The IEEE Multipath Channel block simulates an Indoor UWB channel as described in "A Channel Model for Ultrawideband Indoor Communications" by J.R. Foerster, M. Pendergrass and A.F. Molisch, November 2003, and attempts to incorporate the processes used in their MATLAB scripts.
Frequency domain characterization of los nonfading Indoor wireless LAN channel employing frequency and polarization diversity in the 63.4 to 65.4GHz band
This book is intended for RF planners, to serve as a practical tool in their daily work
designing Indoor radio distribution systems.
Based on feedback from readers of the first edition it was clear to me that I needed to add
more material and in depth description of the basics of Indoor systems based on using
repeaters; this has grown into a new Section 4.7.
There was also a strong demand to add more detail and dedicate a full chapter to radio
planning in tunnels, for both rail and road tunnels; and redundancy principles in the design
focus for solving the challenge of handover zones. An entire Chapter 11 is now dedicated to
tunnel radio planning.
This book is intended for the RF planners, to serve as a practical tool in their daily work
designing Indoor radio distribution systems. It is not a complete book about all the deep
aspects and corners of GSM, DCS, UMTS and HSPA networks, or all the core network
systems. It is dedicated to the last 10–70 m of the network, the Indoor air interface between
the mobile user and the Indoor mobile network.
