Telecom fiber-optic-cabling-database-model-FTTX
36
[email protected] Telecom Fiber Optic Cable Network Relational Database Management System - RDBMS 1 Engineers make the world
-
Upload
karthik-govin -
Category
Technology
-
view
2.194 -
download
11
description
With the massive fiber optic cable network implementation, where the number of fibers on ground is exponentially high due to Fiber To The Home, Fiber To The Building, Fiber To The Curb and in short FTTX, the database system is getting more complex. The current database and software tools are not tailored made for huge telecom data handling. Hence we have formulated a Relational Database Management System – RDMS in which the data structure in directly mapped to the telecom project activities like Planning, Survey, Design, Implementation, Testing, Commissioning, Operation and Maintenance. Detailed activities like civil structure construction, cable laying, splicing, termination, patching, E2E service provisioning can also be included. We have taken extreme care to give proper interface between database tables in the same way, how these entities are interfaced in the physical word. Hence the organic creation of telecom database model from zero helps in making the complete system more robust, scalable, reliable, error resist and easy for any level of customization. Fiber optic communication is the basic for all telecom and internet revolution that we are enjoying now. So we started our database model from fiber optic cable network. This is just a starting; we can integrate other network elements for GSM, FTTX, FTTV, Data Center, and Trans-Oceanic Cable networks.
Transcript of Telecom fiber-optic-cabling-database-model-FTTX
Telecom Fiber Optic Cable Network
Relational Database Management System -
RDBMS
1
Engineers make the world
Let us learn how to build the database for this FOC network
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
6. Patching
(1)
(1)
(2)
(4,5)
(3)
(6,7)
(1)
3
1. Points
2. Route, Civil Duct
3. Link, Passive Cable
7. E2E Circuit
4. Elements
5. Splicing
6. Patching
Points are the places in the map where there is interaction between human and the telecom network infra-structure.
This is the Civil span between any small intersection like manhole to manhole (civil duct system), rack to rack (cable tray system). Simply protected path way between two Elements for installing the fiber optic cable.
The single un-cut passive cable connection from any place to any place. The cable will take the defined route by (2. Route, Civil Duct) database.
Elements are the main interface units for human during and after the project is implemented. Elements (ODF) take effective part in the Operation and maintenance. This module is just addition of elements in the database.
Jointing of cable to anther cable in a manhole and terminating a cable in the ODF required splicing. Here we will take the database from (4. Elements) and make the combined database in splicing module.
Splicing and patching define the same function except the method of procedure and the work place. Patching is simple inserting a patch cord from one port in ODF to the other port in the ODF.
E2E circuit is the final communication link implemented and we are creating database (RDBMS) for every single connection from Point-A to point-B by having complete trace of all the other database table discussed so far.
Telecom Network Database architecture - Tables
4
1. Points Fixing the points where there is the telecom network elements and equipment like central office, manholes, joint closures, distribution box, ODF, FTB, CPE and so on.
Points.
1. AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG
KKW
BRN STG
5
Next to points (dots) , here comes the civil duct route (connecting dots) between different points.
Points.
1.
2. Route, Civil Duct
Route, Civil duct
2.
Now we have to lay the cable from Point-A to Point B at different location. UN-CUT fiber cable from any place to any place tracing the in-between points.
1. Points
2. Duct
I
3. Link, Passive Cable
3. Cable
288F
144F
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
ZAG
PRG
KKW
BRN STG
Here we are inserting the telecom network elements like ODF, Splice Closure.
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
4. Elements
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
ZAG
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
Here comes the splicing in closure for jointing the fiber and in ODF for terminating the fiber cable.
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
5. Splicing
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
(1)
(2)
(4,5)
(3)
(6,7)
Here we are inserting a patch cord in the network for connection from one ODF port to other.
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
6. Patching
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
6. Patching
(1)
(1)
(2)
(4,5)
(3)
(6,7)
(1)
After the above process, we are making the end to end circuit for any telecom application.
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
6. Patching
(1)
(1)
(2)
(4,5)
(3)
(6,7)
(1)
7. E2E Circuit
7. E2E Circuit
1. Points Fixing the points where there is the telecom network elements and equipment like central office, manholes, joint closures, distribution box, ODF, FTB, CPE and so on.
Points.
1. AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG
KKW
BRN STG
Site ID Country Node
S001 Netherlands Amsterdam
S002 Netherlands Antwerp
S003 Luxemburg Luxemburg
S004 France Paris
S005 France Orleans
S006 France Lyon
S007 Switzerland Geneva
S008 Switzerland Zurich
S009 Germany Frankfurt
S010 Germany Stuttgart
S011 Germany Munich
S012 Germany Berlin
S013 Italy Milan
S014 Italy Venice
S015 Italy Florence
S016 Austria Linz
S017 Austria Graz
S018 Czech Prague
S019 Czech Brno
S020 Slovakia Timava
S021 Hungary Budapest
S022 Poland Lodz
S023 Poland Krakow
S024 Serbia Belgrade
1. Points
At the end of activity 1) points the database of this type will be populated with all other associated parameters. Here all points are unique with ID and can be grouped with country which can be related to other grouping like Zone, Service type and so on.
15
Points.
1.
2. Route, Civil Duct
Route, Civil duct
2.
Next to points (dots), here comes the route (connecting dots) between different points.
2. Route, Civil Duct
At the end of activity 2) Route, Civil Duct you will be uploading all the SPAN between the given points. This data is used for making fiber connection from point-A to point-B with the available civil connection.
Duct_ID From To Kms Type Ways
D001 Amsterdam Antwerp 157.5 3X2 6
D002 Amsterdan Frankfurt 439.7 2X2 4
D003 Antwerp Luxemourg 231.1 1X1 1
D004 Antwerp Paris 344.2 1X2 2
D005 Belgrade Budapest 377.2 3X2 6
D006 Belgrade Graz 576.2 2X1 2
D007 Belgrade Zagreb 393.1 2X4 8
D008 Brno Krakow 335.5 4X2 8
D009 Brno Timava 616.2 1X1 1
D010 Budapest Timava 571.2 1X1 1
D011 Florence Venice 258.1 3X2 6
D012 Frankfurt Stuttgart 203.9 2X2 4
D013 Geneva Milan 318.1 2X2 4
D014 Graz Linz 220.9 1X2 2
D015 Krakow Brno 336.1 2X2 4
D016 Krakow Lodz 260.4 1X1 1
D017 Linz Prague 241.1 3X2 6
D018 Lodz Berlin 464.8 2X1 2
D019 Lyon Geneva 147.9 2X4 8
D020 Milan Florence 306.6 4X2 8
D021 Munich Prague 381.2 3X3 9
D022 Munich Stuttgart 219.4 1X1 1
D023 Munich Venice 542.8 1X1 1
D024 Orleans Lyon 448.3 1X1 1
D025 Paris Orleans 133.5 2X2 4
D026 Prague Krakow 537.4 2X3 6
18
1. Points
2. Duct
I
3. Link, Passive Cable
3. Cable
288F
144F
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
ZAG
PRG
KKW
BRN STG
Now we have to lay the cable from Point-A to Point B at different location. UN-CUT fiber cable from any place to any place tracing the in-between points.
3. Link, Passive Cable
21
Cable DUCT_ID From To Kms Type Ways Cable Lable
1 D002 Amsterdan Frankfurt 439.7 2X2 4 AMS-MUN-288F
1 D012 Frankfurt Stuttgart 203.9 2X2 4 AMS-MUN-288F
1 D022 Munich Stuttgart 219.4 1X1 1 AMS-MUN-288F
Cable DUCT_ID From To Kms Type Ways Cable Lable
2 D023 Munich Venice 542.8 1X1 1 MUN-VEN-144F
Sl.No. DUCT_ID From To Kms Type Ways Cable Lable
3 D021 Munich Prague 381.2 3X3 9 MUN-BRN-144F
3 D026 Prague Krakow 537.4 2X3 6 MUN-BRN-144F
Cable DUCT_ID From To Kms Type Ways Cable Lable
4 D015 Krakow Brno 336.1 2X2 4 MUN-BRN-144F
Cable From To Kms Cable Lable
1 Amsterdan Munich 863 AMS-MUN-288F
2 Munich Venice 542.8 MUN-VEN-144F
3 Munich Krakow 918.6 MUN-BRN-144F
4 Krakow Brno 336.1 MUN-BRN-144F
Cable_ID From To Cable Lable
CAB-1 Amsterdan Munich AMS-MUN-288F
CAB-3 Munich Krakow MUN-BRN-144F
CAB-4 Krakow Brno MUN-BRN-144F
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
4. Elements
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
ZAG
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
Here we are inserting the telecom network elements like ODF, Splice Closure.
23 23
4. Elements
24
1 1
4. Elements - Closure 4. Elements - ODF
E-ID E-Type E-Spec LOC
1 ODF 288F Amsterdan-CO
2 ODF 144F Brno-CO
3 ODF 144F Venice-CO
4 CLOSURE 288F Munich-MH
5 ODF 144F KraKow-CO
6 ODF 144F KraKow-CO
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
5. Splicing
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
(1)
(2)
(4,5)
(3)
(6,7)
Here comes the splicing in closure for jointing the fiber and in ODF for terminating the fiber cable.
26
5. Splicing
SPLICE-ID E-Type E-Spec LOC A-Side B-Side AT-EID
1 ODF 288F Amsterdan-CO Cable-1 EID-1 EID-1
2 ODF 144F Brno-CO Cable-4 EID-2 Eid-2
3 ODF 144F Venice-CO Cable-2 EID-3 EID-3
4 CLOSURE 288F Munich-MH Cable-1 Cable-3 Eid-4
5 CLOSURE 288F Munich-MH Cable-1 Cable-2 Eid-4
6 ODF 144F KarKow-CO Cable-3 EID-5 EID-5
7 ODF 144F KarKow-CO Cable-4 EID-6 EID-6
27
(1)
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
6. Patching
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
6. Patching
(1)
(1)
(2)
(4,5)
(3)
(6,7)
(1)
Here we are inserting a patch cord in the network for connection from one ODF port to other.
29
6. Patching
PATCH-ID LOC A-Side B-Side AT-SITE
1 KarKow-CO EID-5 EID-6 S023
30
PATCH-ID A-Side B-Side AT_Node_ID
1 EID-5 EID-6 KKW
(1)
1. Points
2. Duct
2
1
4 3
3. Cable
288F
144F
4. Elements Closure
4. Elements ODF
AMS
ANT
LUX
PRS
OLS
LYN
GNV
ZRH
FFT
MUN
VNC
MLN
FLR
AMS
PRG KKW
BRN STG
1
1
1
1
2
3
4
5 6
(1)
5. Splicing
6. Patching
(1)
(1)
(2)
(4,5)
(3)
(6,7)
(1)
7. E2E Circuit After the above process, we are making the end to end circuit for any telecom application.
32
7. E2E Circuit
7. E2E Circuit
Site ID-A Country-A Node-A Node-ID-A Site ID-B Country-B Node-B Node-ID-B
S001 Netherlands Amsterdam AMS S019 Czech Brno BRN
33
C-ID Node_ID-A Node_ID-B
C001 AMS BRN
4 3
AMS
FFT
MUN
PRG KKW
BRN STG
1
2
4
5 6
(1)
(2)
(4,5)
(6,7)
(1)
7. E2E Circuit After the above process, we are making the end to end circuit for any telecom application.
34
1 Node-ID
AMS
FFT
STG
MUN
PRG
BRN
KKW
Duct_ID From To
D002 Amsterdam Frankfurt
D012 Frankfurt Stuttgart
D015 Krakow Brno
D021 Munich Prague
D022 Munich Stuttgart
D026 Prague Krakow
1. Points
2. Duct
Cable Cable Label
1 AMS-MUN-288F
3 MUN-BRN-144F
4 MUN-BRN-144F
E-ID E-Type E-Spec LOC
1 ODF 288F Amsterdan-CO
2 ODF 144F Brno-CO
4 CLOSURE 288F Munich-MH
5 ODF 144F KraKow-CO
6 ODF 144F KraKow-CO
3. Cable
4. Elements
SPLICE-ID A-Side B-Side AT-EID
1 Cable-1 EID-1 EID-1
2 Cable-4 EID-2 Eid-2
4 Cable-1 Cable-3 Eid-4
5 Cable-1 Cable-2 Eid-4
6 Cable-3 EID-5 EID-5
7 Cable-4 EID-6 EID-6
5. Splicing
PATCH-ID A-Side B-Side AT-SITE
1 EID-5 EID-6 S023
6. Patching
C-ID Node_ID-A Node_ID-B
C001 AMS BRN
7. E2E Circuit
7. E2E Circuit
35
Site_ID Country Node Node_ID
S001 Netherlands Amsterdam AMS
S009 Germany Frankfurt FFT
S010 Germany Stuttgart STG
S011 Germany Munich MUN
S018 Czech Prague PRG
S019 Czech Brno BRN
S023 Poland Krakow KKW
Duct_ID Node_ID Node_ID Kms Type Ways
D002 AMS FFT 439.7 2X2 4
D012 FFT STG 203.9 2X2 4
D015 KKW BRN 336.1 2X2 4
D021 MUN PRG 381.2 3X3 9
D022 MUN STG 219.4 1X1 1
D026 PRG KKW 537.4 2X3 6
Cable_ID Duct_ID
CAB-1 D002
CAB-1 D012
CAB-4 D015
CAB-3 D021
CAB-1 D022
CAB-3 D026
E-ID E-Type E-Spec LOC
EID-1 ODF 288F Amsterdan-CO
EID-2 ODF 144F Brno-CO
EID-4 CLOSURE 288F Munich-MH
EID-5 ODF 144F KraKow-CO
EID-6 ODF 144F KraKow-CO
SPLICE-ID A-Side B-Side AT_Node_ID
1 CAB-1 EID-1 EID-1
2 CAB-4 EID-2 EID-2
4 CAB-1 CAB-3 EID-4
5 CAB-1 CAB-2 EID-4
6 CAB-3 EID-5 EID-5
7 CAB-4 EID-6 EID-6
PATCH-ID A-Side B-Side AT_Node_ID
1 EID-5 EID-6 KKW
C-ID Node_ID-A Node_ID-B
C001 AMS BRN
Cable_ID From To Cable Lable
CAB-1 Amsterdan Munich AMS-MUN-288F
CAB-3 Munich Krakow MUN-BRN-144F
CAB-4 Krakow Brno MUN-BRN-144F
1 2
3
1. Points 2. Duct 3. Cable
4. Elements
5. Splicing
6. Patching 7. E2E Circuit
4
5 6
