CEN DSRC/ITS G5 Coexistence AdHoc group– An overview –

1. CEN DSRC/ITS G5 Coexistence AdHocgroup– An overview – CEN DSRC – ITS G5 Coexistence Workshop - Presented by FriedbertBerens, in Ispra, Italy CoEx_AdHoc– An Overview -

2. Index • Status and time schedule • Scenario definition: • Initial parameters and assumptions • Measurement Campaign Ispra, July 2011 ITS-WG4 Coexistence Ad-Hoc: Overview

3. Goals • To evaluate the realistic interference potential between CEN DSRC and ITS G5 systems by • Measurements • Simulations and • Theoretical investigations • To define typical inter-system operational scenarios including traffic density, penetration rate, communication protocols and operational constrains • To propose potentially required mitigation techniques to minimize • The potential interference risk between the systems and • the complexity of the implementation on the ITS side ITS-WG4 Coexistence Ad-Hoc: Overview

4. Coexistences AdHoc Activities and Status • Create an evaluation ad-hoc group as part of TC ITS WG4 • NWI DTR/ITS-0040029 approved and active (28.04.2011) • Prepare and perform evaluation measurements • Set up simulations to evaluate the interference potential between a normal ITS system and a CEN DSRC OBU  Initial results available • ETSI TR 102 960: draft version 0.0.4 available with main focus on measurement setup • If needed put the co-existence methods into TS 102 792 and EN 302 571 ITS-WG4 Coexistence Ad-Hoc: Overview

5. Time schedule • Ad-Hoc group: operational • Define evaluation scenarios for initial simulations and measurements  End May 2011  Done • Initial Simulation results ready  End June 2011  Done • Evaluation Measurement event JRC in Ispra 4.July to 8. July 2011 • TR 102 960 with simulation results and measurement results ready until September 2011 • Early draft available with version 0.0.4 • Inclusion of results into the TS 102 792 ready  October ITS meeting • End 2011 approved TR 102 960 and TS 102 792 ITS-WG4 Coexistence Ad-Hoc: Overview

6. Scenario Definition • Input parameter: • Number of Road Tolling stations in Europe • Size of tolling stations: • Number of tracksincluding geometric data • Traffic density and distribution • Free-flow installation • Speed distribution of vehicles • ITS-G5 penetration rate projections • ITS-G5 traffic patterns • Part of the parameters are available and included in TR102 960 ITS-WG4 Coexistence Ad-Hoc: Overview

7. Draft Parameters for scenario definition • Maximum Number of lanes in Free flow systems: 6 in both directions • Maximum Speed: vmax = 120km/h • Distance between vehicles at max speed: dmin = 25m • Maximum Transaction time: Ttrans_max = 120ms • Car attenuation to be taken into account into the measurements • Initial values: Front attenuation: 3dB, Backwards: > 15dB, Side: 10dB ITS-WG4 Coexistence Ad-Hoc: Overview

8. Simulation • Simulation tools • SEAMCAT • KAPSCH simulator • SEAMCAT: • Interference simulator used by CEPT • Reference simulator for most interference investigations • Initial simulation are ready for worst case scenario with ITS interference from the front with 100% duty cycle • Kapsch simulator: • Evaluation of interference area and conditions • Parameter: Traffic density and speed ITS-WG4 Coexistence Ad-Hoc: Overview

9. Evaluation Measurements • Event at the JRC in ISPRA, Italy • Date: 4. July to 8. July 2011 • Schedule: • Monday, 04.July: Workshop • Tuesday 5. July to 7. July: Measurements -> Limited participation • Friday 8. July: Wrap-up and initial minutes preparation (Special measurements if needed) • Web site: http://www.etsi.org/plugtests/ITSG5_DSRC/Home.htm ITS-WG4 Coexistence Ad-Hoc: Overview

10. JRC in Ispra ESML measurement facility ITS-WG4 Coexistence Ad-Hoc: Overview

11. General setup – Antenna System - ITS-WG4 Coexistence Ad-Hoc: Overview

12. Measurement #1 • Duty Cycle: 100% • Distance: 5m (taken into account by higher power at 10m, +6dBm) • Tolling system: Mode A (6dB above sensitivity limit) and B (sensitivity limit) • ITS power: 10dBm – 33dBm • Evaluate the BER of the tolling link • Measurement of all OBUs for closed car • Evaluate the effect of open car for one OBU ITS-WG4 Coexistence Ad-Hoc: Overview

13. Measurements #2 • Duty Cycle: 1% - 50% • Distance: 5m (taken into account by higher power at 10m • Tolling system: Mode A and B • ITS power: critical power level • Evaluate the TER of the tolling link • Measure one normal OBU and one truck OBU ITS-WG4 Coexistence Ad-Hoc: Overview

14. Measurements #3 • Duty Cycle: 1% - 50% • Distance: ITS station installed on car with CEN DSRC • Tolling system: Mode A and B • ITS power: 10dBm – 33dBm • Evaluate the TER of the tolling link • Measure one passenger car OBU ITS-WG4 Coexistence Ad-Hoc: Overview

15. Measurements #3 – 2 - ITS-WG4 Coexistence Ad-Hoc: Overview

16. Measurements #4 – ITS System Demo - • Real ITS system with 5 to 6 stations  Autotalks • Distance: 5m – 10m • Tolling system: Mode A and B • ITS power: variable up to 22,3dBm e.i.r.p. • Evaluate the TER of the tolling link • Measure one passenger car OBU including ITS station ITS stations 5 m 5 m 5 m 5 m 5 m ITS-WG4 Coexistence Ad-Hoc: Overview

17. The End • Comments and Inputs Thank you for your attention For more Information friedbert.berens@me.com ITS-WG4 Coexistence Ad-Hoc: Overview