The benefits of mesh technology continue to gain traction among IoT developers as end-users experience sizeable application performance gains from IoT devices tapping this type of wireless interconnection network.
In the new whitepaper, “Selecting the Appropriate Wireless Mesh Network Technology,” we give IoT developers much-needed advice into considerations required for selecting wireless mesh networks for IoT applications, such as lighting systems, retail beacon systems, or building or home automation.
Mesh networks use connected devices as nodes to extend connectivity, shortening proximity ranges for connectivity and allowing device-to-device communication often without the need of a cloud gateway. For instance, the connectivity range for lighting systems is extended every time a new light is introduced to the system, enabling any light switch action to stay within the mesh network instead of being transmitted over a cloud gateway. One of the main benefits of mesh networks is their ability to remove latency issues and speed device application performance.
The new whitepaper hits briefly on some of the applications benefiting from mesh networks, yet focuses mainly on explaining the nuances of integrating IoT devices into wireless mesh networks.
Interoperability with already deployed wireless protocols, such as Zigbee and Bluetooth, is discussed in length in the paper, along with best practices using the Thread mesh protocol. Different service providers have requirements for a specific protocol and/or multiple protocols; therefore, designers must be aware of these details when selecting the appropriate connectivity solution. Many existing devices use Zigbee, and for new devices based on a technology such as Bluetooth mesh, an interoperability strategy either through the end device or gateway supporting multiple protocols needs to be considered. Several other important interoperability insights are discussed in the paper, as well as the importance of ensuring the entire connectivity ecosystem is addressed and adaptation of IP at the gateway is successful, as needed.
Another valuable theme conveyed is the use of wireless standards and how to use the protocols depending on the type of device and application. Of the three standards discussed in the paper, the Thread mesh standard is the only protocol based on IPv6, providing several unique benefits, such as end-to-end routing and addressability on the same or across networks. Development tips are also discussed, such as the fact that Bluebooth low energy can be combined with Zigbee to simplify device setup via Bluetooth commissioning, using smart phones for Zigbee devices or to provide the Bluetooth connectivity needed to support Apple Homekit.
Silicon Labs has a multiprotocol software and hardware solution designed to solve many of the issues detailed in this article, which helps designers design a single product supporting multiple wireless connectivity protocols. This can be the same device capable of connectivity to multiple protocols in the field, or a device with the ability to be configured in the field or factory to one of a number of different wireless protocols.
As is often the case, one protocol may not be able to meet the needs of all products and markets, though this paper provides a fair amount of insight into which one to consider depending on the type of application the designer is tackling.