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  • Spectrum sharing, management, policies, “5G” and more… – CROWNCOM 2016 conference summary

    Spectrum sharing, management, policies, “5G” and more… – CROWNCOM 2016 conference summary

    Date: 13.06.2016

    Category: 5G, Mobile Networks

    5G Conference

    Last week of May, I attended the Conference on Cognitive Radio Oriented Wireless Networks (CROWNCOM 2016 – in Grenoble, France. And as I found it very interesting, this time I would like to share a conference summary in the below article. 


    As dynamic spectrum access-related aspects are getting closer and closer to the cellular communications (especially in the context of 5G), this conference, originally being CR focused, is starting to bring attention from the MNOs and infrastructure vendors as well as players from IoT world. The current edition covered the following tracks:

    • Dynamic Spectrum Access/Management and Database
    • Networking Protocols for Cognitive Radio
    • PHY and sensing
    • Modelling and Theory
    • Hardware Architecture and Implementation
    • Next Generation of Cognitive Networks
    • Standards, Policies and Business Models

    Even though most of the talks were around sensing schemes, modeling, theory, HW and PHY, the discussions covered also aspects related to regulatory, business models, and sharing schemes, especially in the context of LSA (EU) and Three Tier Model (US). “5G” was present in the air, where the importance of the 3 spectrum licensing schemes including license exclusive, license shared and unlicensed usage was brought to attention.


    Selected aspects

    To get a little bit more feeling on what were the topics discussed during the 3-days of the CROWNCOM 2016 conference, below there’s my subjective take on various fields.

    • Regulatory bodies

    One of the interesting aspects related to the dynamic spectrum access operation, with the “Sensing-as-a-Service” approach, where the infrastructure is responsible to provide information on whether the shared spectrum is available for use by licensee/GAA. In this model, a database that the device can query for the availability of the spectrum to be used based on the device location, plays a central role. In this case, the “good old” CR sensing can be a supporting mechanism for the database centric approach.

    Flexible access by means of spectrum sharing with the support of of LSA or Three Tier model was one of the most important topic discussed by the different regulatory bodies.

    Regarding 5G, the important bands include 28GHz (especially for US), whereas in EU 700MHz seems to be crucial.

    European Comission (EC) provided us with their view on the “5G-ready telecom rules” for EU including: promoting flexible access (by means of more general authorization, hybrid licensing models and increase protection of unlicensed users); improving timeliness of spectrum availability; and promoting rapid rollout of high performance networks (e.g., by promoting network and spectrum sharing in strategic areas). Spectrum sharing is then seen as a tool to facilitate innovation.

    Ofcom presented tiered authorization approach including: tier 1 – existing license classes (p2p links), tier 2 – geographic based license layer, and tier 3 – opportunistic license layer (operating on geographical areas where other tiers are not using the spectrum in an almost unlicensed manner).

    • Industry 

    The big vendors discussed 5G-related spectrum access and recent results on LSA and co-sharing models (including trial results). Additionally, they were accompanied with business models evaluation. The envisioned main sub-6GHz bands for 5G include for the first step: 700MHz, and 3.4-3.8GHz; and in the second step: 3.8-4.2GHz (the latter ones are important mostly due to having large contiguous blocks of spectrum). The two main sharing approaches for 5G include: license exempt with no regulatory guarantees; and licensed shared with predictable sharing conditions guaranteed by the authorities.

    In the other end, a new approach for LPWA market was presented with the use of multi-antennas for lower power devices with the use of CR/SDR-based mechanisms including interference cancellation and beamforming performed on the network side (“in the cloud”).

    • Research aspects

    The current “hot” aspects within the dynamic spectrum access domain include the combination of the CR with the machine learning mechanisms. One of the examples of combination cover the “legacy” sensing mechanisms with the addition of database support and prediction mechanisms that help to improve energy efficiency of the devices.

    An ICIC-scheme for HetNet with the sensing support was also presented as an example application of CR mechanisms in cellular networks. The interference estimation algorithm is initiated by the “legacy” geometry based measurements and then its fed with the UE sensed data, being a semi-deterministic map including both, statistics (e.g. channel parameters and base station distribution) and deterministic information (e.g. indoor/outdoor status UE). This is based on the assumption that we don’t know the eNB positions apriori, e.g. an operator that doesn’t know the position and ON/OFF status of femto cells at end-user premises.

    An interesting topic was also raised regarding trust in the context of the licensed shared schemes. As we tend to focus on protecting the incumbent, by means of the incumbent’s trust towards the licensee, in fact it the trust goes in both directions. Spectrum sharing requires incumbents’ and entrants’ risks evaluation and trust models for the whole framework to work.

    • H2020 projects (CLEEN Workshop)

    A little aside from the main track of the CROWNCOM 2016 conference that was focusing on spectrum sharing, spectrum access etc., there was a very interesting CLEEN Workshop gathering latest results from the H2020 phase I projects. Here we could listen about SDN and NFV concepts as well as architectural considerations targeting 5G design.

    5GNORMA presented their contribution to energy efficiency by means of the following aspects: network virtualization (unification of different RATs, reuse/reduction of equipment), cloud networking (sharing of commodity HW, centralization that reduce need for air conditioning), network slicing (enabling infrastructure sharing and separating higher layers from NW infrastructure) and software-ization of control plane (energy optimization, flexible multi-service support).

    Speed-5G is focusing on extended DSA with the technical components covering autonomous RRM and smart MAC design. They aim at optimization of licensed, lightly licensed and unlicensed spectrum usage in a coordinated way under a single framework for multi-RAT operation. Some aspects of logical architecture include:

    • deployment of edge GWs (Control- and Forwarding planes) to geographically distribute resource control and access to service content.
    • common RRM: dealing with resource allocation and inter-cell cooperation (linked to spectrum management aspects for operating in shared spectrum bands).

    Note: an overview of those projects is sketched in another post, i.e. “Towards 5G – research activities in Europe (part 2 – H2020 projects)”

    Summary: Spectrum Toolbox Evolution

    Towards 5G

    As a summary of the above, I would like to share with you the conclusions from the joint work of Grandmetric and Movilo, entitled “Spectrum Toolbox Survey: Evolution Towards 5G”, I had a pleasure to present during this conference.

    From the beginning of the LTE standardization (which was frozen in 2008) till what is happening now and will ultimately end-up in 5G standardization (as envisioned to happen around 2020), we took a quite fast (~10 years) transition


    a pretty static system with a well-defined spectrum access and fixed BWs, TDD or FDD duplexing, single carrier operation and licensed spectrum access,


    a very flexible and dynamically handled access with the mix of the above and addition of high frequency bands and various spectrum licensing schemes and dynamic spectrum sharing.


    • it is a great challenge for the industry and research to make 5G work in a better and more holistic way than previous systems,
    • this an similiar conferences will become more and more important in the context of cellular communications bringing CR closer to it to help 5G happen.


    1. The presented slidekit of our work:

    2. An extract of our paper is available in one of the previous posts, namely: “Spectrum toolbox evolution towards 5G (conference paper)”

    3. The conference proceedings are available as a book from Springer: “Cognitive Radio Oriented Wireless Networks”


    Marcin Dryjanski, Ph.D.

    Marcin Dryjanski received his Ph.D. in telecommunications from the Poznan University of Technology in September 2019. During the past 15 years, Marcin has served as R&D Engineer, Lead Researcher, R&D Consultant, Technical Trainer, Technical Leader and Board Member. He has been providing expert-level courses in the area of 5G/LTE/LTE-Advanced for leading mobile operators and vendors. In addition to that, Marcin was a work-package leader in EU-funded research projects aiming at radio interface design for 5G including FP-7 5GNOW and FP-7 SOLDER. He co-authored a number of research papers targeting 5G radio interface design and a book "From LTE to LTE-Advanced Pro and 5G" published by Artech House. Marcin is co-founder of Grandmetric and co-founder and CEO at Rimedo Labs, currently focusing on Open RAN systems.

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