Network infrastructure, specifically cabling, is often not recognized publicly for its value. This is probably because great infrastructure is designed and installed so it is out of sight, out of mind and out of the way.
As demand for, and discussion around passive infrastructure grows; particularly for wireless infrastructure, it may be tempting to think that we in fact need less cabling. After all, the very definition of ‘wireless’ suggests less wire.
However this is misleading – there is still a lot of wire in wireless, and in fact as wireless networks transform to smaller and smaller cells to achieve the capacity and coverage users and devices require, there is a need to ‘wire more to wireless’. And as the Internet of Things (IoT) continues to expand, demand for such connections is only growing.
As we move into an increasingly wireless world, we are still in such a place that is highly dependent on a network infrastructure based on wires, albeit a large part of it being optical fiber. As such, all infrastructure considerations must begin with a structured approach to cabling.
Structured cabling is the accepted way of dealing with the proliferation of interlinked electronic devices. Because a single type of copper and/or optical fiber cable is able to meet a variety of communications needs, the wide adoption of structured cabling will continue as applications expand from voice, data and video to include building automation systems, security systems and other control networks.
Of course, different cabling types have restrictions on their applications and specific capabilities, meaning design teams must evaluate their infrastructure choices carefully, keeping building use and longevity in mind.
But, in line with the need to adapt to growing infrastructural demands, designers today are increasingly finding ways to achieve simpler, cheaper and neater architectural solutions to problems associated with accommodating networks.
For example, it’s unlikely that building developers today would dream of specifying a new office without adequate vertical ducts, generous floor-to-ceiling heights or access floors. Equally, it’s routine to see simpler design strategies for rehabilitating older buildings.
It is now far more common for clients, IT specialists, facilities managers, and all of the many and varied members of building design teams to “be on same page” during the design and building process – we are better prepared than ever to adapt to growing infrastructure demands.
The process of diffusing networks throughout organizations is not – nor ever will be – complete. Wherever, whenever and however connections arrive, there always will be challenges and change.
There is no doubt organizations are increasingly dependent on communication networks, therefore the relationship between networks and building design is simply far too important to the survival of many organizations ever to be forgotten or ignored.
To stay prepared and be able to align with change and demand, it’s important to invest in the right infrastructural training. Our Passive Infrastructure Specialist courses cover every aspect you need to know; from RF Wireless Infrastructure Fundamentals, to Fiber Optic Infrastructure, to Structured Cabling Design and more. You can take a look at the full course listing here.< Previous Next >