Project: IEEE P82.15 Working Group for Wireless Speciality Networks (WSNs WSNs) Title: Multi-Frequency Measurements at 9, 64 and 34 GHz using an Ultra-Wideband Channel Sounder Date Submitted: 6 November 217 Source: Thomas Kürner TU Braunschweig Address Schleinitzstr. 22, D-3892 Braunschweig, Germany Voice:+495313912416, FAX: +495313915192, E-Mail: t.kuerner@tu-bs.de Re: n/a Abstract: The alignment of high gain antennas used for 3 GHz links is challenging in the device discovery phase. Brute-force scanning of the angle-of-arrival at the receiver and of the angle-of- departure at the transmitter is too time-consuming. Therefore, a two-step process can be applied which appies a rough estimation of the angles at lower frequencies using lower-gain antennas. A pre-requisite to apply such a method are similarities of the channel at both carrier frequencies. This presentation provides a comparison of measured power angular spectra at carrier frequencies of 9, 64 and 34 GHz. Purpose: Information of the IG THz Notice: This document has been prepared to assist the IEEE P82.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P82.15. Slide 1 Thomas Kürner (TU Braunschweig).
Multi-Frequency Measurements at 9, 64 and 34 GHz using an Ultra-Wideband Channel Sounder Thomas Kürner, Bile Peng, Ke Guan, Sebastian Rey Technische Universität Braunschweig, Germany The research was carried out within the projects ibrow (Grant Agreement No. 645369) supported by the EU Framework Programme for Research and Innovation Horizon 22 and the project Characterization and Modeling for the Millimeter and Sub-Millimeter Wave MIMO Mobile Ultra-Broadband Channel enabling Smart Rail Mobility supported by the Alexander-von-Humboldt-Foundation Slide 2
Outline Motivation Description the Channel Sounder and the Measurement Scenario Measurement Results Comparison with Simulations derived from Ray Launching Conclusions Slide 3
Motivation The alignment of high gain antennas used for 3 GHz links is challenging especially in the device discovery phase during the set-up of the connection. Brute-force scanning of the angle-of-arrival at the receiver and of the angle-of-departure at the transmitter is too time-consuming. Therefore, a two-stept process can be applied, where rough estimations of the angles are derived at lower frequencies with antennas having lower gains in the first step [1]. A pre-requisite i to apply such a method are similarities il i i of the channel at the higher and lower frequencies. This presentation provides a comparison of measured spatial channel characteristics at carrier frequencies of 9 GHz, 64 GHz and 34 GHz using an ultra-wideband channel sounder [2]. Aditionally the results are compared with simulated characteristics using ray launching [3]. Slide 4
TUBS Time-Domain Channel Sounder Rx Tx Base Unit Control Laptop Slide 5
Technical Parameters of the Channel Sounder Parameter Value Clock Frequency 9.22 GHz Bandwidth ~ 8 GHz Chip duration 18.5 ps M-sequence order 12 Sequence length 495 Sequence duration 444.14 ns Subsampling factor 128 Acquisition time for one CIR 56.9 µs Measurement Rate 17,59 CIR/s Center Frequencies 9.2 / 64.3 / 34.2 GHz SISO/MIMO up to 4x4 Slide 6
Set-Up for the three Bands Sensor node with frequency extension and antenna Double ridged horn antenna for 9 GHz Horn antenna for 6 GHz Horn antenna for 3 GHz Slide 7
Calibration with Back-to-Back B k Measurement A reference measurement (B2B measurement) is carried out for a calibration to compensate for the imperfection of RF frontend. In the B2B measurement, Tx and Rx are connected with a db attenuator. The calibration has significantly supressed the fake signals and improved the SINR. B2B Measurement ( db attenuator in between) Slide 8 LoS Measurement (Tx and Rx looking at each other)
Measurement Scenario (Lecture Room) Slide 9
Techncial Parameters of the Measurement Campaign Parameter 9 GHz 6 GHz 3 GHz Azimuth HPBW 14 1 1 Antenna Gain 1 dbi 15 dbi 15 dbi Scanning resolution Center Frequency 1 1 1 9.2 GHz 64.2 GHz 34.2 GHz Bandwidth 8GHz 8GHz 8GHz Slide 1
Measured Power Angular Spectra ion Horizonatl po olarization vertica al polarizat uth ( ) Tx azim Tx azimuth ( ) 3-45 - -55-6 -65-7 3 3-75 3 3 3 3 3 3 Tx azimu uth ( ) -45 - -55-6 Tx azimuth ( ) -65-7 -75 3 - -6-7 -8-9 - - -6-7 -8-9 Tx azim muth ( ) x azimuth ( ) 3 3 3-65 -7-75 -8-85 -65-3 3 3 3 6 GHz 9 GHz 3 GHz T 3-7 -75-8 -85
Simulation Scenario Simulations have been performed using Ray Launching in a 3D model of the lecture room Slide 12
Measured vs. Simulated Power Angular Spectra at 6 GHz Tx azim muth ( ) 3 3 3 - -6-7 -8-9 - Measured, vertical polarization azimuth ( ) Tx 3 3 3 Rx azimuth th( ) - -6-7 -8-9 - Tx azim muth ( ) 3 3 3 - -6-7 -8-9 - Measured, horizontal polarization azimuth ( ) Tx 3 3 3 - -6-7 -8-9 - Simulated, vertical polarization Simulated, horizontal polarization
Measured vs. Simulated Power Angular Spectra at 3 GHz -65-65 Tx azim muth ( ) -7-75 -8 Tx azim muth ( ) -7-75 -8 3-85 3-85 3 3 Measured, vertical polarization 3 3 Measured, horizontal polarization -65-65 imuth ( ) Tx azi -7-75 -8 imuth ( ) Tx azi -7-75 -8 3-85 3-85 3 3 Simulated, vertical polarization 3 3 Simulated, horizontal polarization
Conclusion Visual inspection of measurements of angular power spectra at carrier frequencies of 9, 64 and 34 GHz in a lecture room has revealed reasonable agreement across the freqeuncies. This supports first findings from an earlier simulationbased study on the applicability of a two-step approach for the determination of the angles-ofarrival/angles-of-departure during device discovery Reasonable agrement is also achieved, when comparing the maeasurements with simulated angular power spectra in the same lecture room. Slide 15
References [1] B. Peng, S. Priebe, and T. Kürner, Fast Beam Searching Concept for Indoor Terahertz Communications, in Proc. 8th European Conference on Antennas and Propagation (EUCAP), pp. 483 487, IEEE, 214. [2] S. Rey, J. Eckhardt,. Peng, K. Guan, T. Kürner, Channel Sounding Techniques for Applications in THz Communications, 2nd Workshop on THz Communications (THZCOM) at the 9th International Congress on Ultra Modern Telecommunications and Control Systems, 8 November 17, 5 pages. [3] D. M. Rose, S. Rey and T. Kürner, "Differential 3D ray-launching using arbitrary polygonal shapes in time-variant indoor scenarios," 216 Global Symposium on Millimeter Waves (GSMM) & ESA Workshop on Millimetre-Wave Technology and Applications, Espoo, 216, 4 pages Slide 16