Drotár Peter, Mekyska Jiří, Rektorová Irena, Masarová Lucia, Smékal Zdeněk, Faundez-Zanuy Marcos
Department of Telecommunications, Brno University of Technology, Technická 12, 61200 Brno, Czech Republic.
First Department of Neurology, Faculty of Medicine, St. Anns University Hospital, Pekarska 664, 66591 Brno, Czech Republic.
Artif Intell Med. 2016 Feb;67:39-46. doi: 10.1016/j.artmed.2016.01.004. Epub 2016 Feb 4.
We present the PaHaW Parkinson's disease handwriting database, consisting of handwriting samples from Parkinson's disease (PD) patients and healthy controls. Our goal is to show that kinematic features and pressure features in handwriting can be used for the differential diagnosis of PD.
The database contains records from 37 PD patients and 38 healthy controls performing eight different handwriting tasks. The tasks include drawing an Archimedean spiral, repetitively writing orthographically simple syllables and words, and writing of a sentence. In addition to the conventional kinematic features related to the dynamics of handwriting, we investigated new pressure features based on the pressure exerted on the writing surface. To discriminate between PD patients and healthy subjects, three different classifiers were compared: K-nearest neighbors (K-NN), ensemble AdaBoost classifier, and support vector machines (SVM).
For predicting PD based on kinematic and pressure features of handwriting, the best performing model was SVM with classification accuracy of Pacc=81.3% (sensitivity Psen=87.4% and specificity of Pspe=80.9%). When evaluated separately, pressure features proved to be relevant for PD diagnosis, yielding Pacc=82.5% compared to Pacc=75.4% using kinematic features.
Experimental results showed that an analysis of kinematic and pressure features during handwriting can help assess subtle characteristics of handwriting and discriminate between PD patients and healthy controls.
我们展示了帕哈帕金森病笔迹数据库,该数据库由帕金森病(PD)患者和健康对照的笔迹样本组成。我们的目标是表明笔迹中的运动学特征和压力特征可用于PD的鉴别诊断。
该数据库包含37名PD患者和38名健康对照执行八项不同笔迹任务的记录。这些任务包括绘制阿基米德螺旋线、重复书写拼写简单的音节和单词以及书写一个句子。除了与笔迹动态相关的传统运动学特征外,我们还研究了基于书写表面压力的新压力特征。为了区分PD患者和健康受试者,比较了三种不同的分类器:K近邻(K-NN)、集成AdaBoost分类器和支持向量机(SVM)。
基于笔迹的运动学和压力特征预测PD时,表现最佳的模型是SVM,分类准确率Pacc = 81.3%(灵敏度Psen = 87.4%,特异性Pspe = 80.9%)。单独评估时,压力特征被证明与PD诊断相关,与使用运动学特征时的Pacc = 75.4%相比,其Pacc = 82.5%。
实验结果表明,分析笔迹过程中的运动学和压力特征有助于评估笔迹的细微特征,并区分PD患者和健康对照。
