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Proposal for Network Installation Hotusa Hotel

1. Network Architecture Overview



5. Drawings / FlowChart


Network Flowchart Diagram
Access Points, CCTV and Data Floor 9 

Access Points, CCTV and Data Floor 8

Access Points, CCTV and Data Floor 7

Access Points, CCTV and Data Floor 6

Access Points, CCTV and Data Floor 5

Access Points, CCTV and Data Floor 4

Access Points, CCTV and Data Floor 0

Hotspot Chart Floor 0




1. GPON Network Architecture Overview

This network design leverages Televes & Huawei’s GPON solution with the following components:


  • FortiGate-70F Firewall
  • Televes OLT512EVO module GPON
  • Optical 1:64 Splitter
  • AirEngine5773-21 WAP
  • ONU 3 PoE+ 50W 4xGbE+2xFXS+RF (no integrated ap) 


2. Hardware Specifications
2.1 OLT – Televes OLT512EVO module GPON - Productsheet - Quick guide - License Agreement


  • PON Ports: 8xPON + 4xGbE ports + 4x10GbE/GbE (SFP+) + 2xGbE (administration ports) 
  • User Capacity: Up to 512 users
  • Installation Site: Central technical room (MDF)
  • Uplink: 10GE to core network (switch or router)

2.2 ODN Splitters – SPL1202 (Rack-Mounted)

  • Splitter Ratio: 1:64 (used as 1:38 for signal margin and future scalability)
  • Location: One racks per 5 floors in a designated telecom room
  • Fiber Distribution: 1 incoming fiber from OLT; 38 / 39 outgoing fibers to rooms

2.3 ONT – ONU 3 PoE+ 50W 4xGbE+2xFXS+RF - Datasheet  - Technical specs

  • Interfaces: E4x TH 10/100/1000BASE-T Ports + 2x FXS  Ports + 1x USB
  • Location: One unit in each hotel room
  • AccesPoints: One per 2 units in hotel room
  • Connected Services:
    • VOIP (via POTS ports or LAN)
    • IPTV (via LAN / multicast)


3. Network Topology

System Infrastructure:


  • OLT installed in the main distribution frame (MDF)
  • 8 PON ports, each linked to a splitter serving up to 5 floors
  • Uplink connection to core network/router via 10G

Floor Distribution (per 5 floors):

  • 1 x Optical splitter
    • (Rack-mounted Splitter) 


  • ONT 3 POE installed in each room to serve all required services
  • Acces Points installed 1 per 2 rooms 

4. Redundancy and Capacity Planning


  • Split ratio kept at 1:38 / 39 to ensure:
    • Improved optical signal margin
    • Better QoS for VoIP and IPTV
    • Future upgrade potential


5. Drawings / FlowChart


GPON Flowchart Diagram

Access Points and Data Floor 8

Hotspot Chart Rooms

Access Points and Data Floor 7

Access Points and Data Floor 6

Access Points and Data Floor 5

Access Points and Data Floor 4


Phase 1 – Planning & Preparation:



Phase 2 – Installation:


  • Mount OLT in MDF
  • Lay fiber to each splitter rack (per 8 floors)
  • Install splitters and run fibers to rooms
  • Install ONTs in guest rooms
  • Install Access Points 
  • Install hardware Access Points controller


Phase 3 – Configuration:


  • Configure VLANs for Internet, IPTV, and VOIP
  • Provision ONTs (manually or via ACS/iManager)
  • Enable QoS, multicast, and NAT as needed
  • Configure hardware Access Points controller


Phase 4 – Testing & Handover:


  • Optical signal testing per ONT
  • Functional testing for all services
  • Documentation and network diagram delivery
  • Access to modems, routers and switches




 

1. GPON Network Architecture Overview

This network design leverages Televes & Huawei’s GPON solution with the following components:


  • FortiGate-70F Firewall
  • Televes OLT512EVO module GPON
  • Optical 1:64 Splitter
  • AirEngine5773-21 WAP
  • ONU 3 PoE+ 50W 4xGbE+2xFXS+RF (no integrated ap) 


2. Hardware Specifications
2.1 OLT – Televes OLT512EVO module GPON - Productsheet - Quick guide - License Agreement


  • PON Ports: 8xPON + 4xGbE ports + 4x10GbE/GbE (SFP+) + 2xGbE (administration ports) 
  • User Capacity: Up to 512 users
  • Installation Site: Central technical room (MDF)
  • Uplink: 10GE to core network (switch or router)

2.2 ODN Splitters – SPL1202 (Rack-Mounted)

  • Splitter Ratio: 1:64 (used as 1:38 for signal margin and future scalability)
  • Location: One racks per 5 floors in a designated telecom room
  • Fiber Distribution: 1 incoming fiber from OLT; 38 / 39 outgoing fibers to rooms

2.3 ONT – ONU 3 PoE+ 50W 4xGbE+2xFXS+RF - Datasheet  - Technical specs

  • Interfaces: E4x TH 10/100/1000BASE-T Ports + 2x FXS  Ports + 1x USB
  • Location: One unit in each hotel room
  • AccesPoints: One per 2 units in hotel room
  • Connected Services:
    • VOIP (via POTS ports or LAN)
    • IPTV (via LAN / multicast)


3. Network Topology

System Infrastructure:


  • OLT installed in the main distribution frame (MDF)
  • 8 PON ports, each linked to a splitter serving up to 5 floors
  • Uplink connection to core network/router via 10G

Floor Distribution (per 5 floors):

  • 1 x Optical splitter
    • (Rack-mounted Splitter) 


  • ONT 3 POE installed in each room to serve all required services
  • Acces Points installed 1 per 2 rooms 

4. Redundancy and Capacity Planning


  • Split ratio kept at 1:38 / 39 to ensure:
    • Improved optical signal margin
    • Better QoS for VoIP and IPTV
    • Future upgrade potential


5. Drawings / FlowChart


GPON Flowchart Diagram

Access Points and Data Floor 8

Hotspot Chart Rooms

Access Points and Data Floor 7

Access Points and Data Floor 6

Access Points and Data Floor 5

Access Points and Data Floor 4

Access Points and Data Floor 3

Phase 1 – Planning & Preparation:



Phase 2 – Installation:


  • Mount OLT in MDF
  • Lay fiber to each splitter rack (per 8 floors)
  • Install splitters and run fibers to rooms
  • Install ONTs in guest rooms
  • Install Access Points 
  • Install hardware Access Points controller


Phase 3 – Configuration:


  • Configure VLANs for Internet, IPTV, and VOIP
  • Provision ONTs (manually or via ACS/iManager)
  • Enable QoS, multicast, and NAT as needed
  • Configure hardware Access Points controller


Phase 4 – Testing & Handover:


  • Optical signal testing per ONT
  • Functional testing for all services
  • Documentation and network diagram delivery
  • Access to modems, routers and switches