1. WP 2. Enabling 5G: Case Studies. Technologies under study.
Authors:
- César Briso Rodríguez (UPM)
- Manuel García Sánchez (Uvigo)
- Mikel Gómez Laso (Upna)
- Ramón Martínez Rodríguez-Osorio (UPM)
- Manuel Sierra Castañer (UPM)
February 29th 2016

2. Index Challenging Scenarios Test cases
Test scenarios (ITS, Multimedia, Sat)
Technology requirements and developments (ITS, Multimedia, Sat)

3. WP2: Case Studies and Technology requirements and developments
Scope
WP2: Case Studies and Technology requirements and developments
This document is the technical report for the following tasks of the proyect Enabling 5G: “ENABLING INNOVATIVE RADIO TECHNOLOGIES FOR 5G NETWORKS”
WP2.1. Intelligent Transport Systems
WP2.11. Case Study and requirements WP2.12. Technology prospective and work proposal.
WP2.2. Multimedia Distribution at 60 GHz
WP2.21. Case Study and requirements WP2.22. Technology prospective and work proposal.
WP2.3. The use of satellite in 5G networks
WP2.31. Case Study and requirements WP2.32. Case Study and requirements

4. Challenging Scenarios

5. Challenging Scenarios
Performance Requirements 2020+

6. Challenging Scenarios
New ITU-R Microwave frequency bands for 5G
Frequency Range (GHz)
Available Spectrum (GHz)
Frequency Range
(GHz)
6GHz
5.925‐8.500
2.575
10GHz
10.5‐13.25
2.63
14GHz
14.4‐15.35
0.95
17GHz
17.7‐17.81
0.11
18GHz
18.1‐19.7
1.6
21GHz
21.2‐23.6
2.4
25GHz
25.25‐25.5
0.25
28GHz
27.0‐29.5 
2.5
31GHz
31.0‐31.3
0.3
36/38/40GHz
36‐47 11
50GHz
47.2‐52.6
5.4
55GHz
55.78‐57.0
1.22
60GHz
57‐64 7
65GHz
64‐71
70GHz
71‐76 5
80GHz
81‐86
90GHz
92‐94 2
94.1‐95.0
0.9
95GHz
95‐100
Total Available
62.835

7. 2- POTENTIAL USE CASES

8. 2- TEST CASES (TCs) TC1: FUTURE OFFICE
Modern office space working with high resolution tele-presence and virtual reality
REQUIREMENTS:
Users data rate;
1 Gbps with 95% Availability
10 Gbps with 30% Availability
Frequency usage:
Communications bands mmWaves
Band V: (40-75 GHz) 60 GHz (57-64 GHz) (interiores)
Band Q (33 a 50 GHz): margen de 36 a 47 GHz.
Band UWB (2.5GHz Bandwidth)
3.5 a 6 GHz.
5.925 a 8.5 GHz.
Technology Test trials:
Propagation at mmfrequency bands indoor
Massive MIMO
Mmwave Antennas:
Sectorial
Directive

9. TC2: TRANSPORTATION SYSTEM EFFICIENCY AND SAFETY
2- TEST CASES (TCs)
TC2: TRANSPORTATION SYSTEM EFFICIENCY AND SAFETY
Signaling and intelligent driving aids for advanced transportation systems:
Road transportation
Railway. High capacity/ high speed
Unmanned vehicles (UAVs)
Autonomous Driving
REQUIREMENTS:
Users data rate;
100/20 Mbps with 95% Availability
10/2 Mbps with 98% availability
Low latency: less than 100ms
Frequency usage:
4G bands from 1-6 Ghz
Satellite bands : MW and mmW
MHz Bandwidth
Technology requirements:
Accurate propagation modelling for high speed vehicles
Propagation modelling for low altitude unmanned vehicles
MIMO and techniques
Electronic steering antennas, special antennas for transportation systems,Antennas for UAVs.

10. TC3: MASSIVE DEPLOYMENT OF SENSORS AND ACTUATORS
2- TEST CASES (TCs)
TC3: MASSIVE DEPLOYMENT OF SENSORS AND ACTUATORS
Small sensors and actuators that are mounted to stationary or movable objects and enable a wide range of applications :
REQUIREMENTS:
Users data rate;
< 1 kbps data rate
Protocol efficiency: 80% at 300,000 devices per access node
Availability: 99.9%
Frequency usage:
bands Ghz ??
Hz Bandwidth
UWB with Low data rate.
Technology requirements:
Low cost and energy efficient transmitters
Propagation modelling: foliage attenuation
Small, low cost UWB antennas

11. TC4: DENSE URBAN ENVIRONMENT
2- TEST CASES (TCs)
TC4: DENSE URBAN ENVIRONMENT
Connectivity required at any place and at any time by humans in dense urban environments.
REQUIREMENTS:
Users data rate;
500 Gbyte/month/subscriber
300/60 Mbps in DL / UL with 95% availability
Frequency usage:
mmWaves
4G bands .8-6Ghz
Technology Test trials:
Propagation at 4G and mmW frequency bands in urban environment
Massive MIMO
mmW Antennas: Sectorial /Directive

12. TC5: VIRTUAL AND AUGMENTED REALITY / IMMERSIVE OR TACTILE INTERNET
2- TEST CASES (TCs)
TC5: VIRTUAL AND AUGMENTED REALITY / IMMERSIVE OR TACTILE INTERNET
These technologies have a number of potential use cases in both entertainment (e.g. gaming) and also more practical scenarios such as manufacturing or medicine, and could extend to many wearable technologies.
REQUIREMENTS:
Users data rate;
1 Gbps in 95 % locations and 5 Gbps in 20 % locations), both in uplink and downlink
Frequency usage:
mmWaves
Technology Test trials:
Propagation at mmW frequency bands in indoor environment
Massive MIMO
mmW Antennas.

13. Enabling 5G project Case Studies
2- TEST CASES (TCs)
Enabling 5G project Case Studies
INTELLIGENT TRANSPORT NETWORKS (ITS)
ENABLING 5G – CASE STUDIES
Study of Interference Cancellation Technologies
SATELLITE USES IN 5G NETWORKS
60 GHz MULTIMEDIA DISTRIBUTION
Study of radio and propagation technologies for multimedia distribution
Study of Satellite Technologies for 5G
Objective
- Antennas for beamforming and MIMO.
- Pre-coding, massive MIMO.
- Prototypes in 5GHz band
- Propagation in urban picocells at 60 GHz.
- Design and measurement of antennas at 60 GHz.
- Interaction antenna and MIMO system with human body.
- Analysis of use of Q/V/W bands.
- Beamforming and Interference cancellation techniques.
-Fading compensation in Q/V/W bands.
Technologies
- Vehicle to infrastructure transmission in smart cities.
- New system planning techniques in mm-bands.
- Transmission systems in Gbps for airplanes, indoor and urban areas.
- The satellite for 5G access network for multimedia applications in airplanes, emergency and remote areas.
Application

14. Propagation inside buildings: TEST cases 1 and 4
3- TEST SCENARIOS: ITS
Propagation inside buildings: TEST cases 1 and 4
Measurements of propagation channel at MW and MMW propagation inside office, train stations and buildings.
Measurements with different types of channel sounders at different frequencies
Ultra Wide Band propagation measurements
MW bands GHz
2.5GHz Bandwidth
Development of UWB channel sounder and antenna
MmWave propagation measurements.
Sliding Correlator Channel sounder measurements at 60GHZ.
VNA measurements at several mmW bands: 30/ 50/70/90 GHz.
Ray tracing simulation at different frequencies in confined environment:
Simulation of confined environments at different frequencies.
Radiation pattern of developed antennas

15. Transportation and sensors communications: TEST cases 2 and 3
3- TEST SCENARIOS: ITS
Transportation and sensors communications: TEST cases 2 and 3
Measurements and proof of concept at RF &MW and mmW frequencies on transportation systems.
Narrow band and wide band measurements
Narrow band propagation at mw and mmW.
Propagation inside trains
Propagation on industrial environment
Ultra Wide Band propagation measurements
MIMO in railway environment
Mmwave propagation measurements.
Narrow band propagation inside trains
Ray tracing simulation at different frequencies in confined environment:
Simulation of confined environments at different frequencies.
Measurements of radiation pattern of developed antennas

16. 3- TEST SCENARIOS: ITS UAVs communications: TEST cases 2 and 3
Stable flying platforms up to 100m height. Requirements and capabilities
Bidirectional control link ground to UAV (TC2)
MW bands 1- 6 GHz
Satellite
Multiusers Communications with UAVs (TC1):
mmWaves: 26-40Ghz??
Propagation modelling at Mw 1-6Ghz frequency bands
Channel modelling
MIMO antennas
MW and mmWave antennas: directional, circular polarization
Probe of concept using 4G LTE network3

17. 3- TEST SCENARIOS: Multimedia
Urban picocell scenarios
Studying propagation impairments at 60 GHz.
Free space losses
Rainfall attenuation
Oxygen absorption
Penetration losses
Foliage looses
Human Body Attenuation

18. 3- TEST SCENARIOS: Multimedia
Indoor fentocell scenarios
Antennas for Compact Range Communications at 60 GHz.
mmW Antenna
Mm wave short range wireless access.
2 to 7 GHz bandwidth antennas at 60 GHz frequency band
Low price antennas.
60 GHz antennas.
Indoor propagation scenarios.
Indoor High Speed
Coverage area
Personal device

19. 3- TEST SCENARIOS: Sat
Ramón
Ramón
Ramón

20. 4-TEST AND MEASUREMENT DEVELOPMENTS: ITS
MIMO Ultra Wide Band Channel Sounder
Ultra Wide Band GHz, 2.5GHz Bandwidth
Narrow pulse technique
Use of frequency shaping filter design
HPA 40dBm
Picosecond
PULSE GENERATOR
Conforming filter
3.5-6Ghz
MIMO SWITCH
2.5GHz Oscilloscope
LNA
Matched
filter
3.5-6Ghz
MIMO SWITCH
Responsibles: UPM-Campus Sur & UPNA

21. 4-TEST AND MEASUREMENT DEVELOPMENTS: ITS
Antenna design
Ultra Wide Band Antennas
MW bands GHz
Linear or Circular polarized ( for UAVs)
3d radiation pattern simulation and measurements
Responsibles: UAM

22. 4-TEST AND MEASUREMENT DEVELOPMENTS: ITS
Test UAV platform
T810 UAV Hexacopter
Cicular Polarized antennas
Narrowband measurements
900MHZ 4.4 GHz
System level measurements using Qualipoc R&S 4G test system and LTE network
Responsibles: UPM-Campus Sur

23. 4-TEST AND MEASUREMENT DEVELOPMENTS: Multimedia
Propagation in urban scenarios
Measurement scenario.
60 GHz progagation models.
Analysis of Free space losses, Rainfall attenuation, Oxygen absorption, Penetration losses, Foliage looses, Human Body Attenuation.
Responsibles: UVigo

24. 4-TEST AND MEASUREMENT DEVELOPMENTS: Multimedia
RLSA Antenna Design at 60 GHz for Compact Range Communications
Analysis model.
Design methods.
Low cost fabrication at 60 GHz band.
Test methods.
Responsibles: UPM-Ciudad Universitaria & UVigo

25. 4-TEST AND MEASUREMENT DEVELOPMENTS: Sat
Ramón
Communication System
Reflector Antennas
Array Antennas
Propagation model (Vigo)
Filtros en banda Q (Navarra)
Responsibles: UPM-Ciudad Universitaria & UPNA & UVigo