Real Time Characterisation of the Mobile Multipath Channel
Abstract
In this thesis a new approach for characterisation of digital mobile radio channels is
investigated. The new approach is based on recognition of the fact that while the
fading which is characteristic of the mobile radio channel is very rapid, the processes
underlying this fading may vary much more slowly. The comparative stability of these
underlying processes has not been exploited in system designs to date. ¶
Channel models are proposed which take account of the stability of the channel.
Estimators for the parameters of the models are proposed, and their performance is
analysed theoretically and by simulation and measurement. ¶
Bounds are derived for the extent to which the mobile channel can be predicted,
and the critical factors which define these bounds are identified. ¶
Two main applications arise for these channel models. The first is the possibility
of prediction of the overall system performance. This may be used to avoid channel
fading (for instance by change of frequency), or compensate for it (by change of the
signal rate or by power control). The second application is in channel equalisation. An
equaliser based on a model which has parameters varying only very slowly can offer
improved performance especially in the case of channels which appear to be varying so
rapidly that the convergence rate of an equaliser based on the conventional model is
not adequate. ¶
The first of these applications is explored, and a relationship is derived between the
channel impulse response and the performance of a broadband system.