Changes

Wireless networks have become widely adopted in various industrial, agricultural, medical military and scientific areas, due to a widespread use of various remote sensors, monitoring and management devices as well as new, constantly emerging services. The necessity for wireless coverage has grown in both indoor and outdoor environments, as in many cases the 100 m connection limitation of ethernet cable is not sufficient to cover the required area. Wireless mesh networks basically work as a replacement of cables. The client station connects to the access point without any additional steps or requirements and  without knowing if the access point connects to the wired network directly or through a mesh cloud. Mesh functionality is carried out by access points, which support additional features, functions and frame formats in order to expand wireless coverage. All stations in a mesh might send, receive and forward traffic. Mesh networks allow to transfer messages between stations that are not in direct communication through other intermediate stations. This provides a layer of robustness as, in case of a device failure, traffic can be rerouted, so, generally, mesh networks have no single points of failure. They are also relatively easy to scale, as a new device can be easily added to the mesh and underlying algorithms automatically create new links and routes between devices. The example below shows how to configure Teltonika routers for wireless mesh network functionality.   

Wireless networks have become widely adopted in various industrial, agricultural, medical military and scientific areas, due to a widespread use of various remote sensors, monitoring and management devices as well as new, constantly emerging services. The necessity for wireless coverage has grown in both indoor and outdoor environments, as in many cases the 100 m connection limitation of ethernet cable is not sufficient to cover the required area. Wireless mesh networks basically work as a replacement of cables. The client station connects to the access point without any additional steps or requirements and  without knowing if the access point connects to the wired network directly or through a mesh cloud. Mesh functionality is carried out by access points, which support additional features, functions and frame formats in order to expand wireless coverage. All stations in a mesh might send, receive and forward traffic. Mesh networks allow to transfer messages between stations that are not in direct communication through other intermediate stations. This provides a layer of robustness as, in case of a device failure, traffic can be rerouted, so, generally, mesh networks have no single points of failure. They are also relatively easy to scale, as a new device can be easily added to the mesh and underlying algorithms automatically create new links and routes between devices. The example below shows how to configure Teltonika routers for wireless mesh network functionality.   

==Prerequisites==

==Prerequisites==

The configuration of wireless mesh with Teltonika devices is relatively simple and involves only a few steps repeated for multiple devices. The device count depends on the use case, however, the configuration provided can be easily scaled for many devices. For the following example, three RUTX11 routers will be used:

The configuration of wireless mesh with Teltonika devices is relatively simple and involves only a few steps repeated for multiple devices. The device count depends on the use case, however, the configuration provided can be easily scaled for many devices. For the following example, two RUTX11 and one RUT956 routers will be used:

<ol>

<ol>

     <li>One router has to be connected to the internet. It will act as a mesh gateway and DHCP server.</li>

     <li>One router has to be connected to the internet. It will act as a mesh gateway and DHCP server.</li>

     <li>Other routers will operate as mesh nodes.  </li>

     <li>Other routers will operate as mesh nodes.  </li>

</ol>

</ol>

==Topology==

==Topology==

==Configuration==

==Configuration==