Wireless networks are becoming more and more popular. With the popularity of wireless networks increasing, users also demand broader coverage from a wireless network, such as voice, video and data communication support. With the broader demands placed on wireless networks, more complex mechanisms are required for differentiated services.
One solution for meeting the broader demands of wireless networks resulted in an increased interest in mesh networking in the home. A typical audio/visual cluster in the home could include a collection of home entertainment appliances that need to connect with each other. Home entertainment appliances can include an instance in the living room, an HDTV, stereo speakers, possibly an amplifier, and a set top box for distribution. Another example is the PC cluster; such a cluster can consist of a PC with a DVD Jukebox, a tuner, a second DVD R/W, and a printer.
In metropolitan areas, the use of wireless access points is growing. Already the market is seeing the emergence of informal federation of access points to constitute larger coverage mesh networks. Each access point deployed can be considered a candidate node in proximity mesh networks, whether at the metropolitan scale or the scale of a homeowner's residence. These examples of mesh networking require reliable connectivity among the network nodes. Rather than the cumbersome wired connections, wireless connectivity with auto configuration results in a much better user experience and therefore an accelerated growth of a mesh networking footprint.
Wireless connectivity is an essential element to low cost, ease of use mesh networking. A promising wireless technology to enable the connectivity of these clusters is Wi-Fi. Wi-Fi is a technology that operates in the unlicensed part of the radio spectrum and is based on the existing IEEE 802.11 Standard. The cost of Wi-Fi devices is dropping to become a commodity element in consumer electronics devices as well as an integral part of personal computers.
There is a critical issue that must be solved for wireless mesh networking to be a viable scenario: how to grow a mesh network which inherently is an unmanaged network in the traditional sense. Mesh networks tend to be “best effort” deployment, therefore locating and connecting to other nodes within a certain proximity requires a special act on the part of the access point which constitutes a node in an existing mesh network.
A problem with mesh networks is that changes in local connectivity, even brief incidental changes, such as a dog walking in front of an access point, can result in disruptions in connectivity. If only a small number of nodes are present in the network, this disruption in connectivity can interrupt some nodes ability to reach the greater internet.