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Doc.: IEEE 802.11-14/0015r1 Submission Large-Scale Characteristics of 45 GHz Based on Channel Measurement Authors/contributors: Date: 2014-01-08 Presenter:

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Presentation on theme: "Doc.: IEEE 802.11-14/0015r1 Submission Large-Scale Characteristics of 45 GHz Based on Channel Measurement Authors/contributors: Date: 2014-01-08 Presenter:"— Presentation transcript:

1 doc.: IEEE 802.11-14/0015r1 Submission Large-Scale Characteristics of 45 GHz Based on Channel Measurement Authors/contributors: Date: 2014-01-08 Presenter: Haiming WANG NameCompanyAddressPhoneEmail Haiming WANG SEU/CWP AN 2 Sipailou, Nanjing 210096, China +86-25-5209 1653-301(ext.)hmwang@seu.edu.cn Wei HONG+86-25-5209 1650weihong@seu.edu.cn Jixin CHEN+86-25-5209 1653-403(ext.)jxchen@seu.edu.cn Shiwen HE+86-25-5209 1653-3121(ext.)hesw01@seu.edu.cn Nianzu ZHANG+86-25-5209 1653-320 (ext.)nzzhang@seu.edu.cn Guangqi YANG+86-25-5209 1653-211(ext.)gq.yang@seu.edu.cn January 2014 Haiming Wang, et al. (SEU/CWPAN)Slide 1

2 doc.: IEEE 802.11-14/0015r1 Submission Abstract This presentation gives large-scale characteristics of 45 GHz band based on channel measurement. January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 2

3 doc.: IEEE 802.11-14/0015r1 Submission Outline Channel Measurement Scheme –Transmission Scenarios –Channel measurement setup Large Characteristics at 45GHz band –STA-STA –AP-STA January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 3

4 doc.: IEEE 802.11-14/0015r1 Submission Transmission Scenarios Conference room Cubicle room Living room January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 4

5 doc.: IEEE 802.11-14/0015r1 Submission Conference Room January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 5

6 doc.: IEEE 802.11-14/0015r1 Submission Channel Measurement Setup January 2014 Haiming Wang, et al. (SEU/CWPAN) A PC is used to not only control the rotary table with an RS-232 port but also control the signal generator and network analyzer with LAN ports. The signal generator transmits CW signal at each frequency, then Rx power and channel frequency response are obtained by the network analyzer. The positions of Tx and Rx antennas and measured data are simultaneously recorded. Slide 6

7 doc.: IEEE 802.11-14/0015r1 Submission Antennas for Channel Measurement Type II: Open-ended waveguide (OEW) antenna with 6-dBi gain January 2014 Haiming Wang, et al. (SEU/CWPAN)  Type I: Horn antenna with 23.7-dBi gain Angle (degree) Pattern (dB) H-Plane E-Plane Slide 7

8 doc.: IEEE 802.11-14/0015r1 Submission Outline Channel Measurement Scheme –Transmission Scenarios –Channel measurement setup Large Characteristics at 45GHz band –STA-STA –AP-STA January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 8

9 doc.: IEEE 802.11-14/0015r1 Submission Haiming Wang, et al. (SEU/CWPAN) STA-STA (a)(b) (d) (e) Heights of Tx and Rx antennas are all 1m TR distance is from 1 m to 10 m. January 2014 (c) Slide 9 a) Tx and Rx: Horn, Co-Pol; b) Tx and Rx: Horn, Crs-Pol; c) Tx: Horn, Rx: OEW, Co-Pol d) Tx and Rx: OEW,Co-pol; e) Tx and Rx: Crs-Pol

10 doc.: IEEE 802.11-14/0015r1 Submission STA-STA January 2014 Haiming Wang, et al. (SEU/CWPAN) Freq. (GHz) Tx and Rx: Horn, Co-Pol Tx and Rx: Horn, Crs-Pol Tx: OEW, Rx: Horn, Co-Pol Tx and Rx: OEW, Co-Pol nPL 0 (dB)n n n 42.7952.2634-68.68902.3638-93.08752.2961-85.61791.7732-106.866 43.3352.1378-68.75012.2039-93.77732.2489-84.45441.9448-104.352 43.8751.9901-69.34332.2344-93.99812.1707-84.85231.8585-103.866 44.4151.8747-70.13762.1358-94.27952.1078-85.45111.8603-104.058 44.9551.8695-70.42121.9839-95.73451.9884-87.31431.7193-105.838 45.4951.7960-70.29362.0173-94.71801.9462-87.40341.5930-106.247 46.0351.7494-70.37421.9399-94.80801.8752-87.03251.6499-105.122 46.5751.7047-70.49911.8805-94.92161.9972-86.33101.4921-106.436 47.5301.6242-71.01651.8232-95.73751.7887-88.02581.3393-108.339 48.0701.5777-70.67831.9137-94.65271.8709-87.90011.6109-107.220 Slide 10

11 doc.: IEEE 802.11-14/0015r1 Submission STA-STA Conclusion: –The n value decreases when the carrier frequency increases –The n value of cross-polarization is bigger than that of co- polarization. –The measured path loss is very close to the theoretical path loss in free space when Tx and Rx both use OEW antennas. –The additional loss due to cross-polarization is about 30 dB. January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 11

12 doc.: IEEE 802.11-14/0015r1 Submission AP-STA Tx Position: (10.56m, 3.00m, 2.64m) , under the roof, the antenna direction to the center of the conference room Rx Position: (1.00m, 3.00m, 1.00m) –(10.00m, 3.00m, 1.00m) Five antenna configurations: –Tx and Rx: Horn, Co-Pol; –Tx and Rx: Horn, Crs-Pol; –Tx: OEW, Rx: Horn, Co-Pol –Tx and Rx: OEW, Co-pol; –Tx and Rx: Crs-Pol January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 12

13 doc.: IEEE 802.11-14/0015r1 Submission AP-STA January 2014 Haiming Wang, et al. (SEU/CWPAN) Additional path loss occurs due to cross-polarization The path loss is approximately unchanged when the TR distance increases (a)(b)(c) (d) (e) Slide 13

14 doc.: IEEE 802.11-14/0015r1 Submission AP-STA January 2014 Haiming Wang, et al. (SEU/CWPAN) Freq (GHz) Tx and Rx: Horn, Co-Pol Tx and Rx: Horn, Crs-Pol Tx: OEW, Rx: Horn, Co-Pol Tx and Rx: OEW, Co-Pol nPL 0 (dB)n n n 42.7952.6993-58.05906.7915-57.55521.9415-66.57201.6911-67.1594 43.3352.5176-59.33664.1582-76.40491.9189-66.77691.6906-66.3621 43.8753.0071-55.24775.0154-69.00751.6385-67.68551.5118-66.1248 44.4152.8323-57.88144.5279-74.86651.3962-71.05651.5370-67.4646 44.9552.5531-59.80663.8905-78.81731.3040-71.89431.4590-68.6947 45.4952.4821-60.52814.8252-72.72781.2709-72.07650.8431-72.3576 46.0353.1900-55.80763.4456-82.95721.2269-72.17311.0783-70.2655 46.5752.8883-58.14864.4268-75.15211.2570-72.49741.1676-70.5428 47.5302.9430-58.14774.1062-78.04541.5114-71.58681.4209-69.6995 48.0703.0225-57.49674.2967-75.19491.6915-70.64701.9185-66.7296 Slide 14

15 doc.: IEEE 802.11-14/0015r1 Submission AP-STA Conclusion: ① The n value of the cross-polarization is bigger than that of co- polarization ② The n value is smaller when wide beamwidth antennas are used ③ The path loss is approximately unchanged when both OEW antennas are used in Tx and Rx with cross-polarization. January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 15

16 doc.: IEEE 802.11-14/0015r1 Submission Future Work Continue large-scale channel measurement in Cubicle office room and living room. Resume the small-scale channel measurement in all three transmission scenarios. Finish the channel models based on our channel measurement. The complete channel models will be available in IEEE 802 Beijing plenary session in March 2014. January 2014 Haiming Wang, et al. (SEU/CWPAN) Slide 16

17 doc.: IEEE 802.11-14/0015r1 Submission Reference [1] MIIT, The usage of 40-50 GHz frequency band for mobile services in broadband wireless access systems, n15635784, http://www.miit.gov.cn/ n11293472/n11293832/n 12845605/n13916913/15 636214.html Haiming Wang, et al. (SEU/CWPAN) January 2014 Slide 17

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