1. <month year>
doc: IEEE c
November, 2005
Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)
Submission Title: [60 GHz Channel Model Parameters for IBM Measurement Set]
Date Submitted: [November 2005]
Source: [Shahriar Emami, Brian Gaucher, Abbie Mathew and Zhiguo Lai]
Company [Freescale Semiconductor Inc., IBM Research, Newlans Inc. and University of Massachusetts, Amherst]
Address
[Freescale Semiconductor, 6100 Broken Sound Pkwy., N.W. Suite 1, Boca Raton, FL  ]
[IBM Research, 1101 Kitchawan Road, Yorktown Heights, NY 10598]
[University of Massachusetts, Department of ECE, Amherst, MA ]
Abstract: [Summarizes 60 GHz channel modeling simulation work]
Purpose: [To update task group on channel modeling simulation work]
Notice: This document has been prepared to assist the IEEE P 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 P
S. Emami, Freescale
<author>, <company>

2. IBM 60 GHz Measurement Data
November, 2005
IBM 60 GHz Measurement Data
office (432 PDPs)
library/lab (117 PDPs)
private house (135 PDPs)
Channel model for office environment was reproduced and compared against measurement data
S. Emami, Freescale

3. CDF of Delay Spread in Office Environment
November, 2005
CDF of Delay Spread in Office Environment
S. Emami, Freescale

4. Average PDP in Office Environments
November, 2005
Average PDP in Office Environments
S. Emami, Freescale

5. IBM Model parameters Maximum delay spread Path density Constant
November, 2005
IBM Model parameters
Maximum delay spread
Path density
Constant
Break point
Multiplier
Exponent
S. Emami, Freescale

6. Library/Laboratory environment
November, 2005
Library/Laboratory environment
Path loss parameters:
PL0 = dB
n = 1.42
s = 5.78 dB
Stochastic model parameters:
l = 0.1
t max = 200 ns
S. Emami, Freescale

7. November, 2005
Path loss Parameters
S. Emami, Freescale

8. Average PDP in Library/Laboratory environment
November, 2005
Average PDP in Library/Laboratory environment
S. Emami, Freescale

9. Average PDP in Library/Laboratory environment
November, 2005
Average PDP in Library/Laboratory environment
S. Emami, Freescale

10. Private House Path loss parameters: PL0 = -77 dB n = 1.35 s = 6.37 dB
November, 2005
Private House
Path loss parameters:
PL0 = -77 dB
n = 1.35
s = 6.37 dB
Stochastic model parameters:
l = 0.35
t max = 50 ns
S. Emami, Freescale

11. November, 2005
Path Loss
S. Emami, Freescale

12. Average PDP in Private House
November, 2005
Average PDP in Private House
S. Emami, Freescale

13. Average PDP in Private House
November, 2005
Average PDP in Private House
S. Emami, Freescale

14. November, 2005
Summary
Path loss and channel model parameters for the two remaining environments (lab/library and residential) are extracted.
There is a reasonable match between PDPs and RMS delay spreads of the model and measurement data.
We will provide channel model realizations for different environments.
S. Emami, Freescale