Please contribute documentation!
- 1 The Bible
- 2 Popular Mesh Protocol Documentation
- 2.1 Distance-Vector Routing Protocols
- 2.2 Link-State Protocols
- 2.3 Comparisons of Protocols
- 3 Configuration Documentation
- 4 Development Blogs And Forums
- 5 Other Documentation
- 6 IRC Channels
- Wireless Networking in the Developing World ver. 2-- This is what you read before you read anything else. 400+ pages of high-level goodness.
Popular Mesh Protocol Documentation
It is best to understand technical mesh documentation by realizing that there are three layers to implementing a mesh build that can be installed on routers. The first layer of what is installed on any mesh router is the algorithm that is used to decide how traffic is routed to other nodes. The second layer is the Protocol where the algorithm is adjusted to suit the needs of the situation the routers will be in. These protocols make the core algorithm make sense in the world of Switched-Packet Routing that derives all "digital" information transfers (for example, VOIP, compared to regular telephone service which, in its basic form, is an analog signal). In the final layer, the protocol can be placed within a firmware. Therefore it is possible to use the OLSR protocol within the DD-WRT and OPEN-WRT firmwares.
There are two classes of routing protocols. Distance-Vector Routing Protocols (which use the Bellman-Ford, Ford-Fulkerson, or DUAL FSM algorithms) and Link-State Protocols (which use XXXX Algorithms.
- Distance Vector and Link State protocols. This video explains DVRPs an LSRPs along with how they prevent errors. Positively excellent.
Distance-Vector Routing Protocols
DVRPs are older protocols like RIP (Routing Information Protocol) that update routing tables of the hops it takes to reach a destination at regular intervals. They are not very scalable due to the way they send and receive updates about the topology of the network. In a DVRP network, no one router has a complete vision of the entire network because each router is only concerned with only the number of hops to a destination but not what routers it takes to get there. In other words, It is possible for a router to see a route to a destination that includes a hop through itself without realizing itself is included in the routing path. Because of this problem, DVRP's only allow 15 hops before traffic is marked as in an infinite loop and dropped. Large networks may legitimately require 16 or more hops and thus DVRP networks do not work well in large situations. Even if the hop limit was raised well beyond 15, the update intervals (usually 30 seconds) would eventually cause massive network overhead traffic and would cause bad routes that are physically disconnected for only a few moments to proliferate for a much longer time as updates would tell other routers in the network that the LAN is unreachable. With all this said, however, major improvements have been made to DVRPs in recent years. BABEL protocol is quickly becoming regarded as one of the most scalable and stable protocols in the mesh world.
Destination-Sequenced Distance Vector routing (DSDV)
- DSDV paper c. 1994DSDV is a table-driven routing scheme built specifically for ad hoc mobile networks.
Ad hoc On-Demand Vector routing (AODV)
- A non-mathematical video explanation of how Dijkstra's Algorithm works. Anyone can understand it.
- OLSR.org's set of official documentation-- A mandatory resource for network operators using OLSR as their favored protocol.
Comparisons of Protocols
- Performance comparison of reactive routing protocols-- Comparison of AODV protocols (the basis of mesh protocols)
- An Experimental Comparison of Routing Protocols in Multi Hop Ad Hoc Networks-- Comparison of OLSR, BATMAN, and Babel. An Excellent read.
- Quick Mesh... Coming some time
- Commotion Wireless... Coming some time
- How to configure DD-WRT(OLSR) to mesh-- Click "Save As" if you have trouble with the link.
- OpenWRT... Coming Some time
If you have any documentation you want to provide, please link it on this wiki or send it to [email protected] [dot] org.
Development Blogs And Forums
- Optimum Antenna Configuration For Maximizing Access Point Range of an IEEE 802.11 Wireless Mesh Network In Support of Multi-Mission Operations Relative to Hastily Formed Scalable Deployments-- A Thesis by Robert lee Lounsbury, Jr. of the Naval Postgraduate School. This document details the attempts to create an improvised mesh network in the harsh conditions of Thailand. In it you will find excellent information concerning real-world deployments of a 802.11a and 802.11g MANET.
- 3.65GHz Location Registration Process Guide An article on the Ubiquti wiki about the regulatory issues when using the licensed-lite 3.65 GHz band.
- Wi-viz Wireless node visualization For OpenWRT.