What are BIM and SHM Definitions and benefits - Next Industries

Guide: definitions and benefits of BIM and SHM integration

What is BIM?  Building Information Modeling (BIM) is a digital representation of a building’s physical and functional characteristics. BIM creates a virtual model containing comprehensive details related to construction, maintenance, and lifecycle management. By centralizing data, BIM enhances collaboration among architects, engineers, and facility managers, ultimately improving planning and maintenance practices across the structure’s lifecycle. …

Case study how IoT prevented damage on a historic bridge

Case study: how IoT monitoring prevented damage on a historic bridge

Introduction Maintaining historic infrastructures like the Queensferry Bridge, built in 1890 and exposed to extreme weather, poses considerable challenges. IoT historic bridge monitoring systems enabled effective preventive maintenance, ensuring safety and stability without compromising the infrastructure integrity.  Advanced sensor network to detect deformation and vibration In 2020, an IoT sensor network was installed on Queensferry…

IoT structural monitoring systems - Next Industries

IoT structural monitoring systems: a practical guide for infrastructure management

Introduction IoT structural monitoring (SHM) systems have transformed infrastructure management, enabling continuous monitoring of structures like buildings, bridges, and more. These systems use sensors and cloud platforms to gather and interpret data on factors such as strain, vibration, and temperature. Here’s how they work and why understanding data analysis is essential for effective infrastructure management. …

Data quality improvement with monitoring systems - Next Industries

How automated monitoring systems improve data quality in real time

Introduction Automated monitoring systems are transforming data accuracy by enabling real-time quality checks and reducing human error. For industries relying on data-driven decisions, these systems are critical to maintaining reliable and consistent data flow. In this article, we’ll examine how automation in data monitoring supports immediate insights and proactive decision-making.  Real-time data validation Automation technology…

Ensure data accuracy in monitoring systems - Next Industries

8 Essential steps to ensure data accuracy in monitoring systems

Introduction Data accuracy in monitoring systems is essential for reliable decision-making. Incorrect data can lead to misinformed decisions, impacting efficiency and safety. Here, we’ll explore eight effective strategies to maintain high data accuracy. 1. Implement data validation rules Establish validation rules to verify data accuracy upon entry. By flagging or rejecting errors in real time,…

How high temperatures impact building materials - Next Industries

How climate change and high temperatures impact building materials

Introduction Climate change is one of the main factors affecting the durability and resilience of building materials. Rising global temperatures and more intense weather events challenge the integrity of structures, potentially reducing their lifespan over time. Adopting proactive monitoring strategies is essential to face these challenges. 1. The interaction between high temperatures and other climate…

Temperature monitoring of building materials - Next Industries

4 reasons why temperature monitoring is crucial for the longevity of building materials

Introduction Temperature monitoring plays a critical role in ensuring the long-term durability and safety of building materials. Fluctuating or extreme temperatures can accelerate both physical and chemical degradation processes, threatening the structural integrity of buildings. For construction professionals, understanding these temperature effects is key to preventing costly damage and ensuring material longevity. 1. The effects…

5 best practices for effective bridge operations and maintenance

Top 5 best practices for effective bridge operations and maintenance

Effective bridge management is essential for ensuring the safety, reliability, and longevity of infrastructure. It involves a combination of inspections, data analysis, and maintenance strategies to keep bridges in optimal condition.  1. Regular inspections  Conducting regular inspections is the foundation of any successful bridge management plan. By monitoring structural health through visual assessments, drone surveys,…

Case studies AI in action for structural monitoring

Case studies: AI in action for structural monitoring

The integration of Artificial Intelligence (AI) into structural monitoring is transforming the infrastructure sector, offering cutting-edge solutions to improve safety, lower costs, and prevent failures. Through the use of smart sensors and machine learning algorithms, AI continuously monitors the health of bridges, buildings, and other structures in real-time, allowing engineers to spot potential issues before…

The use of AI in structural monitoring applications

The use of AI in structural monitoring applications: how it saves time and money

As infrastructure ages and new construction increases in complexity, ensuring the safety and longevity of critical structures is more essential than ever. Traditional structural monitoring methods often involve manual inspections and routine maintenance, which can be inefficient, costly, and prone to errors. Enter Artificial Intelligence (AI) a transformative technology that is revolutionizing how structures are…