Finite-time simultaneous estimation of aortic blood flow and differentiation order for fractional-order arterial Windkessel model calibration <ce:cross-ref refid='fn1'> <ce:sup loc='post'>?</ce:sup> </ce:cross-ref>

Mohamed A. Bahloul; Marcelo Benencase; Zehor Belkhatir; Taous-Meriem Laleg Kirati

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Finite-time simultaneous estimation of aortic blood flow and differentiation order for fractional-order arterial Windkessel model calibration ?

机译：有限时间同时估计主动脉血流和分数序列的分解顺序校准？ < / ce：cross-ref>

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A fractional-order vascular model representation for emulating arterial hemody-namics has been recently presented as an alternative to the well-known integer-order arterial Windkessel. The model uses a fractional-order capacitor (FOC) to describe the complex and frequency-dependent arterial compliance. This paper presents a two-stage algorithm based on modulating functions for finite-time simultaneous estimation of the model’s input and the fractional differentiation order. The proposed approach is validated using in-silico human data. Results show the prominent potential of this method for calibrating arterial models and enhancing cardiovascular mechanics research as well as clinical practice.

机译：最近呈现出众所周知的整数动脉挡风玻璃的分数阶血管模型表示，用于模拟动脉血栓制的模拟动脉血栓制。该模型使用分数级电容器（FOC）来描述复杂和频率依赖的动脉符合性。本文提出了一种基于调制功能的两级算法，用于有限时间同时估计模型输入和分数分化顺序。使用硅中的人类数据验证所提出的方法。结果表明，这种校准动脉模型和增强心血管力学研究的突出潜力以及临床实践。

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《IFAC PapersOnLine》 |2021年第15期|共6页
作者
Mohamed A. Bahloul; Marcelo Benencase; Zehor Belkhatir; Taous-Meriem Laleg Kirati;
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Joint-estimationModulating functionsWindkessel modelFractional derivative;

机译：联合估计调制功能Windkessel模型分数衍生;

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1. Finite-time joint estimation of the arterial blood flow and the arterial Windkessel parameters using modulating functions ? [J] . Mohamed A. Bahloul, Taous-Meriem Laleg Kirati IFAC PapersOnLine . 2020,第2期

机译：动脉血流的有限时间联合估计和使用调制功能的动脉血流和动脉Windkessel参数？
2. Parametrization of algebraic differentiators for disturbance annihilation with an application to the differentiation of quantized signals ? ? [J] . A. Othmane, H. Mounier, J. Rudolph IFAC PapersOnLine . 2021,第9期

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4. Efficacy of Using Mean Arterial Blood Pressure Sequence for Three-Element Windkessel Model Estimation [C] . Gehalot, Piyush, Zhang, Engineering in Medicine and Biology Society, 2006 Annual International Conference of the IEEE . 2006

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5. Part I: Diffusion-Induced Flows and Particulate Aggregation. Part II: Experiments and Modeling of Replacement Aortic Valves. Part III: Enhanced Diffusion in Wall-Driven Shear Flows [D] . Hunt, Robert. 2021

机译：第一部分：扩散诱导的流动和颗粒聚集。第二部分：替代主动脉瓣的实验和建模。第III部分：壁驱动剪切流量的增强扩散
6. The cerebral Windkessel and its relevance to hydrocephalus: the notch filter model of cerebral blood flow [O] . Michael Egnor, Mark Wagshul, Joe Madsen, 2014

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7. SymposiumSubspecialty Certification: Current Status of Orthopaedic Subspecialty Certification* [O] . Keith H. Bridwell 2006

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Finite-time simultaneous estimation of aortic blood flow and differentiation order for fractional-order arterial Windkessel model calibration ?

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