The Living Network: Leading the Path to 5G Robert Olesen Director, InterDigital Inc. 1
Outline: 5G Requirements Use cases 5G WiFi EdgeHaul : mmw Small Cell 2
5G Requirements Identifying Capabilities for 5G ITU-R defining objectives for IMT-Vision: Framework and overall objectives of the future development of IMT for 2020 and beyond Includes Key Capabilities for next generation systems: User Peak data Cell Edge experienced Mobility rate Data Rate data rate 100 Mbit/s 20 Gbit/s 10-50 Gbit/s Pedestrian to 10km/h 500 Mbps Latency 1ms (radio interface) Connection Density 10 6 10 7 (per Km 2 ) Energy Efficiency 50-100 times IMT-Advanced (for network) Spectrum efficiency 10 bps / Hz Pervasive Video Broadband Access Everywhere Dense Network Lifeline Communications Broadband Access Tactile Internet Massive Internet of Things 3
5G Use Cases NGMN 5G White Paper 5 4
5G WiFi 5
5G Wi-Fi : Everywhere and Growing In the Mall, WiFi Library, in the Park Home Internet Internet of Thingsof Things Video Streaming Video Streaming Photography At the Entertainment Stadium Stadium Geolocation WFA Streaming Home Vision: Office and Event in Updates the car Merchandise Service Micro-Geolocation At the Office, Campus Internet Printer, Display, LAN Mobile Office Desktop Device IoT Connecting everyone, everything, everywhere The Train, Bus, Airplane Entertainment on the Go Mobile Internet
5G WiFi Technology Landscape and Architecture IoT (Sub1GHz) Long range Massive IoT Cellular Offload Modest WLAN Mobility Support Massive IoT 802.11ai (All bands) MAC Enhancement For Fast Discovery and Association Next Generation WLAN (2.4/5GHz) Dense indoor/outdoor deployment High MAC/Area efficiency Broadband Access Everywhere 802.11ah 802.11ax 802.11ax ay Ultra High Throughput mmw (>45GHz) Access/Backhaul Directional Links MIMO 7
5G Enabling WiFi Technologies AAA, DHCP, DNS, ANQP, etc. Femto cell/pico cell area 802.11ay Next Generation mmw Next generation mmw link access and backhaul SU-MIMO and MU-MIMO Enhanced coverage USR Communications UHD Wireless Transfer Backhaul Mobile Offload Co-located area of femto/pico-cells and WLAN BSSs 802.11ax High Efficiency WLAN Macro cell area WLAN area Offloading (2.4/5GHz) Indoor/Outdoor Deployments Sharing of frequency and spatial domains between users/aps Optimized area throughput Optimized power consumption Backward compatibility WiFi Offload Offloading (60GHz) Cellular 8
EdgeHaul Millimeter Wave Small Cell Backhaul System 9
5G Technology Trends and Drivers Denser Heterogeneous Networks Trend Spectrum Sharing & Aggregation Mass deployment of Heterogeneous Small Cells, emergence of Small Cell Networks Self-Organizing Wireless Backhaul Deployment of super-small cells based on mmwave technologies Cache Local Traffic Distribution Local Services Virtualization Trend Edge Intelligence Trend Network Virtualization and Resource Provisioning via SDN techniques virtualization of RAN, Small Cells, Backhaul Network Functions Virtualization in CLOUD WIRELESS GATEWAY Billing Security Mobility Traffic Policy Roaming Mgmt Subscriber RRM SON Mgmt INTERNET/ CDN Millimeter Wave is a 5G enabler Ideally suited for dense, shorter range networks Steerable/Reconfigurable services controllable from the Cloud High capacity at the edge for last ¼-mile access to massive data 10
Millimeter Wave Hotspot : Enabling the Path to 5G The Technology Solution for 5G Small Cell Access and Backhaul Abundant Millimeter Wave Spectrum can provide fiber-like capacity Growth beyond what emerging Small Cell and Spectrum Sharing solutions can provide (100x 1000x growth!) Next G enb Traditional Cellular Link mmw backhaul mmw access mmw Phase Array Radio and Antenna Wireless Mesh Backhaul MWC 2015 A G C D 5G Access B E Earliest Commercialization Timeline 2016 2020 Full mmh Architecture 2023 11
Meters Millimeter Wave Small Cell Backhaul INTERDIGITAL, IMEC AND PERASO DEMONSTRATE WORLD S FIRST WIGIG -BASED MILLIMETER WAVE MESH BACKHAUL SYSTEM Low-Cost, High Capacity, Scalable design for today s Small Cell Backhaul and future 5G millimeter wave access System-oriented approach to develop future small cell platform High throughput over range suitable for urban small cell 60GHz Phased Array with electronic beamsteering reduces installation cost an provides interference management Deployment Tools 600 500 400 300 200 Leverage high volume WiGig 100 baseband 0 OpenFlow-based Mesh Controller 0 1 2 3 4 5 Gbps InterDigital s EdgeHaul Platform EXPECTED RANGE VS. RATE Results assume QPSK and 16 antennas 12
Thank You! Questions? 13