Real time non-invasive monitoring of glucose and nitrogen sources with a novel window sliding based algorithm

IF 5.1 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Engineering Science and Technology-An International Journal-Jestech Pub Date : 2024-10-01 DOI:10.1016/j.jestch.2024.101845
Omer Faruk Goktas , Ekin Demiray , Ali Degirmenci , Ilyas Cankaya
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Abstract

The development of fast and cost-effective methods for measuring biological molecules has many advantages over conventional methods. However, these methods, which are used for monitoring biological molecules, have some drawbacks, such as high cost, time consumption, or labor intensity. On the other hand, microwaves are interacted with sample which can be calculated easily. Thus, microwaves provide compact, uncomplicated, non-invasive, and continuous monitoring of various critical substances such as glucose and nitrogen sources. Here, we show that a new algorithm, based on a sliding window approach, which effectively identifies the optimum operating point using Vector Network Analyzer (VNA) measurements of biological macromolecules including glucose, ammonium sulfate, and yeast extract. Moreover, the effect of container type (mica glass and urine container) on microwave sensing, using a VNA connected with a WR-28 adapter, was investigated. The experimental results confirmed that, mica glass resulted in better differentiation than urine container for glucose estimation. Furthermore, glucose, ammonium sulfate, and yeast extract amounts were effectively determined with novel algorithm. Reflection coefficients (S11) of glucose, yeast extract, and ammonium sulfate ranged between −14.14 dB, −14.41 dB, −10.65 dB, −10.85 dB, and −13.84 dB, −14.16 dB, respectively at optimal operation points when macromolecule concentrations were between 20–80 g/L. In addition, the time complexity of the proposed algorithm was performed and the overall time complexity is On (linear time) and the time complexity per incoming update is O1 (constant time). In this context, the algorithm is also suitable for online applications. The current study proposed a promising approach for cost effective and rapid estimation of biological substances.
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利用基于滑动窗口的新型算法对葡萄糖和氮源进行实时无创监测
与传统方法相比,开发快速、经济高效的生物分子测量方法具有许多优势。然而,这些用于监测生物分子的方法也有一些缺点,如成本高、耗时长或劳动强度大。另一方面,微波与样品相互作用,可以很容易地进行计算。因此,微波可对葡萄糖和氮源等各种关键物质进行紧凑、简便、无创和连续的监测。在这里,我们展示了一种基于滑动窗口方法的新算法,该算法利用矢量网络分析仪(VNA)测量生物大分子(包括葡萄糖、硫酸铵和酵母提取物),有效地确定了最佳操作点。此外,利用连接 WR-28 适配器的 VNA,研究了容器类型(云母玻璃和尿液容器)对微波传感的影响。实验结果证实,云母玻璃比尿液容器在葡萄糖估算方面有更好的区分度。此外,新算法还能有效测定葡萄糖、硫酸铵和酵母提取物的含量。当大分子浓度在 20-80 克/升之间时,在最佳操作点,葡萄糖、酵母提取物和硫酸铵的反射系数(S11)分别介于-14.14 分贝、-14.41 分贝、-10.65 分贝、-10.85 分贝和-13.84 分贝、-14.16 分贝之间。此外,还对所提算法的时间复杂度进行了计算,结果表明该算法的总体时间复杂度为 On(线性时间),每次更新的时间复杂度为 O1(恒定时间)。因此,该算法也适用于在线应用。目前的研究为低成本、高效率地快速估算生物物质提出了一种可行的方法。
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来源期刊
Engineering Science and Technology-An International Journal-Jestech
Engineering Science and Technology-An International Journal-Jestech Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
11.20
自引率
3.50%
发文量
153
审稿时长
22 days
期刊介绍: Engineering Science and Technology, an International Journal (JESTECH) (formerly Technology), a peer-reviewed quarterly engineering journal, publishes both theoretical and experimental high quality papers of permanent interest, not previously published in journals, in the field of engineering and applied science which aims to promote the theory and practice of technology and engineering. In addition to peer-reviewed original research papers, the Editorial Board welcomes original research reports, state-of-the-art reviews and communications in the broadly defined field of engineering science and technology. The scope of JESTECH includes a wide spectrum of subjects including: -Electrical/Electronics and Computer Engineering (Biomedical Engineering and Instrumentation; Coding, Cryptography, and Information Protection; Communications, Networks, Mobile Computing and Distributed Systems; Compilers and Operating Systems; Computer Architecture, Parallel Processing, and Dependability; Computer Vision and Robotics; Control Theory; Electromagnetic Waves, Microwave Techniques and Antennas; Embedded Systems; Integrated Circuits, VLSI Design, Testing, and CAD; Microelectromechanical Systems; Microelectronics, and Electronic Devices and Circuits; Power, Energy and Energy Conversion Systems; Signal, Image, and Speech Processing) -Mechanical and Civil Engineering (Automotive Technologies; Biomechanics; Construction Materials; Design and Manufacturing; Dynamics and Control; Energy Generation, Utilization, Conversion, and Storage; Fluid Mechanics and Hydraulics; Heat and Mass Transfer; Micro-Nano Sciences; Renewable and Sustainable Energy Technologies; Robotics and Mechatronics; Solid Mechanics and Structure; Thermal Sciences) -Metallurgical and Materials Engineering (Advanced Materials Science; Biomaterials; Ceramic and Inorgnanic Materials; Electronic-Magnetic Materials; Energy and Environment; Materials Characterizastion; Metallurgy; Polymers and Nanocomposites)
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