This article explores the ability of multivariate autoregressive model(MAR)and scalar AR model to extract the features from two-lead electrocardiogram signals in order to classify certain cardiac arrhythmias.The class...This article explores the ability of multivariate autoregressive model(MAR)and scalar AR model to extract the features from two-lead electrocardiogram signals in order to classify certain cardiac arrhythmias.The classification performance of four different ECG feature sets based on the model coefficients are shown.The data in the analysis including normal sinus rhythm, atria premature contraction,premature ventricular contraction,ventricular tachycardia,ventricular fibrillation and superventricular tachyeardia is obtained from the MIT-BIH database.The classification is performed using a quadratic diacriminant function.The results show the MAR coefficients produce the best results among the four ECG representations and the MAR modeling is a useful classification and diagnosis tool.展开更多
In this paper, a new approach of maneuvering target tracking algorithm based on the autoregressive extended Viterbi(AREV) model is proposed. In contrast to weakness of traditional constant velocity(CV) and constant ac...In this paper, a new approach of maneuvering target tracking algorithm based on the autoregressive extended Viterbi(AREV) model is proposed. In contrast to weakness of traditional constant velocity(CV) and constant acceleration(CA) models to noise effect reduction, the autoregressive(AR) part of the new model which changes the structure of state space equations is proposed. Also using a dynamic form of the state transition matrix leads to improving the rate of convergence and decreasing the noise effects. Since AR will impose the load of overmodeling to the computations, the extended Viterbi(EV) method is incorporated to AR in two cases of EV1 and EV2. According to most probable paths in the interacting multiple model(IMM) during nonmaneuvering and maneuvering parts of estimation, EV1 and EV2 respectively can decrease load of overmodeling computations and improve the AR performance. This new method is coupled with proposed detection schemes for maneuver occurrence and termination as well as for switching initializations. Appropriate design parameter values are derived for the detection schemes of maneuver occurrences and terminations. Finally, simulations demonstrate that the performance of the proposed model is better than the other older linear and also nonlinear algorithms in constant velocity motions and also in various types of maneuvers.展开更多
针对现有深度学习算法在壁画修复时,存在全局语义一致性约束不足及局部特征提取不充分,导致修复后的壁画易出现边界效应和细节模糊等问题,提出一种双向自回归Transformer与快速傅里叶卷积增强的壁画修复方法.首先,设计基于Transformer...针对现有深度学习算法在壁画修复时,存在全局语义一致性约束不足及局部特征提取不充分,导致修复后的壁画易出现边界效应和细节模糊等问题,提出一种双向自回归Transformer与快速傅里叶卷积增强的壁画修复方法.首先,设计基于Transformer结构的全局语义特征修复模块,利用双向自回归机制与掩码语言模型(masked language modeling,MLM),提出改进的多头注意力全局语义壁画修复模块,提高对全局语义特征的修复能力.然后,构建了由门控卷积和残差模块组成的全局语义增强模块,增强全局语义特征一致性约束.最后,设计局部细节修复模块,采用大核注意力机制(large kernel attention,LKA)与快速傅里叶卷积提高细节特征的捕获能力,同时减少局部细节信息的丢失,提升修复壁画局部和整体特征的一致性.通过对敦煌壁画数字化修复实验,结果表明,所提算法修复性能更优,客观评价指标均优于比较算法.展开更多
目的:鼻咽癌发病位置隐匿导致早期诊断率低,且具有明显的地域聚集性,是中国一个重要的公共卫生问题。本研究旨在通过2021年全球疾病负担(the Global Burden of Diseases,GBD)数据库分析中国鼻咽癌的疾病负担,为鼻咽癌的精准防控提供流...目的:鼻咽癌发病位置隐匿导致早期诊断率低,且具有明显的地域聚集性,是中国一个重要的公共卫生问题。本研究旨在通过2021年全球疾病负担(the Global Burden of Diseases,GBD)数据库分析中国鼻咽癌的疾病负担,为鼻咽癌的精准防控提供流行病学依据。方法:选取年龄标化发病率、病死率、伤残调整寿命年(disability adjusted life year,DALY)率作为疾病负担的评价指标,按照不同年龄、性别、社会人口学指数及其相关危险因素进行分层分析,同时应用差分自回归移动平均(autoregressive integrated moving average,ARIMA)模型和贝叶斯年龄-时期-队列分析模型(Bayesian age-period-cohort,BAPC)将年龄标化发病率预测至2050年。结果:2021年中国鼻咽癌年龄标化发病率、病死率、DALY率分别为3.4/10万、1.5/10万、48.7/10万,均高于同期全球水平。在所有年龄段,中国男性年龄标化发病率、病死率、DALY率均高于女性。中国鼻咽癌的疾病负担从1990至2021年随着社会人口学指数(socio-demographic index,SDI)的增高逐渐降低。中国归因于饮酒、吸烟、职业甲醛暴露的鼻咽癌疾病负担占比均高于全球水平,且在男性中尤为显著。模型预测中国及全球男性、女性、全人群的年龄标化发病率均提示从2022至2050年呈上升趋势。结论:既往30年中国鼻咽癌的疾病负担随着SDI的升高逐渐降低,但仍高于同期全球水平。同时,中国鼻咽癌的年龄标化发病率在未来30年呈上升趋势。中国仍需进一步增加医疗资源的投入以应对鼻咽癌的防控与诊疗,尤其针对高风险男性群体。展开更多
基金Supported by Natural Science Foundation of Zhejiang Province of P.R.China(Y104284)
文摘This article explores the ability of multivariate autoregressive model(MAR)and scalar AR model to extract the features from two-lead electrocardiogram signals in order to classify certain cardiac arrhythmias.The classification performance of four different ECG feature sets based on the model coefficients are shown.The data in the analysis including normal sinus rhythm, atria premature contraction,premature ventricular contraction,ventricular tachycardia,ventricular fibrillation and superventricular tachyeardia is obtained from the MIT-BIH database.The classification is performed using a quadratic diacriminant function.The results show the MAR coefficients produce the best results among the four ECG representations and the MAR modeling is a useful classification and diagnosis tool.
文摘In this paper, a new approach of maneuvering target tracking algorithm based on the autoregressive extended Viterbi(AREV) model is proposed. In contrast to weakness of traditional constant velocity(CV) and constant acceleration(CA) models to noise effect reduction, the autoregressive(AR) part of the new model which changes the structure of state space equations is proposed. Also using a dynamic form of the state transition matrix leads to improving the rate of convergence and decreasing the noise effects. Since AR will impose the load of overmodeling to the computations, the extended Viterbi(EV) method is incorporated to AR in two cases of EV1 and EV2. According to most probable paths in the interacting multiple model(IMM) during nonmaneuvering and maneuvering parts of estimation, EV1 and EV2 respectively can decrease load of overmodeling computations and improve the AR performance. This new method is coupled with proposed detection schemes for maneuver occurrence and termination as well as for switching initializations. Appropriate design parameter values are derived for the detection schemes of maneuver occurrences and terminations. Finally, simulations demonstrate that the performance of the proposed model is better than the other older linear and also nonlinear algorithms in constant velocity motions and also in various types of maneuvers.
文摘针对现有深度学习算法在壁画修复时,存在全局语义一致性约束不足及局部特征提取不充分,导致修复后的壁画易出现边界效应和细节模糊等问题,提出一种双向自回归Transformer与快速傅里叶卷积增强的壁画修复方法.首先,设计基于Transformer结构的全局语义特征修复模块,利用双向自回归机制与掩码语言模型(masked language modeling,MLM),提出改进的多头注意力全局语义壁画修复模块,提高对全局语义特征的修复能力.然后,构建了由门控卷积和残差模块组成的全局语义增强模块,增强全局语义特征一致性约束.最后,设计局部细节修复模块,采用大核注意力机制(large kernel attention,LKA)与快速傅里叶卷积提高细节特征的捕获能力,同时减少局部细节信息的丢失,提升修复壁画局部和整体特征的一致性.通过对敦煌壁画数字化修复实验,结果表明,所提算法修复性能更优,客观评价指标均优于比较算法.
文摘目的:鼻咽癌发病位置隐匿导致早期诊断率低,且具有明显的地域聚集性,是中国一个重要的公共卫生问题。本研究旨在通过2021年全球疾病负担(the Global Burden of Diseases,GBD)数据库分析中国鼻咽癌的疾病负担,为鼻咽癌的精准防控提供流行病学依据。方法:选取年龄标化发病率、病死率、伤残调整寿命年(disability adjusted life year,DALY)率作为疾病负担的评价指标,按照不同年龄、性别、社会人口学指数及其相关危险因素进行分层分析,同时应用差分自回归移动平均(autoregressive integrated moving average,ARIMA)模型和贝叶斯年龄-时期-队列分析模型(Bayesian age-period-cohort,BAPC)将年龄标化发病率预测至2050年。结果:2021年中国鼻咽癌年龄标化发病率、病死率、DALY率分别为3.4/10万、1.5/10万、48.7/10万,均高于同期全球水平。在所有年龄段,中国男性年龄标化发病率、病死率、DALY率均高于女性。中国鼻咽癌的疾病负担从1990至2021年随着社会人口学指数(socio-demographic index,SDI)的增高逐渐降低。中国归因于饮酒、吸烟、职业甲醛暴露的鼻咽癌疾病负担占比均高于全球水平,且在男性中尤为显著。模型预测中国及全球男性、女性、全人群的年龄标化发病率均提示从2022至2050年呈上升趋势。结论:既往30年中国鼻咽癌的疾病负担随着SDI的升高逐渐降低,但仍高于同期全球水平。同时,中国鼻咽癌的年龄标化发病率在未来30年呈上升趋势。中国仍需进一步增加医疗资源的投入以应对鼻咽癌的防控与诊疗,尤其针对高风险男性群体。