5G Vision, Enablers and Challenges for the Wireless FutureA WWRF White Paper

Angeliki AlexiouUniv of Piraeus

WWRF WGD Chairaalexiou@ieee.org

29 June 2015EuCNC 2015, Paris

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White Paper contributors

• Angeliki Alexiou• Panagiotis Demestichas• Andreas Georgakopoulos

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White Paper ToC • Introduction: What is 5G?• 5G expectations, requirements and challenges

Capacity scaling

Crowded Local Access

Massively available connectivity

Reliability and Latency or 5G as the ‘network of control’

Services and User Experience• 5G Design and Architecture Principles

Network Densification

Network Softwarization and Virtualization

Universal resources and network management• 5G Technology Enablers• Epilogue• References 3

A 5G Vision

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5G expectations, requirements and challenges

• Capacity scaling– massive infrastructure deployment

density over large geographical areas that is technologically and financially feasible

– new niche and business opportunities – introduction of new value chain actors.

• Crowded Local Access– massive data volume local access for

dynamic crowds addressed through the interplay of various technological and architectural innovations.

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5G expectations, requirements and challenges (2)

• Massively Available Connectivity• 5G will accommodate for bursty IoT

communications by providing the necessary infrastructure and operations to handle the vastly diversified QoS requirements.

• Reliability and Latency or 5G as the ‘network of control’

• The realization of the Tactile Internet or the Network of Control will open up an “unforeseeable plurality of new applications, products, and services”.(1)

(1) Gerhard P. Fettweis, “The Tactile Internet – Applications & Challenges”, IEEE Veicular Technology Magazine, Vol. 9, No. 1, pp. 64 – 70, March 2014

6Source: “The tactile internet: IoT, 5G and cloud on steroids”, M. Dohler, G. Fettweis, Telecomstechnews, Nov 2014

Source: Business Korea, “SK Telecom Develops World's First Global Standard IoT Platform”, J.H. Park, Dec 2014

5G Design and Architecture Principles

Network Densification

• The UDN concept introduces a paradigm shift from the well-known small-cell to a cell-less wireless future, by integrating:

– Operator-driven hyper-dense small-cell deployments, bringing a multiple orders of magnitude increase in the number of available infrastructure elements per user device;

– Complementary radio access technology networks (such as WiFi) operated by alternative providers (such as stadiums, airports, shopping malls);

– User-deployed home infrastructure, such as wireless routers for internet access, femto-cells, machine-to-machine gateways;

– “Crowdsourced” high-end user devices equipped with various wireless interfaces, and acting as adhoc providers of network access. 7

5G Design and Architecture Principles (2)

Network Softwarization and Virtualization

• A paradigm shift based on cloud computing principles, in order to provide on-demand, cost-efficient and service-oriented networks on-the-fly.

• It involves the decoupling of the hardware infrastructure and the supported functionalities, by:

– Leveraging mainly general-purpose (commodity) hardware and relevant facilities (e.g. IT data-centres);

– Relying on software implementations for all system functionalities, including baseband processing, radio resources scheduling, network routing;

– Dynamic on-demand real-time network configuration and management, in terms of allocated physical infrastructure and network operations, thus optimizing the cost, energy-efficiency or other metrics, creating the perception of “infinite” and “elastic” network scalability.

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5G Design and Architecture Principles (3)

Universal resources and network management

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Capila

• Frequency reuse• TDMA• Handover

• CDMA• Power control• Turbo coding

• OFDMA• Advanced antenna technology (MIMO)• Relaying• CoMP

2G

3G

4G

“5G” for 2020

URM

Capila

• Frequency reuse• TDMA• Handover

• CDMA• Power control• Turbo coding

• OFDMA• Advanced antenna technology (MIMO)• Relaying• CoMP

2G

3G

4G

“5G” for 2020

URM

5G Design and Architecture Principles (3b)

Universal resources and network management

• Densification, softwarization and virtualization introduce a whole new ecosystem where the notion of “resource” now may refer to every possible network component, such as the radio access nodes (antennas, base-stations), backhaul, spectrum, computing power, etc.

• Optimizing, managing and owning resources in this new landscape entails opportunities and challenges both technical and business modeling/economical.

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5G Technology Enablers/Differentiators

• D2D: In contrast to infrastructure-centric architectures, exploiting intelligence at the edge of the network with Device-to-Device (D2D) connectivity and/or smart caching at the mobile side may offer an excellent network load balancing opportunity.

• mmWave: Although far from fully understood, mmWave technologies have already been standardized for short-range services (IEEE 802.11ad) and deployed for niche applications such as small-cell backhaul. The potential of mmWave for a broader use in 5G remains to be validated, especially in terms of resources and interference management. 11Source: “Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!”

IEEE Access, Issue Date: 2013, Rappaport, T.S.; Shu Sun; Mayzus, R.; Hang Zhao; Azar, Y.; Wang, K.; Wong, G.N.; Schulz, J.K.; Samimi, M.; Gutierrez, F.

5G Technology Enablers/Differentiators

• Massive-MIMO involves utilizing a very high number of antennas to multiplex messages for several devices, focusing the radiated energy towards the intended directions while minimizing intra- and inter-cell interference.

• M2M communications in the future Wireless Internet of Things address the challenge of supporting a massive number of low-rate devices, in a plethora of diverse scenarios, and very-low-latency data transfers.

12(Image Credits : www.koreatimes.co.kr)

(Image Credits : Linkoping Univ, Emil Bjornson)

5G Technology Enablers/Differentiators (2)

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The most significant 5G technology differentiators share the common fundamental and innovative concept of proximal communications, i.e. exploiting massive node densification to access the network via a proximal link (M2M, D2D, ..)

Macro-BS

Small-Cell Node

Backhaul Link

Gateway

Coordination LinkAccess Link

Dense MobileData Access (Small-Cells/Het-Nets)

M2M

D2D

Direct UE Access(FD/Massive MIMO)

The UDN Landscape

Mobile-Broadband enabled UE

M2M device

D2D-enableddevice

Multiple Carriers (1800,2100, 3.5GHz, ~60 GHz,…)

Large Number of Hierarchies, Communication Possibilities and Target Applications (HetNets,

M2M clusters, D2D groups)

Massive Served Nodes (UEs, Devices,

Gateways) Population

Massive Infrastructure Densification

A UNIVERSAL INFRASTRUCTURE DIMENSIONING & RESOURCES MANAGEMENT FRAMEWORK FOR UDNs

Macro-BS

Small-Cell Node

Backhaul Link

Gateway

Coordination LinkAccess Link

Dense MobileData Access (Small-Cells/Het-Nets)

M2M

D2D

Direct UE Access(FD/Massive MIMO)

The UDN Landscape

Mobile-Broadband enabled UE

M2M device

D2D-enableddevice

Multiple Carriers (1800,2100, 3.5GHz, ~60 GHz,…)

Large Number of Hierarchies, Communication Possibilities and Target Applications (HetNets,

M2M clusters, D2D groups)

Massive Served Nodes (UEs, Devices,

Gateways) Population

Massive Infrastructure Densification

A UNIVERSAL INFRASTRUCTURE DIMENSIONING & RESOURCES MANAGEMENT FRAMEWORK FOR UDNs

Epilogue

• Whether the ‘real’ 5G revolution is about new technology enablers, novel system architectures, resources management and new business models and a new application ecosystem is an ongoing debate

• One could start by identifying today’s networks fundamental limitations, such as – lack of flexibility and scalability in the cellular regime– heavy constraints on network upgradeability (cost, downtimes) and limiting

flexibility in supporting multiple radio technologies– business models not flexible enough to offer new niche opportunities and

allow for the large investments required by the 5G network.

• The principles of densification, virtualization, softwarization and commoditization of resources could well be a way towards breaking these barriers.

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