Next-gen healthy buildings must rely on IoT and cloud integration

Healthy buildings – the first thing that comes to mind is a comfortable, productivity-friendly building with HVAC equipment and reliable occupants. In the world of IT and climate sustainability, however, healthy buildings expand that definition. A building’s ability to generate, distribute and monitor its energy consumption combines its ability to leverage smart technology for real-time adjustments in the building, keeping it sustainably productive in the short and long term.

As organizations seek to commit to larger decarbonization goals and align with both new industry standards and recent government legislation (the Cut Inflation Act, for example), the answer to achieving these goals lies in the computing of the architecture in question. The next era of healthy buildings highlights the importance of IoT devices to collect all kinds of information in the building, as well as cloud-based software that helps drive a quality building management system (BMS) for the best analytics and infrastructure adjustments. .

Computing in buildings — More than just technology support

IT in healthy buildings is a key driver of building functionality, compatibility with other systems, and data used for real-time architectural analysis of energy efficiency and expenditure.

In order to support the building infrastructure, IoT devices using sensitive data collection instruments such as room sensors, occupancy monitors, air quality sensors and thermostats are essential to the building health management and monitoring. IoT technology has made it possible to capture and create real, machine-understandable environmental data for use and interpretation.

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These smart, connected devices feed information to cloud-based SaaS applications connected to the BMS and can either be used to update conditions in the building by a facility manager or be reconfigured in real time by advanced AI. Automatic updates are particularly useful when predictable energy-saving changes can be made without manual intervention, such as when lighting and HVAC power consumption can be reduced in an unoccupied conference room.

Various building certifications are also very helpful in maximizing the scope, scalability, and performance of your IT system in your building. The WELL Building Standard, for example, “is a performance-based system for measuring, certifying and monitoring characteristics of the built environment that impact human health and well-being, through air, l ‘water, food, light, fitness, comfort and spirit’. .” This certification can help facility managers understand from a third-party perspective the effectiveness of their equipment’s functionality that monitors the condition of buildings and can provide insight into the need for an upgrade or upgrade. a change.

How healthy buildings are managed

IT teams must work with software development teams, building engineers, and the facilities manager to ensure that communication is good and installed devices work well with SaaS applications and the organization’s physical hardware . Without an alignment of productivity and communication, projects can be delayed or data can be collected inaccurately, defeating the purpose of technology to make the building healthier.

What helps IT teams the most is a guided approach to projecting next steps, informed by in-depth data collected from a previous IT project or analytics on building functions. If updates need to be made to systems that manage energy use for water in the building, for example, data on which instruments are lagging in productivity can help prioritize which instruments need priority attention . Additionally, the data can paint a different picture that may signal a problem with the software in place instead of the device, saving the IT team time and resources replacing a working IoT device.

Disparate systems and dispersed building sites can also make it difficult to move data from various buildings to a single location for analysis. Integrated building systems and communication between teams in different locations, in tandem with data collected and located by IoT devices, create stronger inner workings that uphold compliance and connect data points seamlessly.

The next generation of healthy buildings

IT provides the technological backbone that allows healthy buildings to operate in their most optimal state. The IoT and sensors, and the maintenance of the systems that keep them online, are key to ensuring a streamlined flow of quality building information which, together with a comprehensive BMS, enables the organization to perform a effective management of energy and quality of -life decisions in the building.

The next generation of healthy buildings will be ones that embrace both extensive IT systems to boost building efficiency and IT teams to provide the necessary support and additional facilities required by architecture. These resources give buildings the foundation they need to adjust renewable energy production, energy consumption, property maintenance, and problem identification in real time.

About Dianne Stinson

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