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Exploring the potential of artificial intelligence in the built environment: key steps to implementation

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2023-12-15 17:15:39470browse

Exploring the potential of artificial intelligence in the built environment: key steps to implementation

With the help of artificial intelligence and automation technology, enterprises can use various optimization software to automatically improve cooling, heating and power generation, as well as predict and directly monitor energy costs in the workplace. Facility managers can use AI-driven data analytics to monitor building performance, improve tenant experience, and achieve sustainability goals. Building managers may still believe that implementing such innovative energy-saving technology will be a time-consuming and expensive process. But in fact, they can be easily and quickly installed in buildings, allowing managers to see immediate results and returns

Step One: Data Collection and Analysis

The rewritten content is as follows: First, data collection and analysis need to be carried out. We’re going to take a deep dive into how facilities management (FM) can leverage IoT sensors and AI platforms to collect data on energy consumption and facility operations in real time. Through predictive analytics, hotspots of energy waste and emissions can be identified, allowing informed decisions to be made to reduce the carbon footprint. These AI platforms not only provide managers with a simulated bird's-eye view of the building, but also assist in decision-making and enable stronger sustainability practices. In addition to energy consumption and waste, AI platforms enable managers to monitor assets, spaces, health and occupant comfort parameters, all with the goal of improving environmental, social and governance (ESG) scores. They constantly patrol the workplace, identify areas of inefficiency, flag equipment issues, and recommend the corrective actions needed to resolve them

Step 2: Get real-time insights

Explore how FM uses AI algorithms to dynamically manage energy usage. Smart HVAC and filtration systems, guided by artificial intelligence, adapt to living patterns in real time to ensure energy efficiency and living comfort. Real-world case studies show that energy consumption can be significantly reduced through AI-driven energy optimization.

Many platforms even offer cloud-based application ecosystems that allow managers and tenants to instantly change the temperature, water supply, HVAC systems and lighting in various parts of the building. Managers can now track real-time spend, gain efficiency insights and make progress directly from their smartphones, making it easier to regularly update stakeholders on sustainability results. Therefore, data can not only be collected but also shared

Intelligent connected management platform has been installed in thousands of buildings around the world. By monitoring and improving energy efficiency, tenant satisfaction, asset performance, maintenance operations and space performance, these management tools can be used to improve the comfort of all occupants in any building. As costs continue to rise and government regulations change, companies must look to technologies to significantly improve utility management and ways to reduce emissions. Without innovations in artificial intelligence, leaders will never be able to bring about the same level of meaningful change for themselves, the environment, or their health

Step Three: Learn, Evolve, Adapt

FMs are encouraged to regularly update artificial intelligence models to improve emission reduction strategies. Learning from successes and failures, FMs can adapt their methods and find innovative ways to improve. This article highlights the importance of understanding emerging AI technologies, such as generative AI, and their links to sustainable development and ongoing emissions reductions.

When building and enterprise data are interconnected in the cloud, facilities managers can get a bird’s eye view of operations and analyze a building’s data holistically, rather than in isolation. Each business will have unique goals and analysis can be focused accordingly, gaining insights into many different areas, from energy efficiency to sustainability to cost savings. Once potential optimization opportunities are identified, managers can ensure autonomous adjustments by leveraging the right AI integration and smart technologies in each scenario.

When integrated building data is combined with technologies such as artificial intelligence (AI) and machine learning (ML), we can truly unlock the potential that green technology offers. Not only will this improve the wellbeing of building occupants, it will also deliver significant cost savings and push the business closer to its all-important net zero target.

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