Constrained Optimization of Sensor Placement for Nuclear Digital Twins

Karnik, Niharika; Abdo, Mohammad G.; Estrada-Perez, Carlos E.; Yoo, Jun Soo; Cogliati, Joshua J.; Skifton, Richard S.; Calderoni, Pattrick; Brunton, Steven L.; Manohar, Krithika

doi:10.1109/jsen.2024.3368875

IEEE Sensors J.

2024

DOI: 10.1109/jsen.2024.3368875

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Constrained Optimization of Sensor Placement for Nuclear Digital Twins

Niharika Karnik,

Mohammad G. Abdo,

Carlos E. Estrada-Perez

et al.

Abstract: The deployment of extensive sensor arrays in nuclear reactors is infeasible due to challenging operating conditions and inherent spatial limitations. Strategically placing sensors within defined spatial constraints is essential for the reconstruction of reactor flow fields and the creation of nuclear digital twins. We develop a data-driven technique that incorporates constraints into an optimization framework for sensor placement, with the primary objective of minimizing reconstruction errors under noisy senso… Show more

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Cited by 7 publications

References 59 publications

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A novel tensor-based modal decomposition method for reduced order modeling and optimal sparse sensor placement

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Hua,

Zhai

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Aerospace Science and Technology

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A novel tensor-based modal decomposition method for reduced order modeling and optimal sparse sensor placement

Zhong,

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Aerospace Science and Technology

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Novel optimal sensor placement method towards the high-precision digital twin for complex curved structures

Tian,

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International Journal of Solids and Structures

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Data-driven pressure estimation and optimal sensor selection for noisy turbine flow with blocked clustering strategy

Li,

Hu,

Liu

et al. 2024

Physics of Fluids

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The design and control of turbomachinery require a wealth of spatiotemporal data. Thus, the low-cost and robust estimation of global aerodynamics from extremely limited data and noisy measurements is an important problem. This paper describes a data-driven approach to estimate the full-field pressure distribution of a turbine cascade flow in combination with sparse-distributed sensor measurements. For the offline library building and online reconstructing, the reduced-order model based on standard proper orthogonal decomposition (POD) and least squares approximation, and sparse representation based on overcomplete dictionary and L1 norm minimization are leveraged. To enhance the reconstruction accuracy and robustness with noisy measurements and varied sensor selections, a novel blocked K-means clustering strategy is developed to reconstruct the global flow field through the superposition of multiple local clusters. The statistical results indicate that sparse representation outperforms gappy POD in high-noise measurement environments due to its superior noise robustness and effective feature selection. By applying the proposed blocked clustering strategy, the accuracy and robustness of sparse estimation are significantly improved. The mean square error of gappy POD can be reduced by 9.86% for pressure reconstruction at 90% span of the turbine blade. Sparse representation produces excellent robustness enhancement when the noise intensity exceeds 0.3. Overall, the local reconstruction framework developed in this paper exhibits outstanding advantages in reconstruction accuracy and robustness.

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Constrained Optimization of Sensor Placement for Nuclear Digital Twins

Cited by 7 publications

References 59 publications

A novel tensor-based modal decomposition method for reduced order modeling and optimal sparse sensor placement

A novel tensor-based modal decomposition method for reduced order modeling and optimal sparse sensor placement

Novel optimal sensor placement method towards the high-precision digital twin for complex curved structures

Data-driven pressure estimation and optimal sensor selection for noisy turbine flow with blocked clustering strategy

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