Creating a FTTH design for an area in Bangkok

This design was made for a selected area without any specific data provided.

Content:

  • Dataconversion
  • Input data
  • Network design

Steps:

1.Start a new drawing and insert all dxf files

2.Buildings, insert the Temp symbol=temporary endpoint with number

3.Poles, replace the point from the OpenStreetMap data with the actual Pole symbol

4.Creating the Main trails from Pole to Pole

5.Buildings, moving the building entry points to the front of the building, create customer symbols

6.Connect poles with customer symbols

7.Input creation for NetOptimus

8.NetOptimus on-line portal

9.Creating the design with NetOptimus

10.Export to GoogleEarth and Autocad Map 3D

  • Import of shp files
  • WGS 84 UTM zone 47N (epsg:32647)
  • Export per layer to dxf format
  • WGS 84 UTM zone 47N (epsg:32647)
  • Start a new drawing in Autocad
  • Building_WGS84.dxf
  • Pole_WGS84.dxf
  • RoadEdge_WGS84.dxf
  • Centerline_WGS84.dxf
  • Hydrology_WGS84.dxf
FTTH Bangkok buildings and roads – fiber optic network planning with ITSimplicity software
OpenStreetMap data

We automatically create the endpoints by using the building layer in Autocad Map 3D.

FTTH Bangkok buildings layer – geo-referenced fiber optic network design with ITSimplicity software
Buildings
FTTH Bangkok buildings with automatically created endpoints – fiber optic network design using ITSimplicity software
The endpoints are automatically created

We do the same for the pole positions.

FTTH Bangkok pole points from OpenStreetMap data – overhead fiber network planning with ITSimplicity software
FTTH Bangkok numbered pole symbols for the whole area – overhead fiber network design with ITSimplicity software
The pole symbols are automatically created (and labelled if available)
FTTH Bangkok automatically created numbered pole symbols zoom – overhead fiber design with ITSimplicity software
All pole symbols get an unique ID and quantity

We now focus on the creation of pole routes and moving the FTTH endpoints to the front of the houses in the direction of the nearest pole.

FTTH Bangkok poles and houses with numbered poles and home endpoints – overhead fiber planning with ITSimplicity software
The area with buildings, roads, endpoints and poles
FTTH-poles-routes
We connect the poles
FTTH-connections-to-front-of-building
We move the endpoints to the front of the buildings in the direction of the nearest pole
FTTH-connections-details
All endpoints have automatically moved to the front of the buildings

Next step is the automatic creations of drop lines from the endpoints to the nearest pole.

FTTH-connections-homes-poles
FTTH-connections-homes-poles-routes
All endpoints and poles are connected

We now export this to the NetOptimus portal and prepare it for the automatic network design.

FTTH-Netoptimus-portal
We upload the area data
FTTH-Netoptimus-level 1-2-3
We create the network with NetOptimus
NetOptimus-export
And export the results to GoogleEarth and Autocad Map 3D
FTTH-GoogleEarth-level-1-dp-locations
GoogleEarth Level 1 DP locations and drop cables
FTTH-GoogleEarth-level-2-cabinet-locations
GoogleEarth Level 2 Cabinet locations and distribution cables
FTTH-GoogleEarth-level-3-POP
GoogleEarth Level 3 POP location and feeder cables
FTTH-GoogleEarth-level-1-pole-homes
DP locations with drop cables
FTTH-streetview
Streetview at the DP 103 location

The design is automatically finished in Autocad Map 3D with layers, symbols, labelling and Bill of Quantity.

FTTH Bangkok AutoCAD Map 3D DPs and drop-cables – fiber optic distribution points and drop cable design with ITSimplicity software
FTTH design in Autocad Map 3D with poles, DPs, dropcables and endpoints
FTTH AutoCAD Map 3D design and roadmap – fiber optic network planning with ITSimplicity software
FTTH design in Autocad Map 3D with Geomap roads
FTTH AutoCAD Map 3D design with aerial photo – fiber optic network visualization using ITSimplicity software
FTTH design in Autocad Map 3D with Geomap aerial photo