2-Antenna Receive Diversity GBSS13.0
Feature Parameter Description
Issue
02
Date
2012-06-30
HUAWEI HUAWEI TECHNOLOGIES T ECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2012. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
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Website:
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GSM BSS 2-Antenna Receive Diversity
Contents
Contents 1 Introduction to This Document ......................................................................................... 1-1 1.1 Scope ...................................................................................................................................... 1-1 1.2 Intended Audience ................................................................................................................... 1-1 1.3 Change History ........................................................................................................................ 1-1
2 Overview
................................................................................................................................ 2-1
3 Technical Description.......................................................................................................... 3-1 3.1 Technical Principle ................................................................................................................... 3-1 3.2 Diversity Combining Algorithms ................................................................................................ 3-1 3.2.1 MRC ................................................................................................................................ 3-1 3.2.2 ICC .................................................................................................................................. 3-1 3.2.3 EICC ............................................................................................................................... 3-2
4 Related Features
.................................................................................................................. 4-1
5 Impact on the Network ........................................................................................................ 5-1 5.1 MRC ........................................................................................................................................ 5-1 5.1.1 Impact on System Capacity.............................................................................................. 5-1 5.1.2 Impact on Network Performance ...................................................................................... 5-1 5.2 ICC .......................................................................................................................................... 5-1 5.2.1 Impact on System Capacity.............................................................................................. 5-1 5.2.2 Impact on Network Performance ...................................................................................... 5-1 5.3 EICC ........................................................................................................................................ 5-1 5.3.1 Impact on System Capacity.............................................................................................. 5-1 5.3.2 Impact on Network Performance ...................................................................................... 5-1
6 Engineering Guidelines ...................................................................................................... 6-1 6.1 When to Use the Four Algorithms ............................................................................................. 6-1 6.1.1 MRC Algorithm ................................................................................................................ 6-1 6.1.2 ICC Algorithm .................................................................................................................. 6-1 6.1.3 EICC Algorithm ................................................................................................................ 6-1 6.2 Information to Be Collected ...................................................................................................... 6-1 6.3 Network Planning ..................................................................................................................... 6-1 6.4 Feature Deployment ................................................................................................................. 6-2 6.4.1 Deploying ICC ................................................................................................................. 6-2 6.4.2 Deploying EICC ............................................................................................................... 6-2 6.5 Performance Optimization ........................................................................................................ 6-2
7 Parameters 8 Counters
............................................................................................................................ 7-1
................................................................................................................................ 8-1
9 Glossary ................................................................................................................................. 9-1
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Contents
10 Reference Documents..................................................................................................... 10-1
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1 Introduction to This Document
1 Introduction to This Document 1.1 Scope This document describes the working principle of 2-antenna receive diversity and the diversity combining algorithms.
1.2 Intended Audience It is assumed that users of this document are familiar with GSM basics and have a w orking knowledge of GSM telecommunication. This document is intended for:
Personnel working on Huawei GSM products or systems
System operators who need a general understanding of this feature
1.3 Change History The change history provides information on the changes between different document versions. There are two types of changes, which are defined as follows:
Feature change Feature change refers to the change in the 2-Antenna receive diversity feature of a specific product version.
Editorial change Editorial change refers to the change in wording or the addition of the information that was not described in the earlier v ersion.
Document Issues The document issues are as follows:
02 (2012-06-30)
01 (2011-03-31)
Draft A (2011-01-15)
02 (2012-06-30) This is the second release of GBSS13.0. Compared with issue 01(2011-03-31) of GBSS13.0, issue 02 (2012-06-30) of GBSS13.0 incorporates the changes described in the following table. Change Type
Change Description
Parameter Change
Feature change
None
None
Editorial change
Added the following chapters:
None
Chapter 4 "Related Features"
Chapter 5 "Impact on the Network"
Chapter 6 "Engineering Guidelines"
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1 Introduction to This Document
01 (2011-03-31) This is the first release of GBSS13.0. Compared with issue draft A (2011-01-15) of GBSS13.0, issue 01 (2011-03-31) of GBSS13.0 has no change.
Draft A (2011-01-15) This is the draft release of GBSS13.0. Compared with issue 01 (2010-06-30) of GBSS12.0, issue Draft A (2011-01-15) of GBSS13.0 has no change.
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2 Overview
2 Overview In a wireless communications system, the radio signal from the transmitter arrives at the receiver through two or more paths. This phenomenon is called m ultipath propagation. With mult ipath propagation, the amplitude, phase, and angle of the received signal change. This phenomenon is called multipath fading. As a result, the quality of the received signal deteriorates. Diversity is one of the techniques used to handle multipath fading in the communications system. It increases the signal-to-noise ratio by superimposing uncorrelated signals. The diversity technique in GSM involves time diversity, frequency diversity, and space diversity. In the case of space diversity, multiple antennas are used at the receiver to receive uncorrelated signals of the same source (superimposition of uncorrelated signals). In engineering implementation, generally two antennas (or two polarization ends of the same polarization antenna) are used to receive signals. The signals received from the two antennas can be combined in different ways to obtain desired signals, for example, Maximal Ratio Combining (MRC), Interference Cancellation Combining (ICC), and Enhanced Interference Rejection Combining (EICC).
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3 Technical Description
3 Technical Description 3.1 Technical Principle The 2-antenna receive diversity technique combines the signals received from the two diverse antennas at the receiving end to mitigate multipath interference. Figure 3-1 shows the working principle of 2-antenna receive diversity. Figure 3-1 Working principle of 2-antenna receive diversity
RX channel 1
RX signal r (k ) 1
Noise and interference W1 S (k ) 1
y(k)
Signal x(k) Noise and interference W2 RX channel 2
RX signal r 2( k )
S (k )
2
As shown in Figure 3-1: 1. The signal x(k) arrives at the diverse antennas through two RX channels. The two RX signals are identified as r 1(k) and r 2(k). After the superimposition of interference and noise, the two RX signals are identified as S1(k) and S2(k). 2. Based on the maximum signal-to-noise ratio criterion, the adaptive combining coefficients W1 and W2 are calculated and the output signal is obtained through the formula: y(k) = W1 x S1(k) + W2 x S2(k). The combining algorithms consist of the MRC, ICC, and EICC. In Figure 3-1 the two RX channels correspond to the main and diversity RX channels of the TRX. You should set R C V M D to MAINDIVERSITY(Main Diversity) to enable the 2-Antenna Receive Diversity feature.
3.2 Diversity Combining Algorithms 3.2.1 MRC MRC performs weighted combining on the two signals received by the BTS based on their respective signal-to-noise ratios. This combining method is ideal for situations with little interference and limited noise. It is applicable to wide coverage and overseas coverage.
3.2.2 ICC ICC is a multi-antenna combining technique developed from MRC. In tight frequency reuse scenarios the interfering signals received at diverse antennas may come from the same interfering source. Therefore, a certain correlation exists among these interfering signals. ICC uses this correlation when combining the signals of the two antennas to eliminate certain interference. The use of ICC can improve the speech quality and data throughput in situations with strong interference, for example, the network where tight frequency reuse is in place. ICC can suppress the interference within the GSM system and from other systems if correlation exists between the interfering signals received on diverse antennas.
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3 Technical Description
A resource item license is required for enabling this algorithm.
3.2.3 EICC EICC is developed from ICC. Generally, the interfering signals received from multiple antennas are both space correlated (among the antennas) and time correlated. The difference between ICC and EICC is that ICC considers only space correlation to eliminate interference whereas EICC considers both space correlation and time correlation to suppress and eliminate interference. EICC is mainly used in high traffic network where tight frequency reuse is in place and in situations where the noise of a single interfering source is limited. The EICC performs better than ICC. (GBFD-115821 EICC) You should set
S T I R C A L L O W E D to YES to
select the EICC algorithm of 2-antenna receive diversity.
When S T I R C A L L O W E D is set to NO, the system selects the ICC algorithm by default.
The EICC algorithm and AFC algorithm are mutually exclusive.
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4 Related Features
4 Related Features Feature
Prerequisite Feature
Mutually Exclusive Feature
Affected Feature
MRC
None
None
None
ICC
None
None
None
EICC
None
Automatic Frequency Correction (AFC)
None
NOTE This feature is disabled automatically after AFC is enabled.
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5 Impact on the Network
5 Impact on the Network 5.1 MRC 5.1.1 Impact on System Capacity This algorithm improves the uplink receive quality. For CS services, after uplink power control is enabled for MSs, this algorithm decreases the entire network interference and increases the traffic volume. For PS services, this algorithm increases the uplink throughput.
5.1.2 Impact on Network Performance This algorithm improves the uplink receive quality.
5.2 ICC 5.2.1 Impact on System Capacity Compared with the MRC algorithm, the ICC algorithm enhances the network anti-interference capability and improves the uplink receive quality. For CS services, after uplink power control is enabled for MSs, this algorithm decreases the entire network interference and increases the traffic volume. For PS services, this algorithm increases the uplink throughput.
5.2.2 Impact on Network Performance Compared with the MRC algorithm, the ICC algorithm enhances the network anti-interference capability and improves the uplink receive quality.
5.3 EICC 5.3.1 Impact on System Capacity Compared with the ICC algorithm, the EICC algorithm enhances the network anti-interference capability and improves the uplink receive quality. For CS services, after uplink power control is enabled for MSs, this algorithm decreases the entire network interference and increases the traffic volume. For PS services, this algorithm increases the uplink throughput.
5.3.2 Impact on Network Performance Compared with the ICC algorithm, the EICC algorithm enhances the network anti-interference capability and improves the uplink receive quality.
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6 Engineering Guidelines
6 Engineering Guidelines 6.1 When to Use the Four Algorithms 6.1.1 MRC Algorithm Use the MRC algorithm in the following conditions:
The live network is in noise-limited scenarios, for example, railway coverage or rural area coverage.
The licenses for the ICC and EICC algorithms have not been obtained.
6.1.2 ICC Algorithm Use the ICC algorithm in the following conditions:
The live network is in interference-limited scenarios, for example, urban area coverage and tight frequency reuse scenarios with strong interference.
The license for the EICC algorithm has not been obtained.
6.1.3 EICC Algorithm You are advised to use the EICC algorithm in interference-limited scenarios, such as city coverage and tight frequency reuse scenarios with strong interference.
6.2 Information to Be Collected Before deploying this feature, collect the following information:
Whether the cell is configured in 2-antenna receive mode
Frequency planning data
Cell coverage range
Traffic volume on the network
Whether there is interference in the radio environment
The MRC algorithm improves the network performance at the coverage edge when:
The cell is configured in 2-antenna receive mode.
The network frequencies are loosely set.
The cell coverage is relatively large.
The ICC and EICC algorithms improve the network anti-interference capability when:
The cell is configured in 2-antenna receive mode.
The network frequencies are tightly set.
The network interference is strong and traffic is heavy.
These three algorithms are not applicable to cells in one-antenna receive mode.
6.3 Network Planning RF Planning N/A
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6 Engineering Guidelines
Network Topology N/A
Hardware Planning The two RX channels of the TRXs must be connected to two antennas, or connected to a dual-polarized antenna.
6.4 Feature Deployment 6.4.1 Deploying ICC For details about how to activate, verify, and deactivate this algorithm, see Configuring ICC .
6.4.2 Deploying EICC For details about how to activate, verify, and deactivate this algorithm, see Configuring EICC .
6.5 Performance Optimization Monitoring Observe network counters. For CS services, observe Uplink Quality (UL RxQual). If the counter deteriorates or remains unchanged after the 2-antenna receive diversity feature has been enabled, adjust the combining algorithms.
Parameter Optimization The ICC algorithm achieves favorable network performance in most scenarios. For scenarios without interference, the MRC algorithm is recommended. For scenarios with tight frequency reuse, heavy traffic, and strong interference, the EICC algorithm is recommended.
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7 Parameters
7 Parameters Table 7-1 Parameter description Parameter ID
NE
MML Command
Feature ID
Feature Name
Description
RCVMD
BSC690 SET MRFD-21030 Configuratio Meaning: RF receive mode 0 GTRXDEV(Optional) 1 of the TRX. n Managemen The BTS3012, t BTS3012AE, BTS3012II, BTS3006C, and BTS3002E do not support Main Diversity. The DBS3900 GSM and BTS3900 GSM support Four Diversity Receiver and Main Diversity. GUI Value Range: INDEPENDENT(Independe nt Receiver), DIVIDING(Dividing Receiver), FOURDIVERSITY(Four Diversity Receiver), MAINDIVERSITY(Main Diversity), NONE(None) Actual Value Range: INDEPENDENT, DIVIDING, FOURDIVERSITY, MAINDIVERSITY, NONE Default Value: INDEPENDENT Unit: None
STIRCALLOWE BSC690 SET GBFD-11582 EICC D 0 GCELLSOFT(Option 1 al)
Meaning: Whether to enable the EICC algorithm. Enhanced Interference Rejection Combining combines the signals received by multiple antennas to obtain better signals. EICC is mainly used in high traffic network where tight frequency reuse is in place. GUI Value Range: NO(No), YES(Yes) Actual Value Range: NO, YES Default Value: NO
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Parameter ID
NE
7 Parameters
MML Command
Feature ID
Feature Name
Description Unit: None
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8 Counters
8 Counters There are no specific counters associated with this feature.
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9 Glossary
9 Glossary For the acronyms, abbreviations, terms, and definitions, see the Glossary .
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10 Reference Documents
10 Reference Documents [1] 3GPP TS 25.101, "User Equipment (UE) radio transmission and reception (FDD)" [2] 3GPP TS 25.211, "Physical channels and mapping of transport channels onto physical channels (FDD)" [3] 3GPP TS 25.306, " UE Radio Access capabilities " [4] 3GPP TS 25.308, "UTRA High Speed Downlink Packet Access (HSPDA); Overall description" [5] 3GPP TS 25.321, "Medium Access Control (MAC) protocol specification" [6] BSC6900 Feature List [7] BSC6900 Basic Feature Description [8] BSC6900 GSM Parameter Reference [9] BSC6900 GSM MML Command Reference
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