A Real-Valued Genetic Algorithm for Optimization of Sensor Placement for Guided Wave-Based Structural Health Monitoring

Abstract EN

The paper presents a novel implementation of the genetic algorithm (GA) to improve the coverage of the sensor network for damage detection using guided waves.

The implementation allows depiction of sensor locations with real values which is closer to the real-life situation.

Also, additional features such as proximity checks and node insertions have been implemented in order to improve the convergence of the GA as well as the thoroughness of the search space.

For the traditional integer-based implementation, the size of the problem is large but finite.

For the real-valued implementation, the problem size can indeed be infinitely large.

So added measures have been introduced such as a two-step optimization process for the reduction in size and improved convergence.