60 GHz Indoor Channel Modeling Results

1
Project IEEE P802.15 Working Group for Wireless
Personal Area Networks (WPANs) Submission Title
60 GHz Indoor Channel Modeling Results Date
Submitted July 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  33487-2790 IBM
Research, 1101 Kitchawan Road, Yorktown Heights,
NY 10598 University of Massachusetts,
Department of ECE, Amherst, MA
01003 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 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.
2
IBM Channel Model and Measurements

• Zwick, Beukema and Nam Introduce a mmw channel
  model. Model was verified with measurements.
• Path loss and small scale statistics are captured
  by the model.
• Small scale fading model has two component,
  namely an exponential inter-arrivals and Rayleigh
  like envelope.
• We wish to reproduce their results.

3
Realizations
4
RMS Delay Samples
5
CDF of RMS Delay
6
PDP
7
Summary

• Reproduced the model proposed by Zwick et. al.
• Model parameters for only one environment (office
  environment) is provided.
• There is a good match between PDPs and estimated
  RMS delays.