Shape sensing with optical fiber sensors is getting attention for its potential in many different applications. However, the failure of a sensing core during operational conditions is a possibility that must be considered since it may jeopardize the shape reconstruction. In this study, we perform Monte Carlo simulation of the curve reconstruction process for a shape sensing scheme to study how the sensing performance changes when one of the sensing core fails in presence of several noise levels using a simple compensation methodology. Results show that the accuracy degrades, but measurement is still possible. Moreover, the results seem to be dependent on the curve evolution in the three-dimensional space, suggesting that further research is still needed in this field.
Falcetelli, F., Rossi, L., Bastianini, F., Bolognini, G., Di Sante, R. (2024). Fiber Optic Shape Sensing Robustness Against Cores Failure. Institute of Electrical and Electronics Engineers Inc. [10.1109/piers62282.2024.10618873].
Fiber Optic Shape Sensing Robustness Against Cores Failure
Falcetelli, F.
Primo
;Di Sante, R.Ultimo
2024
Abstract
Shape sensing with optical fiber sensors is getting attention for its potential in many different applications. However, the failure of a sensing core during operational conditions is a possibility that must be considered since it may jeopardize the shape reconstruction. In this study, we perform Monte Carlo simulation of the curve reconstruction process for a shape sensing scheme to study how the sensing performance changes when one of the sensing core fails in presence of several noise levels using a simple compensation methodology. Results show that the accuracy degrades, but measurement is still possible. Moreover, the results seem to be dependent on the curve evolution in the three-dimensional space, suggesting that further research is still needed in this field.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
