Advent of computationally efficient smartphones, inexpensive high‐resolution cameras,
drones, and robotic sensors has brought a new era of next‐generation intelligent monitoring …

Structural health monitoring (SHM) is being widely evaluated by the aerospace industry as a
method to improve the safety and reliability of aircraft structures and also reduce operational …

Cities are investing in data-driven smart technologies to improve performance and efficiency
and to generate a vast amount of data. Finding the opportunities to innovatively use this data …

Structural health monitoring (SHM) is a multi-discipline field that involves the automatic
sensing of structural loads and response by means of a large number of sensors and …

Abstract Machine learning, as a study of algorithms that automate prediction and decision‐
making based on complex data, has become one of the most effective tools in the study of …

Sensing Technology (ST) plays a key role in Structural Health-Monitoring (SHM) systems.
ST focuses on developing sensors, sensory systems, or smart materials that monitor a wide …

The birth of smart materials such as piezoelectric (PZT) transducers has aided in
revolutionizing the field of structural health monitoring (SHM) based on non-destructive …

This paper reviews recent progress of portable short-range noncontact microwave radar
systems for motion detection, positioning, and imaging applications. With the continuous …

Monitoring and analysing the integrity of structures and machinery is important for economic,
operational, and mission critical reasons. In recent years, there has been growing interest in …

Damage detection is one of the most important tasks for structural health monitoring of civil
infrastructure. Before a damage detection algorithm can be applied, the integrity of the data …