Radwin Ltd. 5XACMD3CN 用户手册
FinM Deployment Guide
Release 4.2.46
2‐5
Track Side Core Router
Network Guidelines
2.6 Track Side Core Router
The track side network requires a core router that will act as the gateway between the Train‐
To‐Ground system and the client's core network. All traffic between any train's on‐board
devices and the client's core network must pass through this router. The track side core router
must have at least 2 interfaces (see diagram below in Section
To‐Ground system and the client's core network. All traffic between any train's on‐board
devices and the client's core network must pass through this router. The track side core router
must have at least 2 interfaces (see diagram below in Section
Interface 1: Connects to the client's core network. It will be on the same subnet as the
client's network and will be the gateway for all traffic from the client network
targeted at devices on board trains.
targeted at devices on board trains.
Interface 2: Used for the Train‐To‐Ground network. It will be on the same subnet as the on‐
board router interface 1 and will be the gateway for all traffic from the on‐
board routers on all the trains.
board routers on all the trains.
All traffic between any on‐board device and the trackside must pass through the on‐board
router.
router.
2.7 Basic IP Scheme and Data Flow Path
An example of the basic IP scheme is shown here.
The traffic flows between the track side core router and the on‐board router. All elements
between the routers (including switches and FiberinMotion radios) are pure L2 devices. They
have an IP address for management only, and are transparent to the data traffic.
between the routers (including switches and FiberinMotion radios) are pure L2 devices. They
have an IP address for management only, and are transparent to the data traffic.
Overall, at least 3 IP subnets are required:
•
Subnet A for the client core network.
•
Subnet B for the train to ground segment.
•
Subnet C for the on‐board network.
For Regualtor Approval Only