By Russell Kay
August 10, 2009 12:01 AM ET

Computerworld – In most modern networks, links and nodes are interconnected (both logically and physically) in either a star arrangement (with each node connected directly to a central switch, hub or server) or a bus configuration (with each node attached to a central line that is connected to a central switching component). Both of these configurations are well understood, inexpensive and generally reliable, but one broken link in either setup can isolate a node, cutting it off from the network.

A newer arrangement, mesh networking, connects each node to at least two other nodes (and potentially to each and every other network node, an arrangement referred to as “fully connected”). This involves more cabling (or more wireless devices) and greater overhead, but it allows the network to heal itself automatically when a break occurs, so there’s no interruption of service to any node.

Definition

A mesh network is a LAN (usually wireless) where each node is connected to many others, configured to allow connections to be rerouted around broken or blocked paths, with the signal hopping from node to node until it reaches its destination. Mesh networks are self-healing and very reliable.

The lack of a hub-and-spoke structure is what distinguishes a mesh network. Also, meshes don’t need designated routers; instead, nodes serve as routers for one another. Thus, data is passed from node to node in a process called hopping.

The first and best example of a mesh network is the Internet itself. Information travels across the Net by being forwarded automatically from one router to the next until it reaches its destination. The Internet is often depicted as a “cloud” because there are billions of potential paths a signal can take, and it’s impossible to predict in advance what that route will be.

Mesh Network Pros and Cons

Pros
  • They’re self-healing: If any node fails, another will take its place.
  • The network gets bigger and faster as more nodes are added.
  • They’re convenient in locations that don’t have Ethernet connections, such as outdoor concert venues, warehouses and transportation settings.
  • They’re useful where line-of-sight wireless signals are intermittently blocked.
  • LANs can run faster than other networks because local packets don’t need to run back to a central server.
Cons
  • They’re still in development.
  • New standards havenot yet been adopted.
  • Wireless links are inherently unreliable. Since this problem gets worse with each hop, the size of meshes is currently limited.
  • They’re not completely seamless. Moving nodes (e.g., those in vehicles) may not establish new connections easily. When a network’s topology changes, some transmission paths can be temporarily disrupted. Thus, voice and video don’t work as well on meshes.

Sources: HowStuffWorks.com and TechnologyReview.com

Wireless networking is an ideal vehicle for setting up a mesh network, because it can be done quickly and on an ad hoc basis. Wireless mesh nodes are small radio transmitters that function much like wireless routers, using existing Wi-Fi standards (802.11a, b and g) for communications.

Even in a wireless mesh network, you need a wired access point to reach the Internet. Getting that information back to the access point is called backhaul. Small wireless mesh networks handle backhaul without any special configuration. For larger mesh networks, however, such as those designed for cities or large enterprises, certain nodes must be dedicated as backhaul nodes. The other nodes send all outgoing information to a backhaul node, which sends it to the wired access point without extra hops.

Mesh in Action

In 2007, preparing for the annual Muslim pilgrimage to Mecca, Saudi Arabia’s Communications and Information Technology Commission asked Internet service provider Bayanat Al-Oula to create a temporary wireless network and provide the 2 million pilgrims with free Internet connectivity. They chose a network of about 70 meshed routers and rolled it out in less than 60 days.

Kay is a Computerworld contributing writer in Worcester, Mass. Contact him at russkay@charter.net.

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Sources: Computerworld.com. Available from: http://www.computerworld.com/s/article/341095/Mesh_Networks.

 

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