Multiuser MIMO Downlink
Hiroshi Nishimoto and Hiroki Iura (Mitsubishi Electric Corporation, Japan); Akinori Taira (Mitsubishi Electric Corp. & RIEC, TOHOKU University, Japan); Akihiro Okazaki and Atsushi Okamura (Mitsubishi Electric Corporation, Japan)

P7: Codeword based power loading in MU-MIMO
Filippo Tosato (Toshiba Research Europe, United Kingdom); Magnus Sandell (Toshiba TRL, United Kingdom)

P8: On Handovers in Uplink/Downlink Decoupled LTE HetNets
Mukesh Giluka (Indian Institute Of Technology Hyderabad, India); Sibgath Khan (Indian Institute of Technology Hyderabad, India); Gadde Murali Krishna (Indian Institute of Technology, Hyderbad, India); Touheed Atif and Vanlin Sathya (Indian Institute of Technology Hyderabad, India); Bheemarjuna Reddy Tamma (IIT Hyderabad, India)

P9: Performance of Wireless Backhaul in Satellite Communication system
Abdurrahman Alfitouri (Manchester University, United Kingdom); Khairi A. Hamdi (University of Manchester, United Kingdom)

P10: A distributed Multi-channel MAC Protocol with Parallel Cooperation for the Next Generation WLAN
Bo Yang (Northwestern Ploytechnical University, P.R. China); Bo Li (Northwestern Polytechnical University, P.R. China); Zhongjiang Yan (Northwestern Ploytechnical University, P.R. China); Mao Yang (Northwestern Polytechnical University, P.R. China)

WS-07-Interactive-02: Networking Break & Poster Session for afternoon WS

Room: Dafna Foyer
Chair: Aissa Ikhlef (Newcastle University, United Kingdom)
P11: Enhancing Full-duplex Information Transfer by RF Energy Harvesting
Chen-Feng Liu (University of Oulu, Finland); Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France); Chia-Han Lee (Academia Sinica, Taiwan); Tony Q. S. Quek (Singapore University of Technology and Design, Singapore); Leonardo S. Cardoso (Université de Lyon & INRIA, INSA-Lyon, CITI-INRIA, France)

P12: Traffic and Energy-Aware Access in Wireless Powered Cognitive Radio Networks
Muhammad Ejaz Ahmed (Sungkyunkwan University, Korea); Dong In Kim (Sungkyunkwan University (SKKU), Korea)

WS-08-Interactive-02: Networking Break & Poster Session for Afternoon WS

Room: Dafna Foyer
Chair: Janne Lehtomäki (University of Oulu, Finland)
P13: Novel Two-Stage Spectrum Sensing for Energy Detection with FFT
Mai Ohta (Fukuoka University, Japan); Osamu Takyu (Shinshu University, Japan); Takeo Fujii (The University of Electro-Communications, Japan); Makoto Taromaru (Fukuoka University, Japan)

P14: Performance Evaluation of Multi-Target Tracking for PhyC-SN
Minato Oriuchi, Osamu Takyu and Keiichi Shirai (Shinshu University, Japan); Takeo Fujii (The University of Electro-Communications, Japan); Mai Ohta (Fukuoka University, Japan); Fumihito Sasamori and Shiro Handa (Shinshu University, Japan)

P15: Energy Detection Based Estimation of Primary Channel Occupancy Rate in Cognitive Radio
Miguel López-Benítez (University of Liverpool, United Kingdom); Janne Lehtomäki (University of Oulu, Finland)

P16: On the Effects of I/Q Imbalance on Sensing Performance in Full-Duplex Cognitive Radios
Alexandros-Apostolos A Boulogeorgos (Aristotle University of Thessaloniki, Greece); Haythem Bany Salameh (Yarmouk University, Jordan); George K. Karagiannidis (Aristotle University of Thessaloniki, Greece)

P17: Energy-Efficient Based On Cluster Selection and Trust Management in Cooperative Spectrum Sensing
Zina Chkirbene, Mazen Omar Hasna and Ridha Hamila (Qatar University, Qatar); Noureddine Hamdi (INSAT, Carthage University & ENIT SYSCOM Laboratory, Tunisia)

WS-09-Interactive-02: Networking Break & Poster Session for Afternoon WS

Room: Dafna Foyer

WS-12-Interactive-02: Networking Break & Poster Session for Afternoon WS

Room: Dafna Foyer
Chair: Majed Haddad (University of Avignon, France)
P18: A Reference Signal based GLRT for Simultaneous Sensing and Reception in Cognitive LTE-A Systems
Prasanth Karunakaran (University of Erlangen-Nuremberg & Lehrstuhl für Mobilkommunikation, Germany); Wolfgang Gerstacker (University of Erlangen-Nuernberg, Germany)

P19: Evaluation of multiple access strategies with power control error and variable packet length in M2M
Qipeng Song (Institut Mines-Télécom / Télécom Bretagne / IRISA, France); Loutfi Nuaymi (Telecom Bretagne, France); Xavier Lagrange (Institut Mines Telecom / Telecom Bretagne & IRISA, France)

P20: Analysis of Uplink SIR for Cellular Network with Underlaid D2D Communications
Anushree Neogi (Indian Institute of Technology Bombay, India); Abhay Karandikar (IIT Bombay, India)

Sunday, April 3, 17:00 - 17:40

WS-02-Keynote-04: When Nanotechnology meets Internet of Things

Najah Abed AbuAli, UAE University, UAE
Room: PR 5
Chair: Shahid Mumtaz (Instituto de Telecomunicações, Portugal)

The Internet of Things (IoT) is the main paradigm through which medical devices will be connected to the Internet, thereby empowering near-real-time health services and transforming a patient's physical space into a smart space. Recent developments in nanotechnology enabled designing novel applications that can be supported by nanomachines such as smart drug administration, nanoscale surgeries, and epidemic spread detection and management. This upholds health services from being near-real time health service into real-time services. In this talk, we present a glimpse on the state-of-the art of the Internet of nanothings (IoNT). We will identify the architectural requirements necessary for IoNT-based healthcare applications, and the networking requirements entailed by those applications. We will also discuss the IoNT implementation and performance evaluation issues, especially those related to deployment, communication, and co-existence with other networking paradigms. Finally, we will highlight the main challenges and opportunities of IoNT for realizing healthcare applications and services.

Sunday, April 3, 17:00 - 18:20

WS-07-01: Wireless Power Transfer - State of the Art and Beyond

Room: PR 6
Chair: Aissa Ikhlef (Newcastle University, United Kingdom)
Long-term throughput optimization in WPCN with Battery-Powered Devices
Alessandro Biason (University of Padova, Italy); Michele Zorzi (Università degli Studi di Padova, Italy)

Distributed Energy Beamforming with One-Bit Feedback
Seunghyun Lee and Rui Zhang (National University of Singapore, Singapore)

Secure Beamforming for Max-Min SINR in Multi-Cell SWIPT Systems
Ali A Nasir (National University of Sciences and Technology (NUST), Pakistan); Duy T Ngo (The University of Newcastle, Australia); Hoang D. Tuan (University of Technology, Sydney, Australia); Salman Durrani (The Australian National University, Australia); Dong In Kim (Sungkyunkwan University (SKKU), Korea)

Energy and Data Cooperation in Energy Harvesting Multiple Access Channel
Berk Gurakan (University of Maryland, USA); Berrak Sisman and Onur Kaya (Isik University, Turkey); Sennur Ulukus (University of Maryland, USA)

WS-08-02: Cognitive Radio Networks and Dynamic Spectrum Access

Room: PR 7
Chair: Miguel López-Benítez (University of Liverpool, United Kingdom)
Coexistence between OFDM and Pulsed Radars in The 3.5 GHz Band with Imperfect Sensing
Seungmo Kim and Junsung Choi (Virginia Tech, USA); Carl B. Dietrich (Virginia Tech & Wireless @ Virginia Tech, USA)

Characterization and Adaptive Selection of Radio Channels for Reliable and Energy-Efficient WSN
Achim Berger and Markus Pichler (Linz Center of Mechatronics GmbH, Austria); Daniele Ciccarello and Peter Priller (AVL List GmbH, Austria); Andreas Springer (Johannes Kepler University Linz, Austria)

Development of Measurement Techniques and Tools for Coexistence Testing of Wireless Medical Devices
Walid Balid and Mohamad Omar Al Kalaa (University of Oklahoma, USA); Samer Rajab (Honda R&D Americas, Inc., USA); Hasan Tafish (University of Oklahoma, USA); Hazem Refai (Oklahoma University, USA)

Knowledge-based Update of Primary Exclusive Region for Database-driven Spectrum Sharing Towards 5G

Sunday, April 3, 17:00 - 18:00

WS-09-02: Practical Schemes

Room: PR 8
Chair: Zouheir Rezki (King Abdullah University of Science and Technologie (KAUST), Saudi Arabia)
Multiband Jamming Strategies with Minimum Rate Constraints
Karim A. Banawan (University of Maryland, College Park, USA); Sennur Ulukus (University of Maryland, USA); Peng Wang (NRC PostDoc, USA); Brian Henz (US Army Research Laboratory, USA)

Time Obfuscation-Based Privacy-Preserving Scheme for Location-Based Services
Fenghua Li (State Key Laboratory of Information Security, Institute of Information Engineering, CAS, P.R. China); Sheng Wan (Xidian University, P.R. China); Ben Niu (State Key Laboratory of Information Security, Institute of Information Engineering, CAS, P.R. China); Hui Li (Xidian University, P.R. China); Yuanyuan He (State Key Laboratory of Information Security, Institute of Information Engineering, CAS, P.R. China)

An Efficient CGA Algorithm against DoS Attack on Duplicate Address Detection Process
Cui Zhang (Institute of Information Engineering, Chinese Academy of Sciences, P.R. China); Jinbo Xiong (Fujian Normal University, P.R. China); Qiong Wu (Southeast University, P.R. China)

Sunday, April 3, 17:00 - 18:20

WS-12-02: D2D Communications for 5G Networks

Room: PR 9
Chair: Afef Feki (France Research Center, Huawei Technologies, France)
A Hierarchical Radio Resource Management Scheme for Next Generation Cellular Networks
Dariush Mohammad Soleymani, Andre Puschmann and Elke Roth-Mandutz (Ilmenau University of Technology, Germany); Jens Mueckenheim (Merseburg University of Applied Science, Germany); Andreas Mitschele-Thiel (Ilmenau University of Technology, Germany)

Topology Formation in Mesh networks considering Role Suitability
Mohit Agnihotri (KTH Royal Institute of Technology & Eindhoven Technical University, Sweden); Roman Chirikov (Ericsson AB, Sweden); Francesco Militano (Ericsson, Sweden); Cicek Cavdar (KTH Royal Institute of Technology, Sweden)

NB-IoT System for M2M Communication
Rapeepat Ratasuk (Nokia Networks, USA); Benny Vejlgaard (Nokia Siemens Networks, Denmark); Nitin Mangalvedhe and Amitava Ghosh (Nokia Networks, USA)

A Two Dimensional Beam Scanning Array Antenna for 5G Wireless Communication
Stella Ifeoma Orakwue (Universiti Teknologi Malaysia (UTM), Malaysia); Razali Ngah (Universiti Teknologi Malaysia, Malaysia); Tharek Abdul Rahman (Wireless Communication Centre, Malaysia)

Sunday, April 3, 17:40 - 18:20

WS-02-01: Uplink waveform for 5G

Room: PR 5
Chair: Najah A. Abu Ali (UAEU, UAE)
Resource Block Management for Uplink UFMC Systems
Hyunsoo Kim (Yonsei University, Korea); Jonghyun Bang (University of Yonsei, Korea); Sooyong Choi and Daesik Hong (Yonsei University, Korea)

MIMO Uplink NOMA with Successive Bandwidth Division
Soma Qureshi and Syed Ali Hassan (National University of Sciences and Technology, Pakistan)

For any inquiries, please contact WCNC2016