Parameter Estimation and Quantification of Magnetic Nanoparticles Based on Improved Particle Swarm Optimization
Huangliang Wu, Hang Yu, Xiaoyu Chen, Yang Gao, Xiaolin Ning

TL;DR
This paper introduces a new method using an improved Particle Swarm Optimization algorithm to accurately estimate and quantify magnetic nanoparticles in biomedical applications.
Contribution
The novel contribution is integrating an improved PSO algorithm with the Moment Superposition Model for precise parameter estimation and nanoparticle mass quantification.
Findings
The proposed method achieves microgram-level mass detection accuracy for magnetic nanoparticles.
The integration of PSO with the Moment Superposition Model enables reliable estimation of intrinsic nanoparticle parameters.
Validation through simulations and experiments confirms the robustness of the method.
Abstract
Magnetic Relaxometry (MRX) is a promising technique for probing the magnetic properties of nanoparticles with considerable potential in biomedical applications. It magnetizes magnetic nanoparticles through a direct current magnetic field to obtain measurable Néel relaxation signals when magnetic nanoparticles are combined with specific cells or antibodies. It employs highly sensitive magnetic sensors to record relaxation signals following nanoparticle magnetization, from which intrinsic parameters and quantitative information can be extracted, and ultimately completes mass detection. The essential step in MRX-based mass detection is to establish the calibration relationship between the relaxation signal amplitude reflecting the magnetic moment and the corresponding mass of magnetic nanoparticles. In this article, we present a parameter estimation and quantification framework that…
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Taxonomy
TopicsCharacterization and Applications of Magnetic Nanoparticles · Geomagnetism and Paleomagnetism Studies · Nanoparticle-Based Drug Delivery
