Q.7 Correlation and antenna gain imbalance for VAMOS III MS
3GPP45.005GSM/EDGE Radio transmission and receptionTS
Since a VAMOS III MS utilizes receiver diversity by means of two antennas, a set of diversity specific parameters have been defined. The sets consist of different values of antenna correlation and antenna gain imbalance.
Table Q.7-1 VAMOS III diversity parameters
|
Parameter set |
Antenna correlation, |
Antenna gain imbalance, G |
|
Set 1 |
0 |
0 dB |
|
Set 2 |
0.7 |
-6 dB |
The correlation is defined as the magnitude of the complex correlation of the signals received at the two antenna connectors of the MS. A correlation value of 0 means the signals are uncorrelated. The antenna gain imbalance parameter reflects the difference in received signal level at the two antenna connectors. Thus, a value of -6 dB means that the signal on one antenna is attenuated by 6 dB compared to the signal on the other connector. The channel model setup when applying these parameters is illustrated below, where the parameter, G, models the antenna gain imbalance and is the antenna correlation.
Figure Q.7.1: Single input – dual output channel model for VAMOS III MS
The model consists of a single input signal, which is passed through two fading channels. The multipath fading is independent Rayleigh fading processes but the channel profile, e.g. TU50 is the same for each branch. The correlation between the two branches is generated using the weighting factor, , which as mentioned is the magnitude of the complex correlation. Antenna gain imbalance is applied by attenuating Y1 or Y2 by 6 dB as indicated by the G block on figure Q.7.1.
The multi interferer scenario (VDTS-2) is generated by expanding the single input-dual output model as shown in figure Q.7.2. The model uses instances of the single input dual output channel model to instantiate the interfering signals. For sensitivity tests the single input – dual output channel model of figure Q.7.1 is sufficient. For single interferer scenarios (VDTS-1, VDTS-3 and VDTS-4), the model shown in figure Q.7.2 is applicable with one instance of the single input – dual output channel model for the desired signal and one instance of the single input – dual output channel model for the interferer.
Figure Q.7.2: Multi interferer model for VAMOS III MS. The amplifier G represents the antenna gain imbalance parameter.
Annex R (normative):
Reference Test Scenarios for Overlaid CDMA