5 minute read
Who works in a smart building these days? When you think of 'Smart buildings', intelligent lighting, heating and cooling based on people in a space, fault detection and AI probably come to mind. Whilst these applications exist, on-boarding and integrating them is time consuming and costly - a smart building strategy does not easily 'scale' across a building portfolio, the time and costs to re-implement do not reduce with the number of buildings integrated across a portfolio. Each building requires its own consideration and bespoke strategy. Does it have to be this way?
2021 saw significant developments towards standardisation involving building data ontologies and digital metadata models in the 'smart building' sector.
Imagine being able to choose between advanced energy management algorithms, fault detection diagnostic dashboards, one-click energy auditing engines, sustainability benchmarks and KPIs without the significant on-boarding costs and disruption to existing systems and processes. A building and/or sustainability manager could choose to trial a digital application service like an online subscription service or phone application, compare the results and benefits in a test environment with limited risk and cost.
Sounds crazy? We believe this is the future of smart building management and it's not far off...
All building and financial data requires some manipulation of type, format and or/protocol involving edge-to-cloud processing to transform dato into a usable schema for use in applications, automation events and BI tools. The parameters that control the output functions, data manipulations, modeling scenarios, tolerances, set-points, dead-bands, even the program designs themselves can be determined and configured by you! Now that's smart!
Digital meta-data models have existed, albeit inconsistently in each company and vendor's mind. Herein lies the problem. Applications and services rely on a standard data structure to drive them. This makes the application scalable.
Imagine the IT sector without standards. A web browser relies on the fact that standards exist to ensure that the web browsing application will work with as many websites as possible. If Microsoft, Google, Apple etc. decided they would have their own standards for their own web browsers, it would mean that everyone would require multiple web browsers, and it would be a mystery as to which site would work with which browser. We see glimpses of this on occasion; Chrome works here, but Edge doesn't. Efforts are taken by all to minimise differences. This is a standards based approach.
Operational Technology (OT) in buildings has resisted standardisation efforts, and with some reason. Vendors of building subsystems (HVAC, lighting, access control etc) have developed domain specific ontologies and meta-data models over decades - since the digitisation of plant and equipment began.
Vendors have not had any real demand or use case to integrate/interoperate with other building systems due to IP protection and ongoing commercialisation and commodification. This is changing, and for various reasons:
Since 2017, CSIRO have lead international efforts to establish research aimed at standardising the approach to digital engineering under the COP21 Mission Innovation framework 'affordable heating and cooling challenge'. Buildings Evolved have been invited by the Australian Federal Government, on advice from CSIRO Energy, to participate in these forums.
The work is multifaceted. Key areas of research include:
Open data and data platforms
Control-oriented modeling framework
Case studies and business models
Standards are an interesting thing. The private sector will rush to market, standards or not, to grab market share. Fair call. But what if that vendor has painted themselves into a corner, figuratively speaking, and is, by extension, doing the same for your business? We see approaches by very large companies (in the 'IoT' space) that are/will be incompatible with the emerging standards. So what risk does this present to an emerging digital engineering project?
We see building meta-data models such as Haystack and Brick/Mortar dual it out. But what about RealEstateCore? Or VBIS? Or BOT? Or ASHRAE 231P? Why do these exist at all when the work to create international standards is still underway?
Which of these, or which elements of these, will come to the fore?
All good questions. We have insights, but the debate is still under way.
A good digital strategy considers the above, and plans for the future to mitigate risk and ensure outcomes are delivered. A good strategist is aware of the above in great detail and can provide the right guidance to navigate what is an emerging market.
Buildings Evolved have been helping individuals and organisations realise their technology vision with outcomes based strategies backed by sound benefit analysis and business case. Find out more by contacting Arne (details below) or downloading our digital engineering info sheet.
Many organisations will find that they can fund their entire data management programs, including staff salaries and technology costs, from the savings realised by consolidating data sources and decommissioning legacy systems.
Aside from active participation in research meetings with leading academics from around the world, we are contributing to the R&D efforts by on-boarding a diverse set of smart-building data into a data clearing house for smart buildings. Our work this year has looked at healthcare, education, local government & water authorities as well as our usual areas of focus: commercial, office and industrial.
We are doing more than simply engineering data into one spot (as challenging as that is); throughout 2021 we have also been developing software to assist with modeling and forecasting opportunities and what-if scenarios against real data sets.
We have been on a huge journey over the last few years, and the pandemic response has provided us with challenges. As they say, a crisis is an opportunity. One we have relished to improve our capability and service offering. Exciting things are coming in 2022!
Principal Consultant
Arne is a creator of strategies for technology and data in the built environment. Having worked with leading property trusts and government research institutions, Arne utilises his real-world experience of acquiring and processing data using agile development methodologies.