Post on 07-Aug-2018
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
1/82
TEST REPORT 1 (82)
BSS SyVeMarko Ahvenainen 03.09.04
RF hopping, Antenna hopping and IDD performancecomparison measurement report
Owner: Marko AhvenainenScope: Test reportOriginator:Status: ApprovedDocument ID:Location: Intranet:
http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-
203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11Extranet:https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11
Change History
Issue Date Handled by Comments10.08.2004 Marko Ahvenainen Initial
16.08.2004 Marko Ahvenainen Minor corrections17.08.2004 Marko Ahvenainen SW levels included01.09.2004 Marko Ahvenainen Comments received from Mikko Sily03.09.2004 Marko Ahvenainen Information about the antennas
included
Approved by09.09.2004 Heikki Heliste
Company confidential
http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11https://192.100.121.8/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo11http://esdoc04nok.ntc.nokia.com/urn.htm?document_id=13-203861&version=current&auth=T&id=09006c37802361bb&dmw_docbase=espoo118/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
2/82
TEST REPORT 2 (82)
BSS SyVeMarko Ahvenainen 03.09.04
1. Configuration.................................................................................................................................. 42. Data transfer results....................................................................................................................... 82.1 Stop 1 ...................................................................................................................................... 82.2 Stop 2 ...................................................................................................................................... 82.3 Stop 3 ...................................................................................................................................... 82.4 Stop 4 ...................................................................................................................................... 92.5 Stop 5 ...................................................................................................................................... 9
3. Tems results................................................................................................................................. 113.1 Stop 1 .................................................................................................................................... 11
3.1.1 No hopping..................................................................................................................... 113.1.2 RF hopping with HSN1=0............................................................................................... 133.1.3 RF hopping with HSN1=1............................................................................................... 143.1.4 Antenna hopping ............................................................................................................ 163.1.5 Antenna hopping and RF hopping with HSN1=0............................................................ 183.1.6 Antenna hopping and RF hopping with HSN1=1............................................................ 193.1.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 21
3.2 Stop 2 .................................................................................................................................... 233.2.1 No hopping..................................................................................................................... 233.2.2 RF hopping with HSN1=0............................................................................................... 243.2.3 RF hopping with HSN1=1............................................................................................... 263.2.4 Antenna hopping ............................................................................................................ 283.2.5 Antenna hopping and RF hopping with HSN1=0............................................................ 293.2.6 Antenna hopping and RF hopping with HSN1=1............................................................ 313.2.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 33
3.3 Stop 3 .................................................................................................................................... 353.3.1 No hopping..................................................................................................................... 353.3.2 RF hopping with HSN1=0............................................................................................... 363.3.3 RF hopping with HSN1=1............................................................................................... 383.3.4 Antenna hopping ............................................................................................................ 403.3.5 Antenna hopping and RF hopping with HSN1=0............................................................ 413.3.6 Antenna hopping and RF hopping with HSN1=1............................................................ 433.3.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 45
3.4 Stop 4 .................................................................................................................................... 473.4.1 No hopping..................................................................................................................... 473.4.2 RF hoppingwith HSN1=0............................................................................................... 483.4.3 RF hopping with HSN1=1............................................................................................... 503.4.4 Antenna hopping ............................................................................................................ 523.4.5 Antenna hopping and RF hopping with HSN1=0............................................................ 533.4.6 Antenna hopping and RF hopping with HSN1=1............................................................ 553.4.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 57
3.5 Stop 5 .................................................................................................................................... 593.5.1 No hopping..................................................................................................................... 593.5.2 RF hopping with HSN1=0............................................................................................... 603.5.3 RF hopping with HSN1=1............................................................................................... 623.5.4 Antenna hopping ............................................................................................................ 643.5.5 Antenna hopping and RF hopping with HSN1=0............................................................ 653.5.6 Antenna hopping and RF hopping with HSN1=1............................................................ 673.5.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 693.6 Legs....................................................................................................................................... 713.6.1 No hopping..................................................................................................................... 713.6.2 RF hopping with HSN1=0............................................................................................... 723.6.3 RF hopping with HSN1=1............................................................................................... 74
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
3/82
TEST REPORT 3 (82)
BSS SyVeMarko Ahvenainen 03.09.04
3.6.4 Antenna hopping ............................................................................................................ 763.6.5 Antenna hopping and RF hopping with HSN1=0............................................................ 773.6.6 Antenna hopping and RF hopping with HSN1=1............................................................ 793.6.7 Intelligent Downlink Diversity with 2-way Uplink Diversity.............................................. 81
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
4/82
TEST REPORT 4 (82)
BSS SyVeMarko Ahvenainen 03.09.04
1. CONFIGURATION
Frequency hopping (FH), Antenna hopping (AH) and Intelligent Downlink Diversity (IDD)related cases were performed under Kutoja (10) and Suosaari (20) BCFs between 26thand29thof July 2004. UltraSite BTSs with X-polarized antennas were used. Each sectorconsisted of two EDGE TRXs connected to a single X-polarized antenna. During testingsome NTN sites or TRXs were blocked to get more channels available for hopping lists.Also Steri BTS 2 (31) and Mkkyl BCF (40) are blocked to avoid calls to be handed overto BTSs that do not have the features under test activated. A detailed description of thesettings can be found from BSS Parameters for SyVe Testing Features document. Thesettings for each configuration are described also in the following Excel sheet. In case thereis a conflict between BSS Parameters for SyVe Testing Features document and the Excelsheet the Excel shows the right setting. The BSC software in use was S11 with CDs 1.0,
1.1 and 1.2. The BTS software in use was CX 4.0-2.
Configuration 1: RF hopping with HSN1=0
Configuration 2: Antenna hopping and RF hopping with HSN1=0
Configuration 3: Antenna hopping and RF hopping with HSN1=1
Configuration 4: RF hopping with HSN1=1
Configuration 5: No hopping
Configuration 6: Antenna hopping
Configuration 7: Intelligent Downlink Diversity with 2-way Uplink Diversity
Microsoft ExcelWorksheet
During testing five different static locations are used. These locations are refered as Stop1,Stop2, Stop3, Stop4 and Stop5. The locations are selected so that different input levels areused during testing. Locations are shown in the figure below (Note that the tch channels inthe fiqure are not the ones that are used in these tests! The correct channels can be foundfrom the configuration Excel sheet.)
Stop1 input level ~85-90 dBm
Stop2 input level ~80-90 dBm
Stop3 input level ~70-80 dBm
Stop4 input level ~60-80 dBm
Stop5 input level ~75-80 dBm
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
5/82
TEST REPORT 5 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Tests are performed according to the following BSS SyVe test cases:
SVS06CAB201
SVS11COO201
SVS11COO202
SVS10DAB201
During testing the experienced signal quality is measured with TEMS. RXLevel, BER (BitError Ratio), FER (Frame Erasure Ratio), RXQuality and SQI (Speech Quality Index)values are recorded along with other performance indicators.
In addition to the test cases all cases that use RF hopping are done with both cyclic andrandom hopping patterns (HSN1=0 and HSN1=1). During testing the network conditionsare logged with TEMS while having an EFR call on. From the log files a report is createdusing the following report template. The channels that the calls were on at eachmeasurement point are shown in the same tables that show data throughput results.
Package
During testing also EDGE data transmission was on and the RLC and applicationthroughputs using 4 slot transmission were recorded with Application tester. The reportedvalues are averaged ovet 10 minutes at each measurement point. Data was downloadedfrom a Linux FTP server in 1 MB files.
The weather was recorded during each test round and can be seen from table below.
Configuration Weather
No hopping Clouds and wind
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
6/82
TEST REPORT 6 (82)
BSS SyVeMarko Ahvenainen 03.09.04
FH (HSN1=0) Clouds
FH (HSN1=1) Rain
AH Clouds and wind
AH + FH (HSN1=0) Sunny
AH + FH (HSN1=1) Light clouds
IDD Rain and wind
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
7/82
TEST REPORT 7 (82)
BSS SyVeMarko Ahvenainen 03.09.04
2. CONCLUSIONS
In this chapter the measurement results are analyzed on a general level. Detailedmeasurement results can be found in the following two chapters.
In EDGE data transmission there were no big differencies in the throughput values. Thethroughput values are approximations of the average throughput in each test situation. Abetter way to estimate the effect each feature has on EDGE performance might be toanalyze MCS distributions during each stop. Anyhow this was not possible at the time thetests occurred.
The TEMS reports showed better the differences in performance between differentfeatures. In measurement points 4 and 5 there was no noticeable difference in performance
between test rounds. In those measurement points the input level was most of the timebetween 60 dBm and 70 dBm, so the signal quality was excellent in all the cases.
In measurement point 1 (input level worse than 85 bDm) there was not much difference inthe BER or FER values between different features. The RXQuality values were clearlybetter in cases where antenna hopping with frequency hopping or IDD were activated.Antenna hopping alone seemed to work a bit better than frequency hopping alone. In theSQI values the differences were even clearer. Frequency hopping alone improved theperformance in one of the cases (with HSN1=1). Antenna hopping and IDD improved theperformance clearly. Activating frequency hopping in addition to antenna hopping did notimprove the situation compared to antenna hopping alone.
In measurement points 2 and 3 (input level around -80 dBm) there was clear improvementin FER values in with all features. In the BER values the difference to the baseline was notthat clear. The RXQuality values were also clearly better than with the baseline. With IDDactivated the RXQuality values were highest. Antenna hopping alone did not help as muchas frequency hopping and activating antenna hopping in addition to frequency hopping didnot improve the performance. Still antenna hopping alone was clearly better than nohopping at all. Antenna hopping or frequency hopping alone impeoved the SQI valuesclearly compared to the baseline. With IDD or both antenna hopping and frequencyhopping activated the SQI values were all the better.
During the drives between measurement points there were not noticeable difference in theBER values between test rounds. The FER values in cases where IDD or both antenna
hopping and frequency hopping were activated were a bit better than in the rest of thecases. The RXQuality and SQI values improved a bit with activating antenna hopping orfrequency hopping. Activating both of the features improved the situation almost to thesame level as with the IDD feature.
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
8/82
TEST REPORT 8 (82)
BSS SyVeMarko Ahvenainen 03.09.04
3. DATA TRANSFER RESULTS
3.1 Stop 1
Configuration Channel RLC
(Kbits/s)
Application
(Kbits/s)
Notes
No hopping 838 / 848 105 95 Few Hos to 848
FH (HSN1=0) 838 / 848 105 95 A lot Hos to 848
FH (HSN1=1) 848 115 95
AH 844 105 95
AH + FH(HSN1=0)
838 / 848 105 95 Some Hos to 848
AH + FH(HSN1=1)
848 / 838 95 90 Call on BCCH
IDD 838 / 848 105 95 Some Hos between 838& 848
3.2 Stop 2
Configuration Channel RLC
(Kbits/s)
Application
(Kbits/s)
Notes
No hopping 848 100 95 Few Hos to 845
FH (HSN1=0) 854 / 848 115 105 Hos between 848 & 854
FH (HSN1=1) 848 130 100
AH 846 110 100
AH + FH(HSN1=0)
848 / 854 110 100 Hos between 848 & 854
AH + FH(HSN1=1)
848 40 35 A lot of interference!
IDD 848 55 50
3.3 Stop 3
Configuration Channel RLC Application Notes
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
9/82
TEST REPORT 9 (82)
BSS SyVeMarko Ahvenainen 03.09.04
(Kbits/s) (Kbits/s)
No hopping 848 140 120 Intra cell Hos
FH (HSN1=0) 848 140 130 Call on BCCH
FH (HSN1=1) 848 150 115 Call on BCCH
AH 848 135 125
AH + FH(HSN1=0)
848 130 120 Call on BCCH
AH + FH(HSN1=1)
848 145 115
IDD 848 95 90
3.4 Stop 4
Configuration Channel RLC
(Kbits/s)
Application
(Kbits/s)
Notes
No hopping 856 145 135
FH (HSN1=0) 851 145 135 Call on BCCH
FH (HSN1=1) 848 160 130
AH 846 140 130
AH + FH(HSN1=0)
851 120 110
AH + FH
(HSN1=1)
848 155 125
IDD 851 125 115
3.5 Stop 5
Configuration Channel RLC
(Kbits/s)
Application
(Kbits/s)
Notes
No hopping 856 135 125
FH (HSN1=0) 851 115 105
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
10/82
TEST REPORT 10 (82)
BSS SyVeMarko Ahvenainen 03.09.04
FH (HSN1=1) 851 130 115
AH 856 130 120
AH + FH(HSN1=0)
851 125 115
AH + FH(HSN1=1)
851 150 120
IDD 851 125 115
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
11/82
TEST REPORT 11 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4. TEMS RESULTS
4.1 Stop 1
4.1.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
12/82
TEST REPORT 12 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
13/82
TEST REPORT 13 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.2 RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
14/82
TEST REPORT 14 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
15/82
TEST REPORT 15 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
16/82
TEST REPORT 16 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
17/82
TEST REPORT 17 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
18/82
TEST REPORT 18 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
19/82
TEST REPORT 19 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
20/82
TEST REPORT 20 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
21/82
TEST REPORT 21 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.1.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
22/82
TEST REPORT 22 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
23/82
TEST REPORT 23 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2 Stop 2
4.2.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
24/82
TEST REPORT 24 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.2 RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
25/82
TEST REPORT 25 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
26/82
TEST REPORT 26 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
27/82
TEST REPORT 27 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
28/82
TEST REPORT 28 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
29/82
TEST REPORT 29 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
30/82
TEST REPORT 30 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
31/82
TEST REPORT 31 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
32/82
TEST REPORT 32 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
33/82
TEST REPORT 33 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.2.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
34/82
TEST REPORT 34 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
35/82
TEST REPORT 35 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3 Stop 3
4.3.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
36/82
TEST REPORT 36 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.2 RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
37/82
TEST REPORT 37 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
38/82
TEST REPORT 38 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
39/82
TEST REPORT 39 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
40/82
TEST REPORT 40 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
41/82
TEST REPORT 41 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
42/82
TEST REPORT 42 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
43/82
TEST REPORT 43 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
44/82
TEST REPORT 44 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
45/82
TEST REPORT 45 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.3.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
46/82
TEST REPORT 46 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
47/82
TEST REPORT 47 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4 Stop 4
4.4.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
48/82
TEST REPORT 48 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.2 RF hoppingwith HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
49/82
TEST REPORT 49 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
50/82
TEST REPORT 50 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
51/82
TEST REPORT 51 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
52/82
TEST REPORT 52 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
53/82
TEST REPORT 53 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
54/82
TEST REPORT 54 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
55/82
TEST REPORT 55 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
56/82
TEST REPORT 56 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
57/82
TEST REPORT 57 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.4.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
58/82
TEST REPORT 58 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
59/82
TEST REPORT 59 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5 Stop 5
4.5.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
60/82
TEST REPORT 60 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.2 RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
61/82
TEST REPORT 61 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
62/82
TEST REPORT 62 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
63/82
TEST REPORT 63 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
64/82
TEST REPORT 64 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
65/82
TEST REPORT 65 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
66/82
TEST REPORT 66 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
67/82
TEST REPORT 67 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
68/82
TEST REPORT 68 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
69/82
TEST REPORT 69 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.5.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
70/82
TEST REPORT 70 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
71/82
TEST REPORT 71 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6 Legs
4.6.1 No hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
72/82
TEST REPORT 72 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.2 RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
73/82
TEST REPORT 73 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
74/82
TEST REPORT 74 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.3 RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
75/82
TEST REPORT 75 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
76/82
TEST REPORT 76 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.4 Antenna hopping
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
77/82
TEST REPORT 77 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.5 Antenna hopping and RF hopping with HSN1=0
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
78/82
TEST REPORT 78 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
79/82
TEST REPORT 79 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.6 Antenna hopping and RF hopping with HSN1=1
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
80/82
TEST REPORT 80 (82)
BSS SyVeMarko Ahvenainen 03.09.04
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
81/82
TEST REPORT 81 (82)
BSS SyVeMarko Ahvenainen 03.09.04
4.6.7 Intelligent Downlink Diversity with 2-way Uplink Diversity
Company confidential
8/21/2019 RF Hopping, Antenna Hopping and IDD Performance Comparison Measurement Report
82/82
TEST REPORT 82 (82)
BSS SyVeMarko Ahvenainen 03.09.04