IEEE PIMRC'16 WORKSHOPS
The Internet of Things (IoT) and its enabling services are revolutionizing the mobile ecosystem and expected to create further growth for the Telecom industry. At its core, M2M communication plays the role of fundamental enabler. It is estimated that a few tens of billions of connected devices will be deployed by 2025, and a major portion of them are going to be connected wirelessly. M2M communications are expected to open avenues for new type of services and applications such as utility meters, vending machines, telemetry, surveillance, healthcare, transportation, and automotive (e.g., smart traffic, real time traffic information, fleet management, engine monitoring, and reporting)... see more
Hamid Aghvami, King’s College, London, UK.
Rapeepat Ratasuk, Nokia Bell Labs, Arlington Heights, USA.
Sassan Iraji, Aalto University, Finland.
Francesco Militano, Ericsson Research, Sweden.
Andrés Laya, KTH Royal Institute of Technology, Sweden.
David Gonzalez Gonzalez, Aalto University, Finland.
There has been a surge in wireless technologies over the last decade, which has led to the crowding of existing spectrum. In order to address the resulting congestion and shortage of capacity, the cognitive radio (CR) concept has been envisioned in the context of 5G networks. Among other benefits, CR can increase the efficiency of spectrum utilization, and improve the management, performance and coexistence of heterogeneous networks with diverse radio access technologies... see more
Oliver Holland, Centre for Telecommunications Research King's College London, United Kingdom.
Adrian Kliks, Poznan University of Technology, Poland.
Kareem Emile Baddour, Communications Research Centre Canada, Canada.
Panagiotis Demestichas, University of Piraeus, Greece.
Faouzi Bader, CentraleSupélec, France.
Markus Mueck, INTEL Mobile & Communications Group, Germany.
Andres Navarro Cadavid, Universidad Icesi, Colombia.
Over the years, we have witnessed the merging of wireless communications and transportation technologies. This excellent combination of two important fields has propelled our capabilities even further, allowing us to communicate anytime and anywhere, thereby improving the traffic safety, reducing the travel costs, and increasing our life quality tremendously... see more
Carlos T. Calafate, Technical University of Valencia, Spain.
Francisco J. Martinez, University of Zaragoza, Spain.
The amount of mobile data traffic has increased enormously as mobile networks grow densely with the massive growth in wireless connected devices. This trend is expected to accelerate in the future, as new ubiquitous smart mobile devices provide an excellent platform for mobile users to engage with each other wirelessly through interactive applications, which will impose energy consumption and the use of wireless bandwidth to guarantee high level of quality of service (QoS). Therefore, it can be envisioned that the fifth generation (5G) networks need to meet the high throughput demands stemmed from increased user densification and bandwidth-hungry applications, while at the same time reducing energy consumption... see more
Huiling Zhu, University of Kent, United Kingdom.
Kun Yang, University of Essex, United Kingdom.
Meilong Jiang, Huawei Technologies, USA.
The interest in the Self-Organizing Network (SON) paradigm applied to wireless communications networks is high, both with respect to existing networks, but also for future radio access technologies beyond LTE and LTE-Advanced. 5G concepts are maturing, and the 6th IWSON with the slogan “On the path towards 5G RAN SON” aims at providing a forum for the early academic/industrial 5G RAN SON discussions. Furthermore, 5G ambitions also include a focus on verticals’ applications with end-to-end requirements and network function and cloud virtualization. SON may also be leveraged by recent advances in learning and cognition... see more
Fredrik Gunnarsson, Ericsson Research, Sweden.
Zwi Altman, Orange Labs, France.
Thomas Kürner, Technische Universität Braunschweig, Germany.
Markus Gruber, Nokia Bell Labs, Germany.
Lars Christoph Schmelz, Nokia Bell Labs, Germany.
Kostas Tsagkaris, University of Piraeus, Greece.
Taking into account the necessity to strengthen the security of the radio access of cellular networks, MIMO and Massive MIMO, WLANs, machine type radio-communications and Internet of Thing, to keep resilience when facing advanced passive and active attackers (which may have prior knowledge about victim network, user equipment or subscriber), this full-day workshop will receive an exceptional panel, bringing together academic and industrial researchers and members of standardization bodies. The workshop will present keynote speakers, exhibit theoretical experimental results, oral and poster presentations about the application of Physical layer Security concepts into key-free security schemes into public RATs. During the day, networking will be organized as well as interactive discussions on deployment, regulatory and legal implications of key-free secure schemes based on Physical Layer Security... see more
François Delaveau, Thales Communications and Security, France.
Christiane Kameni, Thales Communications and Security, France.
Adrian Kotelba, VTT, Finland.
Cong Ling, Imperial College of London, United Kingdom.
Alain Sibille, Telecom Paris Tech, France.
The demand for mobile connectivity is continuously increasing, and by 2020 Mobile and Wireless Communications will serve not only very dense populations of mobile phones and nomadic computers, but also the expected multiplicity of devices and sensors located in machines, vehicles, health systems and city infrastructures. The Inclusive Radio Communications concept defines the technologies for supporting wireless connectivity for any rates, type of communicating units, and scenario. It is expected to be implemented in and beyond the fifth generation (5G) of radio communication networks. Spectral and spatial efficiency are key challenges, in addition to constraints like energy consumption, latency, mobility, adaptability, heterogeneity, coverage, and reliability, amongst others. While many of these aspects are not especially new, the wireless Internet of Things (IoT) beyond 2020 will require revolutionary approaches in Radio Access Technologies... see more
Clavier Laurent, University of Lille, France.
5G networking along with new technologies and advanced techniques (edge caching, network function virtualization and software defined networks) is assumed as a means to accommodate the extremely rapid changes and increased requirements. In this new environment, security, privacy, regulatory and business issues should be investigated. End-to-end security across all layers of the network should be addressed in all 5G network implementations from the very beginning. Security of the network will depend heavily on the proper management and manipulation of NFV and SDN technologies. In addition, new players will enter the market and thus new business models should be derived. Finally, the need for resource and spectrum sharing will result in regulatory transformations. The reason for this workshop is to show case the work of CHARISMA project and discuss business and regulatory issues of 5G networking... see more
Ioannis Neokosmidis, INCITES CONSULTING SARL, Luxembourg.
Theodoros Rokkas, INCITES CONSULTING SARL, Luxembourg.
Developed countries worldwide are facing a rapidly growing elderly population and a declining workforce, as a result of increased life expectancy and decreased birth rates. The personal communication between elderly people, their environment, and relevant groups of care givers is an important aspect in AAL; the pervasive connectivity needed may leverage the IoT capabilities, to connect humans to smart objects, and put smart objects at the service of users’ needs. A specific focus is on low power communication technologies and energy-saving design at/among different layers; security and privacy issues, at single node/object level, and in a system/platform perspective; big data, analytics, and signal processing for AAL enabled by IoT; cloud and mobile cloud architectures supporting AAL through IoT. Researchers from IoT and AAL fields will foster a better common understanding, exchange visions and latest research results, and discuss promising new technologies to tackle open challenges... see more
Susanna Spinsante, Università Politecnica delle Marche, Italy.
Rongshan Yu, Institute for Infocomm Research, Singapore.
Nuno Garcia, University of Beira Interior, Portugal.
Frequency bands above 6 GHz, and especially above 30 GHz, are promising candidates for 5G mobile communications since there is an abundant of spectrum available. Although these millimeter wavelength signals have been used in fixed point-to-point communications, their application in a network of mobile terminals is still in its infancy. The application to mobile communication networks has many challenges including high path loss and body loss, higher penetration and foliage loss, mobility issues, multiple user access, coverage, and deployment issues in urban environments, and much more. Promising techniques include novel beamforming techniques using massive antenna arrays, low form factor chip-scale antennas for base stations and user devices, adaptive backhauling. Despite some progress in the above-mentioned techniques, a complete system design remains elusive... see more
Behnaam Aazhang, Rice University, Houston, EEUU.
Workshop papers submission deadline: EXTENDED to May 6th, 2016
Notification: June 10th, 2016
Final workshop papers submission deadline: July 1st, 2016
WORKSHOP PAPERS SUBMISSION GUIDELINES
All submissions should be written in English with a maximum paper length of Six (6) printed pages (10-point font) including figures without incurring additional page charges (maximum 1 additional page with over length page charge if accepted).