FPGA implementation of principal component regression (PCR) for real-time differentiation of dopamine from interferents

机译：主成分回归（PCR）的FPGA实现，可实时区分多巴胺与干扰物

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This paper reports on field-programmable gate array (FPGA) implementation of a digital signal processing (DSP) unit for real-time processing of neurochemical data obtained by fast-scan cyclic voltammetry (FSCV) at a carbonfiber microelectrode (CFM). The DSP unit comprises a decimation filter and two embedded processors to process the FSCV data obtained by an oversampling recording front-end and differentiate the target analyte from interferents in real time with a chemometrics algorithm using principal component regression (PCR). Interfaced with an integrated, FSCV-sensing front-end, the DSP unit successfully resolves the dopamine response from that of pH change and background-current drift, two common dopamine interferents, in flow injection analysis involving bolus injection of mixed solutions, as well as in biological tests involving electrically evoked, transient dopamine release in the forebrain of an anesthetized rat.

机译：本文报告了数字信号处理（DSP）单元的现场可编程门阵列（FPGA）实施，该单元用于在碳纤维微电极（CFM）上通过快速扫描循环伏安法（FSCV）实时处理神经化学数据。 DSP单元包括一个抽取滤波器和两个嵌入式处理器，以处理通过超采样记录前端获得的FSCV数据，并使用化学计量学算法使用主成分回归（PCR）实时区分目标分析物与干扰物。与集成的FSCV传感前端接口后，DSP单元成功地解决了pH改变和背景电流漂移（两种常见的多巴胺干扰物）的多巴胺响应，这涉及到大剂量注射混合溶液的流动注射分析，以及在涉及电诱发的麻醉大鼠前脑中短暂多巴胺释放的生物学测试中。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2015年|5151-5154|共4页
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Bozorgzadeh Bardia; Covey Daniel P.; Garris Paul A.; Mohseni Pedram;
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biochemistry; biomedical electrodes; brain; chemical sensors; drugs; microelectrodes; neurophysiology; principal component analysis; regression analysis; voltammetry (chemical analysis); DSP unit; FPGA implementation; FSCV data; FSCV-sensing front-end; anesthetized rat forebrain; background-current drift; bolus injection; carbonfiber microelectrode; chemometrics algorithm; decimation filter; digital signal processing; dopamine interferent; dopamine response; embedded processor; fast-scan cyclic voltammetry; field-programmable gate array; flow injection analysis; neurochemical data; pH change; principal component regression; real-time dopamine differentiation; transient dopamine release; Digital signal processing; Field programmable gate arrays; In vivo; Power capacitors; Program processors; Real-time systems; Sensors;

机译：生物化学;生物医学电极;大脑;化学传感器;药物;微电极;神经生理学;主要成分分析;回归分析;伏安法（化学分析）; DSP单元; FPGA实现; FSCV数据; FSCV传感前端;麻醉的大鼠前脑;背景-电流漂移;推注;碳纤维微电极;化学计量学算法;抽取滤波器;数字信号处理;多巴胺干扰物;多巴胺响应;嵌入式处理器;快速扫描循环伏安法;现场可编程门阵列;流动注射分析;神经化学数据; pH变化主成分回归实时多巴胺分化瞬态多巴胺释放数字信号处理现场可编程门阵列体内功率电容器程序处理器实时系统传感器;

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4. FPGA Implementation of Principal Component Regression (PCR) for Real-Time Differentiation of Dopamine from Interferents [C] . Bozorgzadeh Bardia, Covey Daniel P., Garris Paul A., Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2015

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FPGA implementation of principal component regression (PCR) for real-time differentiation of dopamine from interferents

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