LTE Calcuator

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FDL_low [MHz] NOffs-DL Range of NDL FUL_low [MHz] NOffs-UL 1 2110 0 0 – 599 1920 18000 2 1930 600 600 - 1199 1850 18600 3 1805 1200 1200 – 1949 1710 19200 4 2110 1950 1950 – 2399 1710 19950 5 869 2400 2400 – 2649 824 20400 6 875 2650 2650 – 2749 830 20650 7 2620 2750 2750 – 3449 2500 20750 8 925 3450 3450 – 3799 880 21450 9 1844.9 3800 3800 – 4149 1749.9 21800 10 2110 4150 4150 – 4749 1710 22150 11 1475.9 4750 4750 – 4949 1427.9 22750 12 728 5000 5000 – 5179 698 23000 13 746 5180 5180 – 5279 777 23180 14 758 5280 5280 – 5379 788 23280 … 17 734 5730 5730 – 5849 704 23730 18 860 5850 5850 – 5999 815 23850 19 875 6000 6000 – 6149 830 24000 20 791 6150 6150 - 6449 832 24150 21 1495.9 6450 6450 – 6599 1447.9 24450 … 33 1900 36000 36000 – 36199 1900 36000 34 2010 36200 36200 – 36349 2010 36200

E-UTRA Operating Band

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35 1850 36350 36350 – 36949 1850 36350 36 1930 36950 36950 – 37549 1930 36950 37 1910 37550 37550 – 37749 1910 37550 38 2570 37750 37750 – 38249 2570 37750 39 1880 38250 38250 – 38649 1880 38250 40 2300 38650 38650 – 39649 2300 38650 1.4 3 5 10 15 Sampling Frequancy 1.92 3.84 7.68 15.36 23.04 Guard Band 0.52 0.84 2.68 5.36 8.04 Totol FFt Size 128 256 512 1024 1536

No of Usefull FTT(Occupied Subcarrier) 72 180 300 600 900

Resource Block RB per slot 6 15 25 50 75

RE-Reference Signals per RB, Normal TCP(DL) 4 4 4 4 4

RE-Reference Signals per RB, Normal TCP(UL) 12 12 12 12 12

RE Per RB( Normal CP) 84 84 84 84 84

Per Slot RE 504 1260 2100 4200 6300

Single port antena Reference Signals per Slot,

Normal TCP(DL) 24 60 100 200 300

NOTE: The channel numbers that designate carrier frequencies so close to the operating band edges that the carrier extends beyond the operating band edge shall not be used. This implies that the first 7, 15, 25, 50, 75 and 100 channel numbers at the lower operating band edge and the last 6, 14, 24, 49, 74 and 99

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2 port (MIMO Case) 48 120 200 400 600

RE Per RB(Extended) 72 72 72 72 72

Reference Signals per RB, Normal TCP(DL) 4 4 4 4 4

Reference Signals per RB, Normal TCP(UL) 12 12 12 12 12

Per Slot RE(Extended CP) 432 1080 1800 3600 5400

Single port antena Reference Signals per Slot,

Normal TCP(DL) 24 60 100 200 300

2 port ( 2x2 MIMO Case) 48 120 200 400 600

No of Slots In LTE Frame 20 20 20 20 20

No of Subframe Into LTE frame(2 slot =1 Subframe) 10 10 10 10 10

Dl Control Info ( N) 2 2 2 2 2

Ul Control Info 6 6 6 6 6

RE for PSS Per 0 Sub Frame 42 105 175 350 525 RE for PSS Per 10ms Frame 84 210 350 700 1050

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Channel Bandwidth Centre Frequancy( Dl) Channel Bandwidth Centre Frequancy( Dl) Range of NUL Awarded Spectrum Starting Frequanc y(DL) Awarded Spectrum Starting Frequancy( UL) 18000 – 18599 2115 5 1925 5 2122.5 1930 18600 – 19199 1932 ₂ ₁₈₅₂ ₂ _1939.5 _1858.5 19200 – 19949 1830 ₂₅ ₁₇₃₅ ₂₅ _1837.5 ₁₇₃₀ 19950 – 20399 _-2110 _-400 _-2110 _7.5 _662.5 20400 – 20649 _-869 _-45 _-869 _7.5 ₃₉₇ 20650 – 20749 _-875 _-45 _-875 _7.5 ₄₀₀ 20750 – 21449 2625 ₅ ₂₅₀₅ ₅ _2632.5 ₂₅₁₀ 21450 – 21799 _-925 _-45 _-925 _7.5 ₄₂₅ 21800 – 22149 _-1844.9 _-95 _-1844.9 _7.5 _834.95 22150 – 22749 _-2110 _-400 _-2110 _7.5 _662.5 22750 – 22949 _-1475.9 _-48 _-1475.9 _7.5 _697.45 23000 – 23179 _-728 _-30 _-728 _7.5 _341.5 23180 – 23279 _-746 ₃₁ _-746 _7.5 _411.5 23280 – 23379 _-758 ₃₀ _-758 _7.5 _416.5 0 0 0 7.5 7.5 23730 – 23849 _-734 _-30 _-734 _7.5 _344.5 23850 – 23999 _-860 _-45 _-860 _7.5 _392.5 24000 – 24149 _-875 _-45 _-875 _7.5 ₄₀₀ 24150 - 24449 _-791 ₄₁ _-791 _7.5 ₄₄₄ 24450 – 24599 _-1495.9 _-48 _-1495.9 _7.5 _707.45 0 0 0 7.5 7.5 36000 – 36199 _-1900 ₀ _-1900 _7.5 _957.5 36200 – 36349 _-2010 ₀ _-2010 _7.5 _1012.5

Spectrum Channel Bandwidth Uplink

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36350 – 36949 _-1850 ₀ _-1850 _7.5 _932.5 36950 – 37549 _-1930 ₀ _-1930 _7.5 _972.5 37550 – 37749 _-1910 ₀ _-1910 _7.5 _962.5 37750 – 38249 _-2570 ₀ _-2570 _7.5 _1292.5 38250 – 38649 _-1880 ₀ _-1880 _7.5 _947.5 38650 – 39649 _-2300 ₀ _-2300 _7.5 _1157.5 7.5 7.5 20 30.72 10.72 2048 1200 100 4 12 84 8400 400

NOTE: The channel numbers that designate carrier frequencies so close to the operating band edges that the carrier extends beyond the operating band edge shall not be used. This implies that the first 7, 15, 25, 50, 75 and 100 channel numbers at the lower operating band edge and the last 6, 14, 24, 49, 74 and 99

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800 72 4 12 7200 400 800 20 10 2 6 700 1400

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NDL

NUL

DL

UL

FDL FUL

DL UL

NDL (EARFCN)= =10*(F_{NDL (EARFCN)= =10*(FUL (center Freq) - FUL_low ) + NOffs-UL}_DL (center Freq) - F_{DL_low}_{erfcn no erfcn no} ) + N_Offs-DL

F

DL

= F

DL_low

+ 0.1(N

DL

– N

Offs-DL

)

F

UL

= F

UL_low

+ 0.1(N

UL

– N

Offs-UL

)

2130 1940 50 18050 33 18033 2113.3 1923.3 1947 1867 620 18620 1870 -10 1845 1750 1450 19450 1685 -210 15 -385 -19150 -1150 1915 -285 15 -30 -6290 11710 629 -1216 15 -30 -6100 11900 610 -1235 2640 2520 2800 20800 2800 20800 2625 2505 15 -30 -5800 12200 15 -80 -14649 3351 15 -385 -16950 1050 15 -33 -10009 7991 15 -15 -2280 15720 15 46 -2280 15720 15 45 -2300 15700 15 15 0 0 15 -15 -1610 16390 15 -30 -2750 15250 15 -30 -2750 15250 15 56 -1760 16240 15 -33 -8509 9491 15 15 0 0 15 15 17000 17000 15 15 16100 16100 15

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15 15 17850 17850 15 15 17650 17650 15 15 18450 18450 15 15 12050 12050 15 15 19450 19450 15 15 15650 15650 15 15 0

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Target Value

1 RRC Connection Establishment

Success Rate Performance-Accessibility 98.50%

2 Attach Failure Rate Performance-Accessibility 2%

3 Service Request Failure Rate Performance-Accessibility 1.50%

4 Service Request Delay Performance-Accessibility 250ms

5 ERAB Establishment Success Rate Performance-Accessibility 98.50%

6 Call drop rate Performance-Retainability 3.00%

7 Average rudimental BLER Performance-Integrity 2.0%

8 Intra Freq Handover Success Rate Performance-Mobility 98.00%

9 C-Plane Latency Intra frequency HO Performance-Mobility 100ms

10 S1/X2 Handover Interruption Time,

inter-eNB（U-Plane） Performance-Mobility

11 IRAT handover success rate to 3G Performance-Mobility 90%

13 UL Single User average Throughput Performance-Throughput 15mbps

14 DL Single User average Throughput Performance-Throughput 33mbps

15 Coverage and Quality Test Performance-coverage RSRP>-105dBm and samples >90% )

16 Coverage and Quality Test Performance-coverage

SNR>=17dB for 24% SNR>=5dB for 77% SNR>=-3dB for 95%

DriveTest KPI

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I

ntra frequency handover

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Optimization Result Formula

100.00% PASS

RRC Connection Establishment Success Rate = Number of RRC Connection Establishment Success / Number of RRC Connection Establishment Attempt * 100%

0.00% PASS Attach failure Rate = 1- Number of LTE Attach

Complete/ Number of LTE Attach Request

0.00% PASS Service Request Failure Rate = 1-RRC setup success

rate*ERAB setup success rate(%)

101.57ms PASS

Service Request Delay = T(RRCRecfgComplete)-T(RRCConnectionRequest);excluded the Service request failure delay

*Exclude the unreasonable latency due to service request not finished but reselect to other cells

100% PASS

ERAB Establishment Success Rate = Number of ERAB Establishment Success / Number of ERAB

Establishment Attempt * 100%

1.27% PASS Call drop rate = Number of E-RAB Abnormal Release /

Number of E-RAB Setup Success * 100%

0.00% PASS Result evaluation: Average rudimental BLER recorded

in Probe and Assistant

100.00% PASS

Handover Successful Rate = Number of Intra Freq Handover Success / (Number of Intra Freq Handover Success + Number of Intra Freq HO Failure) * 100%;

16.53ms PASS C-Plane Latency Intra frequency HO =

T(handoff_complete)- T(handoff_command) T((first Rx-RTP (After rrc Connection Reconfiguration complete(rach msg-3))-T((last Rx-RTP packet )(Before rrc Connection reconfiguration received)) in MAC layer

100% PASS

IRAT handover Success Rate

=LTEInterRATRedirectionSuc Counter/ (LTEInterRATRedirectionSuc Counter+ LTEInterRATRedirectionfail Counter)*100%

19.724 PASS The RF conditions should be satisfied for RSRP ≥

-110dBm，SINR ≥ 0dB

39.00mbps PASS SINR > 0

92.89% PASS Results are based on those samples which lies within

the cluster boundary SNR>=17dB for 32.65%

SNR>=5dB for 79.11% SNR>=-3dB for 97.19%

PASS Results are based on those samples which lies within

the cluster boundary

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short call:263 long call:367

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Counter 02/19/2013 00:00

RRC Connection Setup Success Rate[%]-c 100

E-RAB Setup Success Rate (ALL)[%]-c 100

Intra-frequency Handover Out Success Rate[%] -c 98.9011 Inter-RAT Handover Out Success Rate (LTE to UMTS)[%] -c

Call Drop Rate (All)[%]-c 0

Traffic User Avg [Users] -c 14

DL Average Throughput(Kbps) 9392.3152

DL Traffic Volume (GB) 0.9404

UL Average Throughput(Kbps) 2799.8789

UL Traffic Volume (GB) 0.1975

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ID Name

DrxAlgSwitch DRX switch

ShortDrxSwitch Short-cycle DRX switch

LongDrxCycleSpecial Special long DRX cycle

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OnDurationTimerSpecial Special On Duration timer

DrxInactivityTimerSpecial Special DRX inactivity timer

SupportShortDrxSpecial Special short-cycle DRXsupported indication

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SupportShortDrxSpecial Special short-cycle DRXsupported indication

LongDRXCycleforIRatAnr Long DRX Cycle for Inter-RAT ANR

ShortDrxCycleSpecial Special short DRX cycle

DrxShortCycleTimerSpecial Special DRX short cycle timer

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Description

Meaning: Indicates the DRX switch. GUI Value Range: OFF(Off), ON(On) Unit: None

Actual Value Range: OFF, ON MML Default Value: None Recommended Value: OFF(Off) Parameter Relationship: None

Service Interrupted After Modification: No (And no impact on the UE in idle mode) Impact on Radio Network Performance: If this parameter is set to ON, the UE may enter

the DRXstate, saving UE power. If this parameter is set to OFF, the UE consumes relatively much power.

Meaning: Indicates whether to enable or disable short DRX cycles. Short DRX cycles reduce the traffic delay.

GUI Value Range: OFF(Off), ON(On) Unit: None

Actual Value Range: OFF, ON

MML Default Value: None Recommended Value: ON(On) Parameter Relationship: None

Service Interrupted After Modification: No (And no impact on the UE in idle mode)

Impact on Radio Network Performance: This parameter has little impact on the radio network performance. Short DRX cycles reduce the traffic delay.

Meaning: Indicates the length of a long DRX cycle that is applied only to non-power-saving UEs whose subscriber profile ID for RAT/frequency priority (RFSP) indexes are contained in the RFSP index set. Due to the impact of CQI reporting periods and SRS transmission periods, the actual value of this parameter assigned to a UE may be less than the configured value.

GUI Value Range: SF10(10 subframes), SF20(20 subframes), SF32(32 subframes), SF40(40 subframes), SF64(64 subframes), SF80(80 subframes), SF128(128 subframes), SF160(160 subframes), SF256(256 subframes), SF320(320 subframes), SF512(512 subframes), SF640(640 subframes), SF1024(1024 subframes), SF1280(1280 subframes), SF2048(2048 subframes), SF2560(2560 subframes)

Unit: subframe

Actual Value Range: SF10, SF20, SF32, SF40, SF64, SF80, SF128, SF160, SF256, SF320, SF512, SF640, SF1024, SF1280, SF2048, SF2560

MML Default Value: None

Recommended Value: SF10(10 subframes)

Parameter Relationship: In the Drx MO, the value of OnDurationTimerSpecial cannot be greater than that of LongDrxCycleSpecial.

Service Interrupted After Modification: No (And no impact on the UE in idle mode) Impact on Radio Network Performance: None

Meaning: Indicates the length of the On Duration Timer that applies only to non-power-saving UEs whose RFSP indexes are contained in the RFSP index set. For details about this timer, see 3GPP TS 36.321. Due to the impact of CQI reporting intervals and SRS transmission intervals, there is a possibility that the actual value of this parameter assigned to a UE is larger than the configured value.

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GUI Value Range: PSF1(1 subframe), PSF2(2 subframes), PSF3(3 subframes), PSF4(4

subframes), PSF5(5 subframes), PSF6(6 subframes), PSF8(8 subframes), PSF10(10 subframes), PSF20(20 subframes), PSF30(30 subframes), PSF40(40 subframes), PSF50(50 subframes), PSF60(60 subframes), PSF80(80 subframes), PSF100(100 subframes), PSF200(200 subframes) Unit: subframe

Actual Value Range: PSF1, PSF2, PSF3, PSF4, PSF5, PSF6, PSF8, PSF10, PSF20, PSF30, PSF40, PSF50, PSF60, PSF80, PSF100, PSF200

Recommended Value: PSF4(4 subframes)

Parameter Relationship: In the Drx MO, the value of OnDurationTimerSpecial cannot be greater than that of LongDrxCycleSpecial.

In the Drx MO, the value of OnDurationTimerSpecial cannot be greater than the value of ShortDrxCycleSpecial if SupportShortDrxSpecial is set to UU_ENABLE.

Meaning: Indicates the length of the DRX Inactivity Timer that applies only to non-power-saving UEs whose RFSP indexes are contained in the RFSP index set. For details about this timer, see 3GPP TS 36.321.

GUI Value Range: PSF1(1 subframe), PSF2(2 subframes), PSF3(3 subframes), PSF4(4

subframes), PSF5(5 subframes), PSF6(6 subframes), PSF8(8 subframes), PSF10(10 subframes), PSF20(20 subframes), PSF30(30 subframes), PSF40(40 subframes), PSF50(50 subframes), PSF60(60 subframes), PSF80(80 subframes), PSF100(100 subframes), PSF200(200 subframes), PSF300(300 subframes), PSF500(500 subframes), PSF750(750 subframes), PSF1280(1280 subframes), PSF1920(1920 subframes), PSF2560(2560 subframes)

Unit: subframe

Actual Value Range: PSF1, PSF2, PSF3(TDD), PSF4, PSF5(FDD), PSF6, PSF8, PSF10, PSF20, PSF30, PSF40, PSF50, PSF60, PSF80, PSF100, PSF200, PSF300, PSF500, PSF750, PSF1280, PSF1920, PSF2560

Recommended Value: PSF5(5 subframes) for FDD PSF3(3 subframes) for TDD in subframe configuration 0 PSF3(3 subframes) for TDD in subframe configuration 1 PSF4(4 subframes) for TDD in subframe configuration 2 PSF3(3 subframes) for TDD in subframe configuration 3 PSF4(4 subframes) for TDD in subframe configuration 4 PSF4(4 subframes) for TDD in subframe configuration 5 PSF3(3 subframes) for TDD in subframe configuration 6 Parameter Relationship: None

Meaning: Indicates whether to enable or disable short DRX cycles for non-power-saving UEs whose RFSP indexes are contained in the RFSP index set.

GUI Value Range: UU_DISABLE(Disable), UU_ENABLE(Enable) Unit: None

Actual Value Range: UU_DISABLE, UU_ENABLE MML Default Value: None

Recommended Value: UU_DISABLE(Disable) Parameter Relationship: None

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Meaning: Indicates the length of a short DRX cycle that applies only to non-power-saving UEs whose RFSP indexes are contained in the RFSP index set.

GUI Value Range: SF2(2 subframes), SF5(5 subframes), SF8(8 subframes), SF10(10 subframes), SF16(16 subframes), SF20(20 subframes), SF32(32 subframes), SF40(40 subframes), SF64(64 subframes), SF80(80 subframes), SF128(128 subframes), SF160(160 subframes), SF256(256 subframes), SF320(320 subframes), SF512(512 subframes), SF640(640 subframes)

Unit: subframe

Actual Value Range: SF2, SF5, SF8, SF10, SF16, SF20, SF32, SF40, SF64, SF80, SF128, SF160, SF256, SF320, SF512, SF640

Recommended Value: SF10(10 subframes)

Parameter Relationship: In the Drx MO, the value of OnDurationTimerSpecial cannot be greater than the value of ShortDrxCycleSpecial if SupportShortDrxSpecial is set to UU_ENABLE.

In the Drx MO, the value of LongDrxCycle must be an integer multiple of ShortDrxCycle if SupportShortDrxSpecial is set to UU_ENABLE.

Meaning: Indicates the length of the DRX Short Cycle Timer that applies only to non-power-saving UEs whose RFSP indexes are contained in the RFSP index set. The length of this timer is

expressed in the number of short DRX cycles. If this parameter is set to 1, the length of this timer is one short DRXcycle. If this parameter is set to 2, the length of this timer is two short DRX cycles. For details, see 3GPP TS 36.321 5.7.

GUI Value Range: 1~16 Unit: None

Actual Value Range: 1~16 MML Default Value: None Recommended Value: 1 Parameter Relationship: None

Meaning: Indicates the long DRX cycle for intra-RAT ANR. If intra-RAT ANR is enabled, this parameter takes effect regardless of whether DRX is enabled.

GUI Value Range: SF128(128 subframes), SF160(160 subframes), SF256(256 subframes),

SF320(320 subframes), SF512(512 subframes), SF640(640 subframes), SF1024(1024 subframes), SF1280(1280 subframes), SF2048(2048 subframes), SF2560(2560 subframes)

Unit: subframe

Actual Value Range: SF128, SF160, SF256, SF320, SF512, SF640, SF1024, SF1280, SF2048, SF2560

Recommended Value: SF320(320 subframes) Parameter Relationship: None

Meaning: Indicates the long DRX cycle for inter-RAT ANR. If inter-RAT ANR is enabled, this parameter is valid regardless of whether DRX is enabled.

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GUI Value Range: SF128(128 subframes), SF160(160 subframes), SF256(256 subframes),

SF320(320 subframes), SF512(512 subframes), SF640(640 subframes), SF1024(1024 subframes), SF1280(1280 subframes), SF2048(2048 subframes), SF2560(2560 subframes)

Unit: subframe

Actual Value Range: SF128, SF160, SF256, SF320, SF512, SF640, SF1024, SF1280, SF2048, SF2560

Recommended Value: SF1280(1280 subframes) Parameter Relationship: None

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MOD DRX:DrxAlgSwitch=OFF, ShortDrxSwitch=ON, LongDrxCycleSpecial=SF10, OnDurationTimerSpecial=PSF2,

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TA Update

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TA Update

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Step 1 2 3 4 5 6 7 8 9 10 11 12 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34

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35 36 37 38 39 40 41 42 43 44 45 46 48 49 50 51 53 54 55 58 59 60 61 63 64 65 66 67 68 69 70 71 72 73

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75 76 78 79 80 81 83 84 85

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Step Direction Message

1 UE <--- SS MIB

2 UE <--- SS SIB1

3 UE <--- SS SIB2,3 and others

4 UE ---> SS PRACH

5 UE <--- SS RACH Response

6 UE ---> SS RRC Connection Request

7 UE <--- SS ACK (PHICH)

8 UE <--- SS Contention Resolution < UE > UE MAC stop

mac-ContentionResolutionTimer 9 UE <--- SS RRC Connection Setup

10 UE ---> SS ACK (PUCCH)

11 UE ---> SS Scheduling Request(PUCCH) 12 UE <--- SS UL Grant (DCI 0, PDCCH)

RRC Connection Setup Complete + Attach Requeset + (PDN Conn Request) 14 UE <--- SS ACK(PHICH) 15 UE <--- SS RLC ACK 16 UE <--- SS Authentication Request 17 UE ---> SS ACK (PUCCH) 18 UE ---> SS Scheduling Request(PUCCH) 19 UE <--- SS UL Grant (DCI 0, PDCCH) 20 UE ---> SS RLC ACK 21 UE ---> SS Scheduling Request(PUCCH) 22 UE ---> SS UL Grant (DCI 0, PDCCH) 23 UE ---> SS Authentication Response 24 UE <--- SS ACK(PHICH) 25 UE <--- SS RLC ACK

26 UE <--- SS NAS Security Mode Command

27 UE ---> SS ACK (PUCCH) 28 UE ---> SS Scheduling Request(PUCCH) 29 UE <--- SS UL Grant (DCI 0, PDCCH) 30 UE ---> SS RLC ACK 31 UE ---> SS Scheduling Request(PUCCH) 32 UE <--- SS UL Grant (DCI 0, PDCCH) 33 UE ---> SS NAS Security Mode Complete

34 UE <--- SS ACK(PHICH)

< UE > _{ContentionResolutionTimer}UE MAC start

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35 UE <--- SS RLC ACK

36 UE <--- SS RRC Security Mode Command

37 UE ---> SS ACK (PUCCH) 38 UE ---> SS Scheduling Request(PUCCH) 39 UE <--- SS UL Grant (DCI 0, PDCCH) 40 UE ---> SS RLC ACK 41 UE ---> SS Scheduling Request(PUCCH) 42 UE <--- SS UL Grant (DCI 0, PDCCH) 43 UE ---> SS RRC Security Mode Complete

44 UE ---> SS ACK (PHICH)

45 UE ---> SS RLC ACK

46 < Many other message can be

added here depending on NW > RRC Connection Reconfiguration

+ Attach Accept

+ Activate Default EPS Bearer Context Request 48 UE ---> SS ACK (PUCCH) 49 UE ---> SS Scheduling Request(PUCCH) 50 UE <--- SS UL Grant (DCI 0, PDCCH) 51 UE ---> SS RLC ACK RRC Connection Reconfiguration + Attach Complete + Activate Default EPS Bearer

Context Accept

55 < IP Data Traffic if needed > 58 UE <--- SS RRC Connection Release 59 UE < Now UE should be in IDLE mode

>

60 UE Decode MIB

61 UE Decode SIB1

63 UE

Decode or Doesn't Decode Other SIBs based on SystemInfoValueTag

on SIB1 64 UE <--- SS Paging 65 UE ---> SS PRACH 66 UE <--- SS RACH Response 67 UE ---> SS RRC Connection Request 68 UE <--- SS ACK (PHICH) 69 UE <--- SS Contention Resolution 70 UE <--- SS RRC Connection Setup 71 UE ---> SS ACK (PUCCH) 72 UE ---> SS Scheduling Request(PUCCH) 73 UE <--- SS UL Grant (DCI 0, PDCCH)

RRC Connection Setup Complete + Service Requeset 47 UE <--- SS

52 UE ---> SS

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75 UE <--- SS ACK(PHICH)

RRC Connection Reconfiguration + Activate Dedicated EPS Bearer

Context Request 78 UE ---> SS ACK (PUCCH) 79 UE ---> SS Scheduling Request(PUCCH) 80 UE <--- SS UL Grant (DCI 0, PDCCH) 81 UE ---> SS RLC ACK RRC Connection Reconfiguration + Activate Dedicated EPS Bearer

Context Accept

85 < IP Data Traffic if needed > 82 UE ---> SS

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Memo

3GPP 36.321 5.1.5 CR Timer value is set in

SIB2

SS must send CR before CRtimer get expired

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CFI is a indicator telling how many OFDM symbols are used for carrying PDCCH at each subframe. If CFI is set to be 1 for a

subframe, it means one symbol (the first symbol) at the subframe is used for PDCCH allocation. If CFI is 2, it means two symbols (the first and the second symbol) are used for PDCCH. If CFI is 3, you know the answer -:)

(I created following subframe structure using LTE Resource Grid and edited to fit the topics of this page)

This CFI is carried by a specific physical channel called PCFICH. PCFICH is carrying only CFI without any other information. You may ask "why do we need a special physical channel carrying only one number ?". It is because CFI is made up of 31 bits data even though the types of the bit pattern is only 4. The bit pattern and the CFI value mapping is as follows (3GPP 36.212 5.3.4 Control format indicator).

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Channel Bandwidth

No of

RBnAllocation Cycic prefix

No of Subcarrier in 1 RB (Time Domain)No of Symbols Allocation For 1 RB(Sub ame) MAX or Current Bit Efficeincy of Modulation(64Q am) DL Frame Transmisison Time(Ms)

MIMO Code Rate

1.4 7 15 12 14 6 1000 2 1 3 15 15 12 14 6 1000 2 1 5 25 15 12 14 6 1000 2 1 10 50 15 12 14 6 1000 2 1 15 75 15 12 14 6 1000 2 1 20 100 15 12 14 6 1000 2 1 DL Throughput

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Over head Calculation)((RS=16/168=>2/21))((P DCCH= occupie 8 subcarriersso 8/168=>1/21 DL Throughput (Mbps) PUCCH Occupies 4 RB in UL MAX or Current Bit Efficeincy of Modulation(16 Qam) UL

Pilot over Hed UL Throughput (Mbps) 0.857142857 11.8125 4 4 0.8571429 1.6875 0.857142857 25.3125 4 4 0.8571429 6.1875 0.857142857 42.1875 4 4 0.8571429 11.8125 0.857142857 84.375 4 4 0.8571429 25.875 0.857142857 126.5625 4 4 0.8571429 39.9375 0.857142857 168.75 4 4 0.8571429 54 DL Throughput UL Throughput

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Alias IMSI MCC MNC Meaning International Mobile

Sucriber Identity Mobile Country Code Mobile Network Code

Functionality

Uniquly Identification of Mobile LTE suscriber,Network MME

gets the PMLN of the Suscriber

assigned by ITU assigned by National Authority

Formula Bit Pattern

IMSI (not more than 15 digits) = PLMN ID + MSIN =

MCC + MNC + MSIN

3 digitsMobile 2~3 digitsMobile Example

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MSIN PMLN Id GUTI GUMMEI Mobile Subscriber

Identification Number

Public Land Mobile Network Identifier•

digitsGlobally Unique Temporary UE Identity

Globally Unique MME Identity

assigned by operator Unique identification of PLMN

To identify a UE between the UE and the MME on behalf of IMSI for security

reason

To identify a MME uniquely in global• GUTI

contains GUMMEI

operator9~10 digits

PLMNPLMN ID (not more than 6 digits) = MCC +

MNC

GUTI (not more than 80 bits) = GUMMEI + M-TMSI

GUMMEI (not more than 48 bits)= PLMN ID + MMEI

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M-TMSI TIN MMEI MMEGI MME Mobile Subscriber

Identity

Temporary Identity used in

Next Update MME Identifier MME Group Identifier

Unique within a MME

GUTI is stored in TIN parameter of UE’s MM

context. TIN indicates which temporary ID will be

used in the next update

To identify a MME uniquely within a PLMN• Operator commissions at

EnB

Unique within a PLMN

32 bitsGlobally updateTIN = GUTI MMEI (24 bits) = MMEGI +

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C-RNTI eNB S1AP UE ID MME S1AP UE ID IMEI Cell- Radio Network

Temporary Identifier eNB S1 Application Protocol UE ID MME S1 Application Protocol UE ID International Mobile Equipment Identity • To identify an UE uniquely in a cell • To uniquely identify UE on S1- MME Interface in eNB • To uniquely identify UE on S1- MME Interface in MME To identify a ME (Mobile Equipment) uniquely

0x0001 ~ 0xFFF3 (16 bits) 32-bit Integer (0 .. 232 - 1) 32-bit Integer (0 .. 232 - 1) IMEI (15 digits) = TAC + SNR + CD 35-209900-176148-1

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TAC SNR CD IMEI/SV Tracking Area Code Serial No Check Digit IMEI/Software Version To indicate eNB to which

Tracking Area the eNB belongs (per Cell ) • Unique within a PLMN

Serial Number is an individual serial number uniquely identifying each

equipment within each TAC and FAC

• To identify a ME (Mobile Equipment) uniquely

16 bit 6 Digits or 16 bit 0 IMEI/SV (16 digits) = TAC + SNR + SVN

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SVN

Software Version Number

The "software version number" identifying the revision of the software installed on the phone. 99 is reserved.

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/* Set Periodic Configuration Check Flag */ SET CFGCHK:ENABLEFLAG=DISABLE; /* Set Office Name */

SET OFFICENAME:SID=; /* Set Ping Filter Mode */

SET PINGFILTERMODE:MODE=WHITELIST; /* Modify eNodeB Configuration */

MOD ENODEB:ENODEBID=16072, NAME=LMUT6072, ENBTYPE=DBS3900_LTE, AUTOPOWEROFFSWITCH=Off, POWEROFFTIME=00:00:00, POWERONTIME=06:00:00, LONGITUDE=0, LATITUDE=0, LOCATION="", GCDF=DEG, PROTOCOL=CPRI; /* Set NE Equipment Configuration */

SET EQUIPMENT:DID=04325246-fde0-11e2-8000-fc48ef2375b0_HINCC, BATIMS=OFF, PAE=OFF; /* Set FTP Client Parameter */

SET FTPSCLT:ENCRYMODE=Auto, SPTSTATEFWL=Yes, SSLCERTAUTH=No; /* Add NTP Client */

ADD NTPC:IP=127.0.0.1, SYNCCYCLE=10, PORT=123, MODE=IPV4, AUTHMODE=PLAIN, KEY=, KEYID=4294967295; /* Set Time Zone and DST Parameter */

SET TZ:ZONET=GMT+0400, DST=NO; /* Set Time Source */

SET TIMESRC:TIMESRC=GPS; /* Modify GPS */

MOD GPS:GN=0, CN=0, SRN=0, SN=6, CABLETYPE=COAXIAL, CABLE_LEN=10, MODE=GPS, PRI=4; /* Set Reference Clock Working Mode */

SET CLKMODE:MODE=AUTO; /* Set SSL Authentication Mode */

SET SSLAUTHMODE:CONNTYPE=ALL, AUTHMODE=NONE; /* Modify Cabinet */

MOD CABINET:CN=0, TYPE=VIRTUAL, DESC=Virtual Cabinet; /* Modify Subrack */

MOD SUBRACK:CN=0, SRN=0, TYPE=BBU3900, DESC=2UBBUSUBRACK; /* Set PSU Intelligent Shutdown Switch */

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/* Set Energy Consumption Measurement Point */ SET ECMP:MP=DC;

/* Modify BBP */

MOD BBP:CN=0, SRN=0, SN=2, WM=TDD_ENHANCE; /* Add RRU Chain/Ring */

ADD RRUCHAIN:RCN=2, TT=CHAIN, BM=COLD, HCN=0, HSRN=0, HSN=2, HPN=2, AT=LOCALPORT, CR=AUTO; ADD RRUCHAIN:RCN=1, TT=CHAIN, BM=COLD, HCN=0, HSRN=0, HSN=2, HPN=1, AT=LOCALPORT, CR=AUTO; ADD RRUCHAIN:RCN=0, TT=CHAIN, BM=COLD, HCN=0, HSRN=0, HSN=2, HPN=0, AT=LOCALPORT, CR=AUTO; /* Set Environmental Signal Input Port */

SET ALMPORT:CN=0, SRN=0, SN=19, PN=0, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=1, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=2, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=3, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=4, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=5, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=6, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=0, SN=19, PN=7, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=61, SN=0, PN=0, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=61, SN=0, PN=1, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=60, SN=0, PN=1, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=60, SN=0, PN=0, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=60, SN=0, PN=3, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=60, SN=0, PN=2, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=61, SN=0, PN=2, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=61, SN=0, PN=3, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=62, SN=0, PN=0, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=62, SN=0, PN=1, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=62, SN=0, PN=2, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; SET ALMPORT:CN=0, SRN=62, SN=0, PN=3, SW=OFF, AID=65033, PT=BOOL, AVOL=LOW; /* Modify Antenna Port */

MOD ANTENNAPORT:CN=0, SRN=61, SN=0, PN=R0A, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=61, SN=0, PN=R0B, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=60, SN=0, PN=R0D, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=60, SN=0, PN=R0A, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=60, SN=0, PN=R0B, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=60, SN=0, PN=R0C, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=61, SN=0, PN=R0C, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=61, SN=0, PN=R0D, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=62, SN=0, PN=R0A, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=62, SN=0, PN=R0B, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=62, SN=0, PN=R0C, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD ANTENNAPORT:CN=0, SRN=62, SN=0, PN=R0D, FEEDERLENGTH=0, DLDELAY=0, DUDELAY=0, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155;

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/* Modify RET Port */

MOD RETPORT:CN=0, SRN=60, SN=0, PN=RET_PORT, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD RETPORT:CN=0, SRN=61, SN=0, PN=RET_PORT, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; MOD RETPORT:CN=0, SRN=62, SN=0, PN=RET_PORT, PWRSWITCH=OFF, THRESHOLDTYPE=UER_SELF_DEFINE, UOTHD=40, UCTHD=60, OOTHD=185, OCTHD=155; /* Modify TX Channel */

MOD TXBRANCH:CN=0, SRN=61, SN=0, TXNO=0, TXSW=ON; MOD TXBRANCH:CN=0, SRN=61, SN=0, TXNO=1, TXSW=ON; MOD TXBRANCH:CN=0, SRN=60, SN=0, TXNO=3, TXSW=ON; MOD TXBRANCH:CN=0, SRN=60, SN=0, TXNO=0, TXSW=ON; MOD TXBRANCH:CN=0, SRN=60, SN=0, TXNO=1, TXSW=ON; MOD TXBRANCH:CN=0, SRN=60, SN=0, TXNO=2, TXSW=ON; MOD TXBRANCH:CN=0, SRN=61, SN=0, TXNO=2, TXSW=ON; MOD TXBRANCH:CN=0, SRN=61, SN=0, TXNO=3, TXSW=ON; MOD TXBRANCH:CN=0, SRN=62, SN=0, TXNO=0, TXSW=ON; MOD TXBRANCH:CN=0, SRN=62, SN=0, TXNO=1, TXSW=ON; MOD TXBRANCH:CN=0, SRN=62, SN=0, TXNO=2, TXSW=ON; MOD TXBRANCH:CN=0, SRN=62, SN=0, TXNO=3, TXSW=ON; /* Modify RX Channel */

MOD RXBRANCH:CN=0, SRN=61, SN=0, RXNO=0, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=61, SN=0, RXNO=1, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=60, SN=0, RXNO=3, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=60, SN=0, RXNO=0, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=60, SN=0, RXNO=1, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=60, SN=0, RXNO=2, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=61, SN=0, RXNO=2, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=61, SN=0, RXNO=3, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=62, SN=0, RXNO=0, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=62, SN=0, RXNO=1, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=62, SN=0, RXNO=2, RXSW=ON, ATTEN=0; MOD RXBRANCH:CN=0, SRN=62, SN=0, RXNO=3, RXSW=ON, ATTEN=0; /* Add Ethernet Port */

ADD ETHPORT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, PN=0, PA=COPPER, MTU=1500, SPEED=AUTO, DUPLEX=AUTO, ARPPROXY=ENABLE, FC=OPEN, FERAT=10, FERDT=8; /* Add Device IP Address */

ADD DEVIP:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, PT=ETH, PN=0, IP=10.131.11.4, MASK=255.255.255.248; ADD DEVIP:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, PT=ETH, PN=0, IP=10.131.11.12, MASK=255.255.255.248; ADD DEVIP:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, PT=ETH, PN=0, IP=10.131.11.20, MASK=255.255.255.248; /* Modify IP Path */

MOD IPPATH:PATHID=0, CN=0, SRN=0, SN=6, PT=ETH, PN=0, PATHTYPE=ANY, LOCALIP=10.131.11.20, PEERIP=10.215.58.17, ANI=0, QT=HQ, APPTYPE=S1, PATHCHK=DISABLE, DESCRI=SGW_Nawras, SBT=BASE_BOARD, JNRSCGRP=DISABLE; MOD IPPATH:PATHID=1, CN=0, SRN=0, SN=6, PT=ETH, PN=0, PATHTYPE=ANY, LOCALIP=10.131.11.20, PEERIP=10.215.58.18, ANI=0, QT=HQ, APPTYPE=S1, PATHCHK=DISABLE, DESCRI=SGW_Nawras, SBT=BASE_BOARD, JNRSCGRP=DISABLE; /* Add IP Route */

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ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.62.17, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.9, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.62.18, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.9, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.58.17, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.17, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.58.18, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.17, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.56.18, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.17, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.15.141, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.1, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.60.17, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.9, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.60.18, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.9, PREF=60, DESCRI=; ADD IPRT:CN=0, SRN=0, SN=6, SBT=BASE_BOARD, RTTYPE=NEXTHOP, DSTIP=10.215.56.17, DSTMASK=255.255.255.255, NEXTHOP=10.131.11.17, PREF=60, DESCRI=; /* Set Local OM IP Address */

SET LOCALIP:IP=192.168.0.49, MASK=255.255.255.0; /* Modify OM Channel */

MOD OMCH:FLAG=MASTER, IP=10.131.11.4, MASK=255.255.255.248, PEERIP=10.215.15.140, PEERMASK=255.255.255.255, CN=0, SRN=0, SN=6, BEAR=IPV4, BRT=NO, SBT=BASE_BOARD; /* Add Mapping from Next Hop IP to VLAN */

ADD VLANMAP:NEXTHOPIP=10.131.11.1, MASK=255.255.255.248, VLANMODE=SINGLEVLAN, VLANID=1110, VLANPRIO=0, SETPRIO=ENABLE; ADD VLANMAP:NEXTHOPIP=10.131.11.9, MASK=255.255.255.248, VLANMODE=SINGLEVLAN, VLANID=1111, VLANPRIO=0, SETPRIO=ENABLE; ADD VLANMAP:NEXTHOPIP=10.131.11.17, MASK=255.255.255.248, VLANMODE=SINGLEVLAN, VLANID=1112, VLANPRIO=0, SETPRIO=ENABLE; /* Set Differentiated Service Priority */

SET DIFPRI:PRIRULE=DSCP, SIGPRI=48, OMHIGHPRI=46, OMLOWPRI=14, PTPPRI=46, DT1PRI=46, DT1TYPE=HQ, DT1PRIMTH=100, DT1PRIMTOSECRATIOTH=0, DT2PRI=26, DT2TYPE=HQ, DT2PRIMTH=100, DT2PRIMTOSECRATIOTH=0, DT3PRI=34, DT3TYPE=HQ, DT3PRIMTH=100, DT3PRIMTOSECRATIOTH=0, DT4PRI=26, DT4TYPE=HQ, DT4PRIMTH=100, DT4PRIMTOSECRATIOTH=0, DT5PRI=46, DT5TYPE=HQ, DT5PRIMTH=100, DT5PRIMTOSECRATIOTH=0, DT6PRI=18, DT6TYPE=LQ, DT6PRIMTH=30, DT6PRIMTOSECRATIOTH=100, DT7PRI=18, DT7TYPE=LQ, DT7PRIMTH=30, DT7PRIMTOSECRATIOTH=100, DT8PRI=10, DT8TYPE=LQ, DT8PRIMTH=30, DT8PRIMTOSECRATIOTH=100, DT9PRI=0, DT9TYPE=LQ, DT9PRIMTH=30, DT9PRIMTOSECRATIOTH=100; /* Set OM Channel Automatic Establishment Switch */

SET DHCPSW:SWITCH=ENABLE; /* Set Admission Control Algorithm */

SET TACALG:RSCGRPULCACSWITCH=ON, RSCGRPDLCACSWITCH=ON, USERDATATYPE1ACTFACTOR=100, USERDATATYPE2ACTFACTOR=100, USERDATATYPE3ACTFACTOR=100, USERDATATYPE4ACTFACTOR=100, USERDATATYPE5ACTFACTOR=0, USERDATATYPE6ACTFACTOR=0, USERDATATYPE7ACTFACTOR=0, USERDATATYPE8ACTFACTOR=0, USERDATATYPE9ACTFACTOR=0, TRMULHOCACTH=90, TRMDLHOCACTH=90, TRMULGOLDCACTH=85, TRMDLGOLDCACTH=85, TRMULSILVERCACTH=85, TRMDLSILVERCACTH=85, TRMULBRONZECACTH=85, TRMDLBRONZECACTH=85, TRMULGBRCACTH=100, TRMDLGBRCACTH=100, TRMULPRESW=OFF, TRMDLPRESW=OFF, PORTULOBSW=ON, PORTDLOBSW=ON, PORTULCACSW=OFF, PORTDLCACSW=OFF; /* Set Overload Control Algorithm */

SET TOLCALG:TRMULOLCSWITCH=ON, TRMDLOLCSWITCH=ON, TRMULOLCTRIGTH=95, TRMULOLCRELTH=90, TRMOLCRELBEARERNUM=5, TRMDLOLCTRIGTH=95, TRMDLOLCRELTH=90; /* Set E1/T1 BER Threshold */

SET E1T1BER:BTL=1E-5; /* Modify SCTP Link */

MOD SCTPLNK:SCTPNO=0, CN=0, SRN=0, SN=6, MAXSTREAM=17, LOCIP=10.131.11.12, SECLOCIP=0.0.0.0, LOCPORT=2910, PEERIP=10.215.62.17, SECPEERIP=10.215.62.18, PEERPORT=2910, RTOMIN=1000, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=5000, MAXASSOCRETR=10, MAXPATHRETR=5, CHKSUMTX=DISABLE, CHKSUMRX=DISABLE, CHKSUMTYPE=CRC32, AUTOSWITCH=ENABLE, SWITCHBACKHBNUM=10, TSACK=200, DESCRI=MME_Nawras; /* Set Basic IKE Configuration */

SET IKECFG:IKELNM=, IKEKLI=0, IKEKLT=0, DSCP=48; /* Set DHCP Relay Switch */

SET DHCPRELAYSWITCH:ES=DISABLE;

/* Set Mapping from Priority to Inner Queue */

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/* Set Transmission Link Fault Recover Switch */ SET TLFRSWITCH:TLFRSWITCH=ENABLE;

/* Set Transport Load Algorithm */

SET TLDRALG:TRMULLDRTRGTH=70, TRMDLLDRTRGTH=70, TRMULLDRCLRTH=65, TRMDLLDRCLRTH=65, TRMULMLDTRGTH=50, TRMDLMLDTRGTH=50, TRMULMLDCLRTH=45, TRMDLMLDCLRTH=45; /* Set Local OM IPv6 Address */

SET LOCALIP6:IP6=FE80::2315:E62F:526:4623, PFXLEN=64; /* Set Downlink Internal Flow Control Algorithm */

SET DLITFCALG:BCDLITFCSW=ON, PCDLITFCSW=ON; /* Set Base Station Global Transport Parameters */

SET GTRANSPARA:LPSCHSW=DISABLE, RATECFGTYPE=SINGLE_RATE, SBTIME=30, ARPAGINGTIME=20; /* Set PMTU Detection Configuration */

SET PMTUCFG:MODE=PASSIVE, UDPPORT=52889, DETECTPERIOD=5000, AGINGPERIOD=65535, DSCP=63; /* Set Policy Against IP Attack */

SET IPGUARD:ARPSPOOFCHKSW=DISABLE, ARPLRNSTRICTSW=DISABLE, INVALIDPKTCHKSW=DISABLE, IPSECREPLAYCHKSW=DISABLE; /* Set Certification Deploy Position */

SET CERTDEPLOY:DEPLOYTYPE=DEFAULT, CN=0, SRN=0, SN=0; /* Modify Sector */

MOD SECTOR:SECN=2, LONGITUDE=0, LATITUDE=0, ANTM=4T4R, SECM=NormalMIMO, COMBM=COMBTYPE_SINGLE_RRU, CN1=0, SRN1=62, SN1=0, PN1=R0A, CN2=0, SRN2=62, SN2=0, PN2=R0B, CN3=0, SRN3=62, SN3=0, PN3=R0C, CN4=0, SRN4=62, SN4=0, PN4=R0D, SECTORNAME=SECTOR_C, ALTITUDE=35, UNCERTSEMIMAJOR=3, UNCERTSEMIMINOR=3, ORIENTOFMAJORAXIS=0, UNCERTALTITUDE=3, CONFIDENCE=0, GCDF=DEG, OMNIFLAG=FALSE; MOD SECTOR:SECN=1, LONGITUDE=0, LATITUDE=0, ANTM=4T4R, SECM=NormalMIMO, COMBM=COMBTYPE_SINGLE_RRU, CN1=0, SRN1=61, SN1=0, PN1=R0A, CN2=0, SRN2=61, SN2=0, PN2=R0B, CN3=0, SRN3=61, SN3=0, PN3=R0C, CN4=0, SRN4=61, SN4=0, PN4=R0D, SECTORNAME=SECTOR_B, ALTITUDE=35, UNCERTSEMIMAJOR=3, UNCERTSEMIMINOR=3, ORIENTOFMAJORAXIS=0, UNCERTALTITUDE=3, CONFIDENCE=0, GCDF=DEG, OMNIFLAG=FALSE; MOD SECTOR:SECN=0, LONGITUDE=0, LATITUDE=0, ANTM=4T4R, SECM=NormalMIMO, COMBM=COMBTYPE_SINGLE_RRU, CN1=0, SRN1=60, SN1=0, PN1=R0A, CN2=0, SRN2=60, SN2=0, PN2=R0B, CN3=0, SRN3=60, SN3=0, PN3=R0C, CN4=0, SRN4=60, SN4=0, PN4=R0D, SECTORNAME=SECTOR_A, ALTITUDE=35, UNCERTSEMIMAJOR=3, UNCERTSEMIMINOR=3, ORIENTOFMAJORAXIS=0, UNCERTALTITUDE=3, CONFIDENCE=0, GCDF=DEG, OMNIFLAG=FALSE; /* Modify KPI Alarm */

MOD KPIALARM:KPITYPE=Transmission_Packet_Loss_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=10, RESTHRESHOLD=5, MINCHECKTIMES=360, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=Transmission_Delay, REPORTSWITCH=OFF, FLTTHRESHOLD=300, RESTHRESHOLD=200, MINCHECKTIMES=360, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1;

MOD KPIALARM:KPITYPE=Transmission_Jitter, REPORTSWITCH=OFF, FLTTHRESHOLD=100, RESTHRESHOLD=50, MINCHECKTIMES=360, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=Packet_Loss_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=5, RESTHRESHOLD=1, MINCHECKTIMES=360, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1;

MOD KPIALARM:KPITYPE=Cell_RRC_Connect_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=90, RESTHRESHOLD=95, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=Cell_ERAB_Setup_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=90, RESTHRESHOLD=95, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=Cell_Call_Drop_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=10, RESTHRESHOLD=5, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1;

MOD KPIALARM:KPITYPE=Intra-Frequency_HO_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=85, RESTHRESHOLD=90, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=Inter-Frequency_HO_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=85, RESTHRESHOLD=90, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=LTE-CDMA_Handover_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=80, RESTHRESHOLD=85, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=LTE-WCDMA_Handover_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=80, RESTHRESHOLD=85, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; MOD KPIALARM:KPITYPE=LTE-GERAN_Handover_Succ_Rate, REPORTSWITCH=OFF, FLTTHRESHOLD=80, RESTHRESHOLD=85, MINCHECKTIMES=100, DETECTPERIOD=60minutes, DETECTBEGINTIME=0, DETECTPERIODNUM=1; /* Modify Web LMT Login Policy */

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/* Modify GTP-U Configuration */

MOD GTPU:TIMEOUTTH=5000, TIMEOUTCNT=3, DSCP=63, STATICCHK=DISABLE; /* Add MME */

ADD MME:MMEID=0, FIRSTSIGIP=10.215.62.17, FIRSTIPSECFLAG=DISABLE, SECSIGIP=10.215.62.18, SECIPSECFLAG=DISABLE, LOCPORT=2910, DESCRIPTION=MME_Nawras, CNOPERATORID=0, MMERELEASE=Release_R8; /* Add S1 Service IP Address */

ADD S1SERVIP:CN=0, SRN=0, SN=6, S1SERVIPID=S1IP_1, S1SERVIP=10.131.11.20, IPSECFLAG=DISABLE, PATHCHK=DISABLE, CNOPERATORID=0; /* Add S1 Signaling IP Address */

ADD S1SIGIP:CN=0, SRN=0, SN=6, S1SIGIPID=S1IP_1, LOCIP=10.131.11.12, LOCIPSECFLAG=DISABLE, SECLOCIP=0.0.0.0, SECLOCIPSECFLAG=DISABLE, LOCPORT=2910, RTOMIN=1000, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=5000, MAXASSOCRETR=10, MAXPATHRETR=5, CHKSUMTX=DISABLE, CHKSUMRX=DISABLE, CHKSUMTYPE=CRC32, SWITCHBACKFLAG=ENABLE, SWITCHBACKHBNUM=10, TSACK=200, CNOPERATORID=0; /* Add Serving Gateway */

ADD SGW:SGWID=0, SERVIP1=10.215.58.17, SERVIP1IPSECFLAG=DISABLE, SERVIP2=10.215.58.18, SERVIP2IPSECFLAG=DISABLE, SERVIP3=0.0.0.0, SERVIP3IPSECFLAG=DISABLE, SERVIP4=0.0.0.0, SERVIP4IPSECFLAG=DISABLE, DESCRIPTION=SGW_Nawras, CNOPERATORID=0; /* Add X2 Service IP Address */

ADD X2SERVIP:CN=0, SRN=0, SN=6, X2SERVIPID=X2IP_1, X2SERVIP=10.131.11.20, IPSECFLAG=DISABLE, PATHCHK=DISABLE, CNOPERATORID=0; /* Add X2 Signaling IP Address */

ADD X2SIGIP:CN=0, SRN=0, SN=6, X2SIGIPID=X2IP_1, LOCIP=10.131.11.12, IPSECFLAG=DISABLE, SECLOCIP=0.0.0.0, SECIPSECFLAG=DISABLE, LOCPORT=36422, RTOMIN=1000, RTOMAX=3000, RTOINIT=1000, RTOALPHA=12, RTOBETA=25, HBINTER=5000, MAXASSOCRETR=10, MAXPATHRETR=5, CHKSUMTX=DISABLE, CHKSUMRX=DISABLE, CHKSUMTYPE=CRC32, SWITCHBACKFLAG=ENABLE, SWITCHBACKHBNUM=10, TSACK=200, CNOPERATORID=0; /* Modify Certificate Request Configuration */

MOD CERTREQ:COMMNAME=ESN, USERADDINFO=, COUNTRY=, ORG=, ORGUNIT=, STATEPROVINCENAME=, LOCALITY=, KEYUSAGE=DATA_ENCIPHERMENT-1&DIGITAL_SIGNATURE-1&KEY_AGREEMENT-1&KEY_ENCIPHERMENT-1, SIGNALG=SHA1, KEYSIZE=KEYSIZE2048, LOCALNAME=, LOCALIP=0.0.0.0; /* Add Device Certificate */

ADD CERTMK:APPCERT=appcert.pem; /* Modify Activated Device Certificate */

MOD APPCERT:APPTYPE=IKE, APPCERT=appcert.pem; MOD APPCERT:APPTYPE=SSL, APPCERT=appcert.pem; /* Add Trust Certificate */

ADD TRUSTCERT:CERTNAME=caroot.pem; /* Set Certificate Validity Check Task */

SET CERTCHKTSK:ISENABLE=ENABLE, PERIOD=7, ALMRNG=30, UPDATEMETHOD=PROXY; /* Set CRL Check Policy */

SET CRLPOLICY:CRLPOLICY=NOVERIFY; /* Modify BSR Parameter */

MOD TYPDRBBSR:Qci=QCI1, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI2, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI3, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI4, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI5, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI6, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320;

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MOD TYPDRBBSR:Qci=QCI7, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI8, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; MOD TYPDRBBSR:Qci=QCI9, TPerodicBSRTimer=TPeriodBSRTimer_sf10, RetxBsrTimer=sf320; /* Modify UE Timer Configuration */

MOD RRCCONNSTATETIMER:T302=4, T320ForLoadBalance=min10, T304ForEutran=ms500, T304ForGeran=ms8000, T320ForOther=min120, UeInactiveTimer=20, UlSynTimer=180; /* Modify eNodeB Timer Configuration */

MOD ENODEBCONNSTATETIMER:S1MessageWaitingTimer=20, X2MessageWaitingTimer=20, UuMessageWaitingTimer=35; /* Modify PUSCH Parameter */

MOD PUSCHPARAM:DeltaOffsetCqiIndex=12, DeltaOffsetRiIndex=5, DeltaOffsetAckIndex=9; /* Modify ROHC Configuration */

MOD PDCPROHCPARA:RohcSwitch=OFF, HighestMode=U_MODE, Profiles=Profile0x0001-1&Profile0x0002-1&Profile0x0003-1&Profile0x0004-1; /* Modify eNodeB Ciphering Algorithm Priority */

MOD ENODEBCIPHERCAP:PrimaryCipherAlgo=AES, SecondCipherAlgo=Snow3G, ThirdCipherAlgo=NULL; /* Modify eNodeB Integrity Protection Algorithm Priority */

MOD ENODEBINTEGRITYCAP:PrimaryIntegrityAlgo=AES, SecondIntegrityAlgo=Snow3G, ThirdIntegrityAlgo=NULL; /* Modify Counter Check Configuration */

MOD COUNTERCHECKPARA:CounterCheckTimer=0, CounterCheckCountNum=0, CounterCheckUserRelSwitch=OFF; /* Modify Global Procedure Switch Setting */

MOD GLOBALPROCSWITCH:X2SonSetupSwitch=ON, X2SonLinkSetupType=X2_OVER_M2000, SriAdaptiveSwitch=ON, LcgProfile=LCG_PROFILE_0, RncPoolHoRimSwitch=OFF, UuMsgSimulSendSwitch=ON, X2BasedUptENodeBCfgSwitch=OFF; /* Modify Cell */

MOD CELL:LocalCellId=2, CellName=MU6072C1, SectorId=2, CsgInd=BOOLEAN_FALSE, UlCyclicPrefix=NORMAL_CP, DlCyclicPrefix=NORMAL_CP, FreqBand=40, UlEarfcnCfgInd=NOT_CFG, DlEarfcn=39050, UlBandWidth=CELL_BW_N50, DlBandWidth=CELL_BW_N50, CellId=2, PhyCellId=3, AdditionalSpectrumEmission=1, FddTddInd=CELL_TDD, SubframeAssignment=SA2, SpecialSubframePatterns=SSP5, CellSpecificOffset=dB0, QoffsetFreq=dB0, RootSequenceIdx=0, HighSpeedFlag=LOW_SPEED, PreambleFmt=0, CellRadius=4000, CustomizedBandWidthCfgInd=NOT_CFG, EmergencyAreaIdCfgInd=NOT_CFG, UePowerMaxCfgInd=NOT_CFG, MultiRruCellFlag=BOOLEAN_FALSE, CPRICompression=NO_COMPRESSION; MOD CELL:LocalCellId=1, CellName=MU6072B1, SectorId=1, CsgInd=BOOLEAN_FALSE, UlCyclicPrefix=NORMAL_CP, DlCyclicPrefix=NORMAL_CP, FreqBand=40, UlEarfcnCfgInd=NOT_CFG, DlEarfcn=39050, UlBandWidth=CELL_BW_N50, DlBandWidth=CELL_BW_N50, CellId=1, PhyCellId=4, AdditionalSpectrumEmission=1, FddTddInd=CELL_TDD, SubframeAssignment=SA2, SpecialSubframePatterns=SSP5, CellSpecificOffset=dB0, QoffsetFreq=dB0, RootSequenceIdx=3, HighSpeedFlag=LOW_SPEED, PreambleFmt=0, CellRadius=4000, CustomizedBandWidthCfgInd=NOT_CFG, EmergencyAreaIdCfgInd=NOT_CFG, UePowerMaxCfgInd=NOT_CFG, MultiRruCellFlag=BOOLEAN_FALSE, CPRICompression=NO_COMPRESSION; MOD CELL:LocalCellId=0, CellName=MU6072A1, SectorId=0, CsgInd=BOOLEAN_FALSE, UlCyclicPrefix=NORMAL_CP, DlCyclicPrefix=NORMAL_CP, FreqBand=40, UlEarfcnCfgInd=NOT_CFG, DlEarfcn=39050, UlBandWidth=CELL_BW_N50, DlBandWidth=CELL_BW_N50, CellId=0, PhyCellId=5, AdditionalSpectrumEmission=1, FddTddInd=CELL_TDD, SubframeAssignment=SA2, SpecialSubframePatterns=SSP5, CellSpecificOffset=dB0, QoffsetFreq=dB0, RootSequenceIdx=6, HighSpeedFlag=LOW_SPEED, PreambleFmt=0, CellRadius=4000, CustomizedBandWidthCfgInd=NOT_CFG, EmergencyAreaIdCfgInd=NOT_CFG, UePowerMaxCfgInd=NOT_CFG, MultiRruCellFlag=BOOLEAN_FALSE, CPRICompression=NO_COMPRESSION; /* Modify Dedicated RRC Parameter for PUSCH Power Control */

MOD CELLULPCDEDIC:LocalCellId=2, DeltaMcsEnabled=UU_DISABLE, PSrsOffsetDeltaMcsDisable=-30, PSrsOffsetDeltaMcsEnable=-30, FilterRsrp=UU_FC6_FILTER_COEFF; MOD CELLULPCDEDIC:LocalCellId=1, DeltaMcsEnabled=UU_DISABLE, PSrsOffsetDeltaMcsDisable=-30, PSrsOffsetDeltaMcsEnable=-30, FilterRsrp=UU_FC6_FILTER_COEFF; MOD CELLULPCDEDIC:LocalCellId=0, DeltaMcsEnabled=UU_DISABLE, PSrsOffsetDeltaMcsDisable=-30, PSrsOffsetDeltaMcsEnable=-30, FilterRsrp=UU_FC6_FILTER_COEFF; /* Modify PA Configuration for PDSCH Power Control */

MOD CELLDLPCPDSCHPA:LocalCellId=2, PdschPaAdjSwitch=OFF, PaPcOff=DB_3_P_A; MOD CELLDLPCPDSCHPA:LocalCellId=1, PdschPaAdjSwitch=OFF, PaPcOff=DB_3_P_A; MOD CELLDLPCPDSCHPA:LocalCellId=0, PdschPaAdjSwitch=OFF, PaPcOff=DB_3_P_A; /* Modify Adaptive MIMO Configuration */

MOD MIMOADAPTIVEPARACFG:MimoAdaptiveSwitch=OL_ADAPTIVE; /* Modify Adaptive CQI Configuration */

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MOD CQIADAPTIVECFG:CqiPeriodAdaptive=ON; /* Modify Adaptive SRS Configuration */ MOD SRSADAPTIVECFG:SrsPeriodAdaptive=ON; /* Modify CN Operator */

MOD CNOPERATOR:CnOperatorId=0, CnOperatorName=Nawras, CnOperatorType=CNOPERATOR_PRIMARY, Mcc=422, Mnc=03; /* Modify S1 Interface Information */

MOD S1INTERFACE:S1InterfaceId=0, S1SctpLinkId=0, CnOperatorId=0, MmeRelease=Release_R8, S1InterfaceIsBlock=FALSE; /* Modify eNodeB Sharing Mode */

MOD ENODEBSHARINGMODE:ENodeBSharingMode=INDEPENDENT; /* Modify Tracking Area Configuration for CN Operator */

MOD CNOPERATORTA:TrackingAreaId=0, CnOperatorId=0, Tac=20; /* Modify S1 Reestablishment Timer Setting */

MOD S1REESTTIMER:S1ReestMinTimer=1, S1ReestMaxTimer=300; /* Mod EMC Configuration */

MOD EMC:CnOperatorId=0, EmcEnable=OFF; /* Modify Default Algorithm Parameter */

MOD ALGODEFAULTPARA:DefDopplerLevel=CLASS_1; /* Modify DRX Configuration */

MOD DRX:DrxAlgSwitch=OFF, ShortDrxSwitch=ON, LongDrxCycleSpecial=SF10, OnDurationTimerSpecial=PSF2, DrxInactivityTimerSpecial=PSF3, SupportShortDrxSpecial=UU_DISABLE, LongDrxCycleForAnr=SF320, LongDRXCycleforIRatAnr=SF1280; /* Modify Inter-RAT Handover Policy Group */

MOD INTERRATPOLICYCFGGROUP:InterRatPolicyCfgGroupId=0, UtranHoCfg=PS_HO-1&SRVCC-1&REDIRECTION-0, GeranGsmHoCfg=SRVCC-1, GeranGprsEdgeHoCfg=PS_HO-1&NACC_HO-0&CCO_HO-0&SRVCC-1&REDIRECTION-0, Cdma1xRttHoCfg=SRVCC-1, CdmaHrpdHoCfg=OPT_HO-1&NON_OPT_HO-1, NoHoFlag=PERMIT_HO_ENUM, NoFastAnrFlag=PERMIT_FAST_ANR_MEAS_ENUM; MOD INTERRATPOLICYCFGGROUP:InterRatPolicyCfgGroupId=1, UtranHoCfg=PS_HO-1&SRVCC-0&REDIRECTION-0, GeranGsmHoCfg=SRVCC-0, GeranGprsEdgeHoCfg=PS_HO-1&NACC_HO-0&CCO_HO-0&SRVCC-0&REDIRECTION-0, Cdma1xRttHoCfg=SRVCC-0, CdmaHrpdHoCfg=OPT_HO-1&NON_OPT_HO-1, NoHoFlag=PERMIT_HO_ENUM, NoFastAnrFlag=FORBID_FAST_ANR_MEAS_ENUM; MOD INTERRATPOLICYCFGGROUP:InterRatPolicyCfgGroupId=2, UtranHoCfg=PS_HO-1&SRVCC-1&REDIRECTION-1, GeranGsmHoCfg=SRVCC-1, GeranGprsEdgeHoCfg=PS_HO-1&NACC_HO-0&CCO_HO-1&SRVCC-0&REDIRECTION-1, Cdma1xRttHoCfg=SRVCC-1, CdmaHrpdHoCfg=OPT_HO-0&NON_OPT_HO-0, NoHoFlag=PERMIT_HO_ENUM, NoFastAnrFlag=FORBID_FAST_ANR_MEAS_ENUM; MOD INTERRATPOLICYCFGGROUP:InterRatPolicyCfgGroupId=3, UtranHoCfg=PS_HO-1&SRVCC-0&REDIRECTION-1, GeranGsmHoCfg=SRVCC-0, GeranGprsEdgeHoCfg=PS_HO-1&NACC_HO-0&CCO_HO-1&SRVCC-0&REDIRECTION-1, Cdma1xRttHoCfg=SRVCC-0, CdmaHrpdHoCfg=OPT_HO-1&NON_OPT_HO-1, NoHoFlag=PERMIT_HO_ENUM, NoFastAnrFlag=FORBID_FAST_ANR_MEAS_ENUM; /* Modify RLC and PDCP Parameter Group */

MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=0, DiscardTimer=DiscardTimer_100, RlcMode=RlcMode_UM, PdcpSnSize=PdcpSnsize_7bits, UlRlcSnSize=RlcSnSize_size5, DlRlcSnSize=RlcSnSize_size5, UeUmReorderingTimer=Treordering_m50, ENodeBUmReorderingTimer=Treordering_m40; MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=1, DiscardTimer=DiscardTimer_150, RlcMode=RlcMode_UM, PdcpSnSize=PdcpSnsize_12bits, UlRlcSnSize=RlcSnSize_size10, DlRlcSnSize=RlcSnSize_size10, UeUmReorderingTimer=Treordering_m50, ENodeBUmReorderingTimer=Treordering_m40; MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=2, DiscardTimer=DiscardTimer_50, RlcMode=RlcMode_UM, PdcpSnSize=PdcpSnsize_12bits, UlRlcSnSize=RlcSnSize_size10, DlRlcSnSize=RlcSnSize_size10, UeUmReorderingTimer=Treordering_m15, ENodeBUmReorderingTimer=Treordering_m10;

MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=3, DiscardTimer=DiscardTimer_300, RlcMode=RlcMode_AM, UeMaxRetxThreshold=Maxretx_Threshold_t32, ENodeBMaxRetxThreshold=Maxretx_Threshold_t32, UePollByte=PollByte_kb25, ENodeBPollByte=PollByte_kb25, UePollPdu=PollPdu_p32, ENodeBPollPdu=PollPdu_p32, UePollRetransmitTimer=Tpollretrans_m40, ENodeBPollRetransmitTimer=Tpollretrans_m50, UeStatusProhibitTimer=Tstatprohibit_m50, ENodeBStatusProhibitTimer=Tstatprohibit_m40, UeAmReorderingTimer=Treordering_m50, ENodeBAmReorderingTimer=Treordering_m40, PdcpStatusRptReq=TRUE;

MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=4, DiscardTimer=DiscardTimer_150, RlcMode=RlcMode_AM, UeMaxRetxThreshold=Maxretx_Threshold_t32, ENodeBMaxRetxThreshold=Maxretx_Threshold_t32, UePollByte=PollByte_infinity, ENodeBPollByte=PollByte_infinity, UePollPdu=PollPdu_Infinity, ENodeBPollPdu=PollPdu_Infinity, UePollRetransmitTimer=Tpollretrans_m40, ENodeBPollRetransmitTimer=Tpollretrans_m50, UeStatusProhibitTimer=Tstatprohibit_m0, ENodeBStatusProhibitTimer=Tstatprohibit_m0, UeAmReorderingTimer=Treordering_m50, ENodeBAmReorderingTimer=Treordering_m40, PdcpStatusRptReq=TRUE; MOD RLCPDCPPARAGROUP:RlcPdcpParaGroupId=5, DiscardTimer=DiscardTimer_Infinity, RlcMode=RlcMode_AM, UeMaxRetxThreshold=Maxretx_Threshold_t32, ENodeBMaxRetxThreshold=Maxretx_Threshold_t32, UePollByte=PollByte_kb25, ENodeBPollByte=PollByte_kb25, UePollPdu=PollPdu_p32, ENodeBPollPdu=PollPdu_p32, UePollRetransmitTimer=Tpollretrans_m40, ENodeBPollRetransmitTimer=Tpollretrans_m50, UeStatusProhibitTimer=Tstatprohibit_m50, ENodeBStatusProhibitTimer=Tstatprohibit_m40, UeAmReorderingTimer=Treordering_m50, ENodeBAmReorderingTimer=Treordering_m40, PdcpStatusRptReq=TRUE; /* Modify Configuration group of Service InterFreq Handover */

MOD SERVICEIFHOCFGGROUP:CnOperatorId=0, ServiceIfHoCfgGroupId=0, InterFreqHoState=NO_HO, DlEarfcn=0; /* Modify Service-based Inter-RAT Handover Policy Group */