Internet of Things devices will outnumber users with laptops, tablets or smartphones by more than three times within four years, as the world becomes better connected.
By 2020, 21 billion IoT devices will be in use worldwide and of these, close to six per cent will be in use for industrial IoT applications.
Yet Gartner research indicates that IT organisations continue to have issues identifying these devices and characterising them as part of current network access policy.
Consequently, the research analyst firm believes infrastructure and operations (I&O) leaders must therefore update network access policy to seamlessly address the onslaught of IoT devices.
“Having embraced a bring-your-own-device strategy, organisations must now get employee devices on the enterprise network and start addressing the 21 billion IoT devices that we project will want access to the enterprise network,” Gartner research vice president, Tim Zimmermann, said.
“Whether a video surveillance camera for a parking lot, a motion detector in a conference room or the HVAC for the entire building, the ability to identify, secure and isolate all IoT devices - and in particular "headless" devices - is more difficult to manage and secure.
“Many IoT devices will use the established bandwidth of the enterprise network provided by the IT organisation (wireless 1.3 Gbps of 802.11ac Wave 1 or 1.7 Gbps of 802.11ac Wave 2).
“However, it is important that the IT organisation works directly with facilities management (FM) and business units (BUs) to identify all devices and projects connected to the enterprise infrastructure and attaching to the network.”
Once all of the devices attached to the network are identified, the IT organisation must create or modify the network access policy as part of an enterprise policy enforcement strategy.
As explained by Zimmermann, this should determine if and how these devices will be connected, as well as what role they will be assigned that will govern their access.
“In order to monitor access and priority of IoT devices, I&O leaders need to consider additional enterprise network best practices,” Zimmermann said.
“These can be defining a connectivity policy, as many IoT devices will be connected via Wi-Fi; performing spectrum planning - many IoT devices may be using 2.4GHz, but may not be using 802.11 protocols such as Bluetooth, ZigBee or Z-Wave, which may create interference; or considering packet sniffers to identify devices that may do something undesirable on the network.”
While more IoT devices are added to the enterprise network, I&O leaders will need to create virtual segments.
For Zimmermann, these will allow network architects to separate all IoT assets (such as LED lights or a video camera) from other network traffic, supporting each FM application or BU process from other enterprise applications and users.
“As the concept of virtual segments continues to mature, the capabilities will allow network architects to prioritise the traffic of differing virtual segments as compared with the rest of the traffic on the network,” he added.
“For example, security video traffic and normal enterprise application traffic may have a higher priority than LED lighting.”