| Anchor | ||||
|---|---|---|---|---|
|
Base stations that are connected to a user are included in the “active set” of that user. A base station is initially selected to be in the “active set” based on the strength of its pilot signal versus the interference background. Each base station broadcasts a certain fixed percentage of its maximum power on the pilot channel. The interference background consists of the non-orthogonal energy received on the other channels of the base stations within the active set and the total broadcast power of the base stations that are not in the active set. The BS selection criterion, “pilot Ec/Io” is then defined as
Mathinline body
...
(Eq. 34)${{\left( \frac{{{E}_{c}}}{{{I}_{0}}} \right)}_{i}}=\frac{pilot\_frac\times {{P}_{Max,i}}/W}{F{{N}_{0}}+\sum\limits_{allj}{{{P}_{j}}/W+{{I}_{ext}}/W}}$
with the following definitions:
...
- Add the BS with the strongest corresponding Ec/Io to the active set;
- Add the BS with the second strongest corresponding Ec/Io to the active set if its Ec/Io is within 4 dB of the strongest Ec/Io.
...
Then the soft handover state of a user becomes the number of BS’s in its active set, which is either one or two. Note that in actual systems, the active set of a user may have more than 2 BS’s. However, in order to develop a unified methodology that can simulate various implementations of CDMA based systems and to avoid overwhelming complexity, this simplified approach is suggested. Several standards (including UMTS) present similar methodologies for simulations.