LTE specifications support the use of multiple antennas at both transmitter (tx) and receiver (rx). MIMO (Multiple Input Multiple
Output) uses this antenna configuration.
LTE specifications support up to 4 antennas at the tx side and up to 4 antennas at the rx side (here referred to as 4x4 MIMO
configuration).
In the first release of LTE it is likely that the UE only has 1 tx antenna, even if it uses 2 rx antennas. This leads to that so called
Single User MIMO (SU-MIMO) will be supported only in DL (and maximum 2x2 configuration).
Ratificar convenio de colaboración entre la Secretaría de
Estado de Energía y la Empresa TRANSCOMAHUE S.A. en el marco del programa PERMER II.
Establece como autoridad de aplicación al EPRE, quien se encargará del control y cumplimiento del acuerdo.
LTE specifications support the use of multiple antennas at both transmitter (tx) and receiver (rx). MIMO (Multiple Input Multiple
Output) uses this antenna configuration.
LTE specifications support up to 4 antennas at the tx side and up to 4 antennas at the rx side (here referred to as 4x4 MIMO
configuration).
In the first release of LTE it is likely that the UE only has 1 tx antenna, even if it uses 2 rx antennas. This leads to that so called
Single User MIMO (SU-MIMO) will be supported only in DL (and maximum 2x2 configuration).
Ratificar convenio de colaboración entre la Secretaría de
Estado de Energía y la Empresa TRANSCOMAHUE S.A. en el marco del programa PERMER II.
Establece como autoridad de aplicación al EPRE, quien se encargará del control y cumplimiento del acuerdo.
RNASeqR: RNA-Seq workflow for case-control studyKuanHaoChao
This R package is designed for case-control RNA-Seq analysis (two-group). There are six steps: "RNASeqRParam S4 Object Creation", "Environment Setup", "Quality Assessment", "Reads Alignment & Quantification", "Gene-level Differential Analyses" and "Functional Analyses". Each step corresponds to a function in this package. After running functions in order, a basic RNASeq analysis would be done easily.
Describes Radar Tracking Loops in Range, Doppler and Angles.
For comments please contact me at solo.hermelin@gmail.com.
For more presentations on different subjects visit my website at http://solohermelin.com.
Optimizing Diesel Production Using Advanced Process Control and Dynamic Simul...Márcio Garcia
This paper describes the economical and operational benefits achieved with the
use of advanced process control techniques and dynamic simulation applied to a Naphtha Splitter Column. The project consists in optimizing the Diesel blending system of Henrique Lage Renery (REVAP) located in the state of S~ao Paulo, Brazil. The control strategy was designed to maximize production rate, respecting the operational constraints. The results include an increase in the Naphtha flow stream to the Diesel blending system and improvement of the operational stability, leading to valuable economic gains. The project is also a step forward in the use of Dynamic simulation for modelling and identication, where the simulation models have shown to be representative for the inferential variables integration, adding value to the final result.
Cataloge ge 3.control and_automation-27_vat300_e_c7_rev_cThuan Kieu
Cataloge ge 3.control and_automation-27_vat300_e_c7_rev_c
Catalog GE,
Catalog Thiết Bị Điện GE,
Catalog Điện Công Nghiệp GE,
http://dienhathe.com,
Xem thêm các sản phẩm khác của GE tại https://dienhathe.com
Để nhận báo giá sản phẩm GE vui lòng gọi: 0907.764.966
1. To Check Major alarm
Allip: acl=a2; This command shows mains power failure, tre faults,Outage e.t.c
To check critical alarm
Allip: acl=a1; this command shows low fuel, Common alarms, if is Gen set ON, AC
alarms, rectifier alarms e.t.c
To check Minor alarm
Allip: acl=a3;
RXMFP: MO=RXOCF-tgno; this shows battery backup also cf status
RXMOP: MOTY=RXOTG; this printout all sites corresponding their TG
RXCDP: MO=RXOTG-TGNO; shows status of site (if the site is up shows configured s
tatus and if the site is down shows blocked status)
To check the tg frequency type
- rxcdp:mo=rxotg-tgno.; tgno- transceiver group number
To check in which sector or channel group the tg is present
- rxmop:mo=rxotrx-17-2;
To print site name
- rxmop:mo=rxotg-tgno.;
To check frequency of the cell
- rlcfp:cell=cellno.;
To active unused cell
- rlstc:cell=cellno,chgr=0 or 1,state=halted;
- rlstc:cell=cellno,chgr=0 or 1,state=active;
To check for traffic in the sector
- rlcrp:cell=cellno.;
To change handover relations
- rlmfc:cell=cellno,mbcchno=mbcchno,listtype=listtype;
listtype can be active & idle
mbcchno=frequency number
- rlmfp:cell=cellno;
cell measurement frequencies
To load software remotely
- rxpli:mo=rxotg-tgno,uc;
2. To check if loading of s/w is over
- rxmsp:mo=rxocf-tgno;
To check cell ID of the cell
- rxtcp:mo=rxotg-tgno;
Cell printing
- rlcrp:cell=all;
Reseting the site
- rxbli:mo=rxocf-tgno,force;
- rxble:mo=rxocf-tgno;
To know the DIP no of the site
- rxapp:mo=rxotg-tgno;
- ntcop:snt=all; or ntcop=etm2-tgno;
To check if there is any signaling link down in the MSCs
- c7ltp:ls=all; If there is restoring then the signaling is not working
To check CGI if defined correctly
- mgcep:cell=cellID;
To change CGI
- 1. Halt cell rlstc:cell=cellID,chgr=0 or 1,state=halted;
- 2. rldec:cell=cellID,cgi=640-05-9-cellID;
- 3. Activate cell rlstc:cell=cellID,chgr=0 or 1,state=active;
To check E1 for sites in the BSC
- dtstp:dip=all;
To check which cell are in extended range
- rldep:cell=all,xrange;
To check which cells are set in OL/UL
- rldgp:cell=cellno;
- rlcfp:cell=cellno.;
To delete a sector
1st block the trx i.e. rxbli:mo=rxotrx-30-4,subord,force;
2nd put trx out of service i.e. rxese:mo=rxotrx-30-4,subord;
3rd rxmoe:mo=rxots-30-4-0&&-7;
rxmoe:mo=rxotx-30-4;
3. rxmoe:mo=rxorx-30-4;
rxmoe:mo=rxotrx-30-4;
4th rlstc:cell=cellno,state=halted,chgr=0 or 1;
rxtce:mo=rxotg-30,cell=cellno,chgr=0 or 1;
rlsle:cell=cellno,perm;
rldee:cell=cellno;
To check if the cell is active or halted
- rlstp:cell=cellno;
To get TG number
- rxtcp:moty=rxotg,cell=cellno;
To check the TS
- rxmsp:moty=rxots;
To check which faulty code comes from a faulty tre
- rxmfp:mo=rxotx-tgno-trxno;
To lock a sector
- rlstc:cell=cellno,state=halted;
To unlock a sector
- rlstc:cell=cellno,state=active;
Upgrading a sector
<rxtcp:MO=RXOTG-30;
RADIO X-CEIVER ADMINISTRATION
TG TO CHANNEL GROUP CONNECTION DATA
MO CELL CHGR
RXOTG-30 2684 0
2685 0
2686 0
END
<rlcfp:cell=2684;
CELL CONFIGURATION FREQUENCY DATA
CELL
2684
CHGR SCTYPE SDCCH SDCCHAC TN CBCH HSN HOP DCHNO
0 1 0 2 NO 39 OFF 665
END
<rxcdP:mo=rxotG-30;
4. RADIO X-CEIVER ADMINISTRATION
MANAGED OBJECT CONFIGURATION DATA
MO RESULT ARFCN MISMATCH
RXORX-30-0 CONFIG HOP NONE
RXORX-30-4 CONFIG HOP NONE
RXORX-30-8 CONFIG HOP NONE
MO RESULT ARFCN TXAD TN BPC CHCOMB OFFS XRA ICM
RXOTS-30-0-0 CONFIG 665 2 0 4500 BCCH 0 NO ON
RXOTS-30-0-1 CONFIG 665 2 2 4498 SDCCH8 0 NO ON
RXOTS-30-0-2 CONFIG 665 2 7 4482 TCH 0 NO ON
RXOTS-30-0-3 CONFIG 665 2 6 4470 TCH 0 NO ON
RXOTS-30-0-4 CONFIG 665 2 5 4467 TCH 0 NO ON
RXOTS-30-0-5 CONFIG 665 2 4 4465 TCH 0 NO ON
RXOTS-30-0-6 CONFIG 665 2 3 4463 TCH 0 NO ON
RXOTS-30-0-7 CONFIG 665 2 1 4462 TCH 0 NO ON
RXOTS-30-4-0 CONFIG 701 1 0 4505 BCCH 0 NO ON
RXOTS-30-4-1 CONFIG 701 1 2 4504 SDCCH8 0 NO ON
RXOTS-30-4-2 CONFIG 701 1 7 4491 TCH 0 NO ON
RXOTS-30-4-3 CONFIG 701 1 6 4489 TCH 0 NO ON
RXOTS-30-4-4 CONFIG 701 1 5 4488 TCH 0 NO ON
RXOTS-30-4-5 CONFIG 701 1 4 4484 TCH 0 NO ON
RXOTS-30-4-6 CONFIG 701 1 3 4480 TCH 0 NO ON
RXOTS-30-4-7 CONFIG 701 1 1 4469 TCH 0 NO ON
RXOTS-30-8-0 CONFIG 710 0 0 4493 BCCH 0 NO ON
RXOTS-30-8-1 CONFIG 710 0 2 4495 SDCCH8 0 NO ON
RXOTS-30-8-2 CONFIG 710 0 7 4497 TCH 0 NO ON
RXOTS-30-8-3 CONFIG 710 0 6 4486 TCH 0 NO ON
RXOTS-30-8-4 CONFIG 710 0 5 4481 TCH 0 NO ON
RXOTS-30-8-5 CONFIG 710 0 4 4468 TCH 0 NO ON
RXOTS-30-8-6 CONFIG 710 0 3 4466 TCH 0 NO ON
RXOTS-30-8-7 CONFIG 710 0 1 4464 TCH 0 NO ON
MO RESULT ARFCN TXAD BSPWR C0F MISMATCH
RXOTX-30-0 CONFIG 665 2 45 YES NONE
RXOTX-30-4 CONFIG 701 1 45 YES NONE
RXOTX-30-8 CONFIG 710 0 45 YES NONE
END
<rxaPP:mo=rxotG-30;
RADIO X-CEIVER ADMINISTRATION
ABIS PATH STATUS
MO
RXOTG-30
DEV DCP APUSAGE APSTATE 64K TEI
RBLT2-595 19 MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
RBLT2-596 20 UNDEF IDLE NO
RBLT2-597 21 CONC CF/TRXC SIGNAL NO 61 0 8
RBLT2-598 22 CONC TRXC SIGNAL NO 4
RBLT2-599 23 UNDEF IDLE NO
RBLT2-600 24 UNDEF IDLE NO
RBLT2-601 25 UNDEF IDLE NO
RBLT2-602 26 UNDEF IDLE NO
5. RBLT2-603 27 UNDEF IDLE NO
RBLT2-604 28 MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX32 IDLE NO
RBLT2-605 29 MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
RBLT2-606 30 MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
RBLT2-607 31 MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
MPLEX16 SPEECH/DATA NO
END
<rxmop:mo=rxoTrx-30-0;
RADIO X-CEIVER ADMINISTRATION
MANAGED OBJECT DATA
MO CELL CHGR TEI SIG DCP1
RXOTRX-30-0 2684 ALL 0 CONC 128
SWVERREPL SWVERDLD SWVERACT DCP2
DEFAULT B1922R002U B1922R002U 129
130
END
<RLCFI:CELL=2684,DCHNO=661;
RLCFI:CELL=2684,DCHNO=661;
<;
EXECUTED
<RXMOI:MO=RXOTRX-30-1, TEI=1, DCP1=131, DCP2=132&133,SIG=CONC;
RXMOI:MO=RXOTRX-30-1, TEI=1, DCP1=131, DCP2=132&133,SIG=CONC;
<;
EXECUTED
<RXMOC:MO=RXOTRX-30-1, CELL=2684;
RXMOC:MO=RXOTRX-30-1, CELL=2684;
<;
EXECUTED
<RXMOI:MO=RXOTX-30-1, BAND=GSM900, MPWR=47; ! for 1800 band MPWR=45
RXMOI:MO=RXOTX-30-1, BAND=GSM900, MPWR=47;
<;
EXECUTED
<RXMOC:MO=RXOTX-30-1, CELL=2684;
RXMOC:MO=RXOTX-30-1, CELL=2684;
<;
EXECUTED
<RXMOI:MO=RXORX-30-1, BAND=GSM900, RXD=AB;
RXMOI:MO=RXORX-30-1, BAND=GSM900, RXD=AB;
<;
6. EXECUTED
<RXMOI:MO=RXOTS-30-1-0&&-7;
RXMOI:MO=RXOTS-30-1-0&&-7;
<;
EXECUTED
<RXESI:MO=RXOTRX-30-1,SUBORD;
RXESI:MO=RXOTRX-30-1,SUBORD;
<;
RADIO X-CEIVER ADMINISTRATION
MANAGED OBJECT IN SERVICE COMMAND RESULT
MO RESULT
RXOTRX-30-1 ORDERED
RXORX-30-1 ORDERED
RXOTS-30-1-0 ORDERED
RXOTS-30-1-1 ORDERED
RXOTS-30-1-2 ORDERED
RXOTS-30-1-3 ORDERED
RXOTS-30-1-4 ORDERED
RXOTS-30-1-5 ORDERED
RXOTS-30-1-6 ORDERED
RXOTS-30-1-7 ORDERED
RXOTX-30-1 ORDERED
END
<RXBLE:MO=RXOTRX-30-1,SUBORD;
RXBLE:MO=RXOTRX-30-1,SUBORD;
<;
RADIO X-CEIVER ADMINISTRATION
MANUAL DEBLOCKING OF MANAGED OBJECT COMMAND RESULT
MO STATE RESULT
RXOTRX-30-1 NOOP EXECUTED
RXORX-30-1 PREOP ORDERED
RXOTS-30-1-0 PREOP ORDERED
RXOTS-30-1-1 PREOP ORDERED
RXOTS-30-1-2 PREOP ORDERED
RXOTS-30-1-3 PREOP ORDERED
RXOTS-30-1-4 PREOP ORDERED
RXOTS-30-1-5 PREOP ORDERED
RXOTS-30-1-6 PREOP ORDERED
RXOTS-30-1-7 PREOP ORDERED
RXOTX-30-1 PREOP ORDERED
END
Changing frequency of a TRX in cell
rlcfp:cell=3082; ! u get the existing frequency(ies) in cell 3082 !
suppose you want to remove freq= 109 and put 90 insted, you will
have to end that freq. eg. 109 !
rlstc:cell=3082,state=halted;
rlcfe:cell= cell=3082,dhno= 109;
7. rlcfi:cell=3082,dhno=90; ! adding freq. 90 in a mentioned cell!
rlstc=cell=3082,state=active; activate !! and check !!.
Cell Dynamic HR allocation Data
- rldhp:cell=cellno; This command will show the values of DTHAMR( Dynamic
Threshold Half rate Adaptive Multi Rate) and DTHANMR (Dynamic Threshold Half rat
e Non Adaptive Multi Rate)
Cell Adaptive Logical Channel configuration
- rlacp:cell=cellno; If ACSTATE= ON, then there is a dynamic SDCCH in the
cell
Cell General Packet Radio Service Data
-rlgsp:cell=cellno; This shows the value of FPDCH in the cell
To check neighbour relation of the cell
-rlnrp:cell=cellno; To print all neighbours of the cell
Cell Locating Hierarchical Data
-rllhp:cell=cellno; To get the Layer Threshold ( LAYERTHR) value OF A CELL
To Check Major alarm
Allip: acl=a2; This command shows mains power failure, tre faults,Outage e.t.c
To check critical alarm
Allip: acl=a1; this command shows low fuel, Common alarms, if is Gen set ON, AC
alarms, rectifier alarms e.t.c
To check Minor alarm
Allip: acl=a3;
RXMFP: MO=RXOCF-tgno; this shows battery backup also cf status
RXMOP: MOTY=RXOTG; this printout all sites corresponding their TG
RXCDP: MO=RXOTG-TGNO; shows status of site (if the site is up shows configured s
tatus and if the site is down shows blocked status)