January 2006

Slide 1

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs)

Submission Title: [NICT propagation data]Date Submitted: [January, 2006]Source: [Hirokazu Sawada, Yozo Shoji, Hiroyo Ogawa] Company [National Institute of Information and Communications Technology]Address [3-4, Hikarino-Oka, Yokosuka, Kanagawa, 239-0847, Japan]Voice:[+81.46.847.5096], FAX: [+81.46.847.5079], E-Mail:[sawahiro@nict.go.jp, shoji@nict.go.jp, hogawa@nict.go.jp] Re: []

Abstract: [This contribution describes angle of arrival propagation measurement data in Japanese home and office environments.]

Purpose: [Contribution to mmW TG3c meeting.]

Notice: This document has been prepared to assist the IEEE P802.15. 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 P802.15.

January 2006

Slide 2

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Angle of Arrival Measurement in Home and Office Environments

Hirokazu Sawada, Yozo Shoji, Hiroyo Ogawa

National Institute of Information and Communications Technology (NICT), Japan

January 2006

Slide 3

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Outline

• Measurement Setup & Environments

• Measurement Data List

• Measurement Results

• Conclusion

January 2006

Slide 4

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement setup(1)

Environment Home Office

Center frequency 62.5 GHz

Bandwidth 3 GHz

Ｔｉｍｅ resolution 0.25 ns

Distance resolution 19.1cm

No. frequency points 401 801

Frequency step 7.5 MHz 3.75 MHz

Max. excess delay 133.3 ns 266.7 ns

Times of average 128

Using Vector Network Analyzer HP8510C

January 2006

Slide 5

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement setup(2)

• Pyramidal horn antennas• Omni directional antenna• Calibration performed with 1m reference separation

Omni directional Pyramidal horn

January 2006

Slide 6

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Antenna pattern（ 62.5GHz/15°horn/Vertical Max. of gain = 22 dBi ）

(a) H-plane (b) E-plane

January 2006

Slide 7

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

　　

Antenna pattern（ 62.5GHz/30°horn/Vertical Max. of gain = 16 dBi ）

(a) H-plane (b) E-plane

January 2006

Slide 8

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Antenna pattern（ 62.5GHz/60°horn/Vertical Max. of gain = 10 dBi ）

(a) H-plane (b) E-plane

　　

January 2006

Slide 9

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Antenna pattern（ 62.5GHz/Omni./Vertical ）

(a) H-plane (b) E-plane

January 2006

Slide 10

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment(1)

Scenario Room size

Home (JP)

(LOS)

Floor: 6.85×3.57 m2

Ceiling height: 2.47m

Office

(NLOS)

Floor: 22×12.5 m2

Ceiling height: 3.5m

January 2006

Slide 11

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment(2)

• Polarization : Vertical• Antenna height : 1.1m• Antenna separation :

3m(home), 10m(office)• Tx antenna: always fixed

• Rx antenna: rotated from 0 to 360 degree in 5 degree step .

January 2006

Slide 12

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in home (1)

January 2006

Slide 13

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in home (2)

Living room of the wooden house• Without fixtures• Surface of a wall and ceiling are covered with wallpaper• Window is plane glass• Wooden door• Floor is a flooring

January 2006

Slide 14

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in home (3)

3m

Door

TxRx

Win

do

w

Wall side

Window

RotatingTable

(Step 5°)

Controller

6.85m

3.5

7m

Network Analyzer

Floor plan of home environment

January 2006

Slide 15

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in home (4)

Ｔ xside

Rxside

January 2006

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doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in office (1)

January 2006

Slide 17

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in office (2)

• The office room is made of steel wall, steel ceiling and steel floor.

• The floor and the ceiling are covered with carpet and plaster board, respectively.

• Plate glass windows are attached on wall.

January 2006

Slide 18

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in office (3)

Wall

Window

De

sk

De

sk

De

sk

De

sk

De

sk

De

sk

Desk Desk

Meetingroom

Locker room

TxRx

Controller

Rotating table (step 5°)

10m

22 m

12.

5 m

Network Analyzer

Floor plan of office environment

January 2006

Slide 19

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Ｔ xside

Measurement environment in office (4)

January 2006

Slide 20

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement environment in office (5)

Rxside

January 2006

Slide 21

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Measurement Data List

ScenarioAntenna beam width

Angle [deg] PDPsTx [deg] Rx [deg]

Home (JP)

(LOS)

Omni

15 0,5,…,360

73

60 73

30 72 1※

15 73

Office

(NLOS)

Omni 73

30 72 2※

・ Not available two data※1 35deg ， ※ 2 95deg

January 2006

Slide 22

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs (Power delay profile) in home environment (Beam width: Tx=Omni., Rx=15°)

φ

Tx Rx

0 20 40 60 80 100-100

-80

-60

-40

-20

0

Time [ns]

Am

plit

ude

[dB

]

Angle of Rx [deg.] = 0 = 90

January 2006

Slide 23

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs in home environment(Beam width: Tx=60°,Rx=15°)

0 20 40 60 80 100-100

-80

-60

-40

-20

0

Time [ns]

Am

plit

ude

[dB

]

Angle of Rx [deg.] = 0 = 90

φ

Tx Rx

January 2006

Slide 24

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs in home environment(Beam width: Tx=30°,Rx=15°)

φ

Tx Rx

0 20 40 60 80 100-100

-80

-60

-40

-20

0Angle of Rx [deg.]

= 0 = 90

Am

plit

ude

[dB

]

Time [ns]

January 2006

Slide 25

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs in home environment (Beam width: Tx=15°,Rx=15°)

0 20 40 60 80 100-100

-80

-60

-40

-20

0

Am

plit

ude

[dB

]

Time [ns]

Angle of Rx [deg.] = 0 = 90

φ

Tx Rx

January 2006

Slide 26

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs in office environment(Beam width: Tx=Omni., Rx=15°)

0 50 100 150 200-100

-80

-60

-40

-20

0

Time [ns]

Am

plit

ude

[dB

]

Angle of Rx [deg.] = 0 = 90

φ

Tx Rx

January 2006

Slide 27

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Example of PDPs in office environment(Beam width: Tx=30°,Rx=15°)

φ

Tx Rx

0 50 100 150 200-100

-80

-60

-40

-20

0

Time [ns]

Am

plit

ude

[dB

]

Angle of Rx [deg.] = 0 = 90

January 2006

Slide 28

doc.: IEEE 802.15-06-0012-00-003c

Submission

Hiroyo Ogawa, NICT

Conclusion

• NICT measurement data now available• Angle of arrival measurement covered

home and office scenarios• Total of data: 291 PDPs in home (JP) and

145 PDPs in office environments