WiFi inches towards mesh standardization one step at a time


WiFi has been sweeping to power in the home, but still has one final hurdle to jump in order to oust wired options completely. It still cannot be relied on to deliver guaranteed whole home connectivity for premium video across a wide range of building types and sizes. It can provide that quality within rooms but, especially in large buildings or where walls are made of thick stone or contain a lot of metal, cannot span multiple rooms without wired assistance.

For this reason even those pay TV operators which are strong advocates of WiFi have to fall back on one of the wired options, such as Ethernet over twisted pair, powerline over electricity cables, or MoCA over coaxial cable.

Mesh WiFi has made huge inroads in both Europe and North America, two regions where
for different reasons it was initially held back. In North America this was because MoCA had a head start because so many buildings come ready cabled with coax, while in Europe there are a lot of buildings with thick walls and a lot of stone or brick that impede radio signal propagation between rooms.

The idea of mesh as a solution has roots in old telephony trunk networks and then IP infrastructures by connecting nodes to each other so that there are two or more paths between any node pair. In a wireless network this is accomplished through multiple
channels rather than wires, but the principle is the same. Given that mesh is essential for solving the WiFi QoS problem and is also complex to tune for optimal performance, capacity and resiliency, it has become a hotbed of competition and innovation drawing in at least 70 vendors, with leaders including Linksys, Netgear, Mojo Networks, Cisco, Meraki, HP’s Aruba, Zebra Technologies, Meru, Ruckus, Eero and Ubiquity, besides AirTies. Complementary technologies have also evolved to exploit features of WiFi, notably band steering to route traffic between the two current spectral bands, 2.4 GHz and 5 GHz, and client steering to connect clients to the optimum AP on the basis of signal strength and current traffic load.

Some vendors have also added high level management ca-pabilities that optimize mesh operation including client and band steering for the benefit of the whole wireless network rather than just individual devices. This also involves tackling the so called “bad apple” problem where say one legacy device not capable of operating at the same bit rate as newer devices hogs network access time at the expense of others.

Essentially mesh makes WiFi operate more like a fixed point to point network, providing a firmer foundation for end to end SLAs. But this proliferation of mesh vendors, while providing choice, is also a problem because none of the mesh technologies are interoperable.

It is true that most support the IEEE 802.11s standard for mesh, but this only covers link level communication within a point to point WiFi network so that different vendors’ devices can participate in a given mesh implementation. This has led to demand for higher level mesh standards and the next step is currently being plotted by several standards groups on the video side, such as CableLabs, as well as the WiFi Alliance.

This is leading towards a standard AP Coordination Protocol, which may end up being called Multipath AP and as so often happens has been knocking around at least a decade in academic circles but has only in the last couple of years been taken up urgently by the standards bodies. This attempts to standardize not so much the higher-level mesh management but client steering. It allows APs in a home network to share the relevant information to make intelligent steering decisions, alongside some other network maintenance tasks.

Even a common mesh standard would not on its own solve all WiFi’s problems, because it would still, as it stands, rely in many cases on consumers exercising due diligence in their deployment and network configuration. However this loophole has actually been closed for new builds at any rate by the WiFi Alliance’s certification program for new homes, unveiled in June 2017. Called WiFi Certified Home Design, this defines what the Alliance called enterprise grade standards for planning and installing WiFi net-works in new homes. This would lead to integrated WiFi networks configured to an industry-approved network installation plan based on exacting WiFi deployment guidelines.

Although this will naturally have to evolve as mesh standards are defined, it looks like answering the prayer of many operators which have been tearing their hair out over having to support ad hoc WiFi networks over which they have little control. With WiFi built into the fabric of the home to agreed configuration standards defining where APs are stationed for example, it becomes more like a wired extension of the operator’s broadband network.

This article is an abstract from the Wireless Watch service. Learn More. 

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Mr. Fellah, is a Senior Analyst and founder of Maravedis with 20-year experience in the wireless industry. He authored various landmark reports on Wi-Fi, LTE, 4G and technology trends in various industries including retail, restaurant and hospitality. He is regularly asked to speak at leading wireless and marketing events and to contribute to various influential portals and magazines such as RCR Wireless, 4G 360, Rethink Wireless, The Mobile Network, Telecom Reseller to name a few. He is a Certified Wireless Network Administrator (CWNA) and Certified Wireless Technology Specialist (CWTS).


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