Building Security Developments Highlighted at the 2025 Honeywell Users Conference
In the world of buildings and security, innovation is driving change as AI, mobile technology, and integrated IoT systems are transforming the landscape across various sectors. These advancements are enabling real-time data analysis, predictive maintenance, enhanced safety, and efficient resource management.
In the general sector, AI-powered building management systems (BMS) are making a significant impact. By utilising real-time data from distributed IoT sensors, these systems can automatically adjust lighting, temperature, and other factors to improve occupant comfort and energy efficiency. Predictive maintenance is another key benefit, reducing downtime and repair costs.
AI Security Suites, such as Cloudflare's, are another game-changer. They protect AI infrastructure by preventing data breaches, biased outputs, and malicious attacks during AI model training and deployment. Secure, high-performance data centres are essential to support AI workloads while minimising energy waste.
Indoor location-based services are also proving to be a valuable tool. Integrating IoT sensors helps optimise space utilisation, enhance operational efficiency, and improve safety compliance within smart buildings. For instance, Deloitte's "The Edge" building in Amsterdam uses 28,000 IoT sensors to reduce energy consumption by 30%.
In the sports sector, the University of Florida's AI-Powered Athletics initiative is leading the way. Wearable tech, data analytics, and AI supercomputers are used to enhance athlete performance and safety. This includes injury prevention, workload management, and data-driven coaching strategies that combine technology with human expertise.
While museums are not directly represented in the search results, they are increasingly adopting location-based services and IoT to enhance visitor experience, security, and asset tracking. Such systems can enable personalised visitor navigation and protect valuable exhibits via real-time monitoring and alerts.
In the sports sector, the Spectrum Center in Charlotte is a prime example of these advancements. The venue uses biometrics and license plate recognition for frictionless entry, heat maps and video analytics in team stores to optimise product placement, and environmental sensors for monitoring refrigeration systems and maintaining air quality.
Rene Saldana, director of technical services at the Art Institute of Chicago, also emphasises the use of AI for people-counting data and analytics to anticipate foot traffic and allocate staff more efficiently.
The panelists consistently emphasise the importance of focusing on the outcomes that AI can generate, such as operational efficiency and situational awareness. They also agree that modern security systems now contribute directly to operational and financial goals.
In conclusion, AI, mobile technologies, and integrated IoT systems are driving smarter, safer, and more efficient buildings and operational environments. Sports are leveraging wearable analytics to improve athlete safety, while museums are poised to benefit from advanced location and asset management technologies. The future is bright as these advancements continue to reshape the landscape of security and building performance.
In the realm of smart buildings, AI-powered security suites like Cloudflare's play a crucial role in ensuring data security and preventing malicious attacks during AI model training and deployment, demonstrating the intersection of technology and physical security systems. Meanwhile, IoT-integrated indoor location-based services are being adopted across various sectors, including museums, to optimize space utilization, enhance operational efficiency, and improve safety compliance, showcasing the fusion of location services with physical security systems.
