[1]高蕾[],曹建忠[]. 基于可穿戴传感器的行为识别随机逼近模型[J].计算机技术与发展,2014,24(12):83-87.
 GAO Lei[],CAO Jian-zhong[]. Activity Recognition Using Stochastic Approximation Model Based on Wearable Sensor[J].,2014,24(12):83-87.
点击复制

 基于可穿戴传感器的行为识别随机逼近模型()

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
24
期数:
2014年12期
页码:
83-87
栏目:
智能、算法、系统工程
出版日期:
2014-12-10

文章信息/Info

Title:
 Activity Recognition Using Stochastic Approximation Model Based on Wearable Sensor
文章编号:
1673-629X(2014)12-0083-05
作者:
 高蕾[1]曹建忠[2]
 1.惠州学院 计算机科学系;2.惠州学院 电子科学系
Author(s):
 GAO Lei[1]CAO Jian-zhong[2]
关键词:
 可穿戴传感器行为识别随机逼近聚类高斯混合模型
Keywords:
 wearable sensoractivity recognitionstochastic approximationclusteringGaussian mixture model
分类号:
TP391.4
文献标志码:
A
摘要:
 为了使分类器能够在某个强度级别的行为样本集上训练而在其他强度级别上正确分类行为,提出了行为识别的随机逼近模型。在训练阶段从加速度计的时间序列数据提取特征,然后将特征送入聚类算法。数据依据行为聚类,聚类的均值和方差组合成相对应的SAM。在识别随机行为阶段,测试样本和每种行为类别的SAM进行比较。利用聚类算法和随机逼近给每种行为创建模型,然后使用启发式随机逼近最近邻方法来对行为进行分类。在实验中结合k-均值和高斯混合模型两种聚类算法,验证了提出的随机逼近模型的性能优于其他几种流行的行为分类方案。
Abstract:
 In order to make classifiers can train on an activity at a subset of intensity levels and classify the same activity at other intensity levels,an activity recognition using stochastic approximation model based on wearable sensor is proposed in this paper.The training phase begins by extracting features from the accelerometer time series data,then put the feature into a clustering based algorithm.The data is grouped by activity into clusters,and the clusters’mean and variance are combined to form a corresponding SAM.In the recognition phase,the sample test points are compared against each activity category’s SAM.Clustering algorithms and stochastic approximation are utilized to create a model for each activity,and then use a stochastic approximation nearest-neighbor heuristic for activity classification. Experiments are reported for each dataset using two clustering algorithms,k-means and Gaussian mixture model.The stochastic approxi-mation model is superior to other popular activity classification schemes.

相似文献/References:

[1]张志宏,吴庆波,邵立松,等.基于飞腾平台TOE协议栈的设计与实现[J].计算机技术与发展,2014,24(07):1.
 ZHANG Zhi-hong,WU Qing-bo,SHAO Li-song,et al. Design and Implementation of TCP/IP Offload Engine Protocol Stack Based on FT Platform[J].,2014,24(12):1.
[2]梁文快,李毅. 改进的基因表达算法对航班优化排序问题研究[J].计算机技术与发展,2014,24(07):5.
 LIANG Wen-kuai,LI Yi. Research on Optimization of Flight Scheduling Problem Based on Improved Gene Expression Algorithm[J].,2014,24(12):5.
[3]黄静,王枫,谢志新,等. EAST文档管理系统的设计与实现[J].计算机技术与发展,2014,24(07):13.
 HUANG Jing,WANG Feng,XIE Zhi-xin,et al. Design and Implementation of EAST Document Management System[J].,2014,24(12):13.
[4]侯善江[],张代远[][][]. 基于样条权函数神经网络P2P流量识别方法[J].计算机技术与发展,2014,24(07):21.
 HOU Shan-jiang[],ZHANG Dai-yuan[][][]. P2P Traffic Identification Based on Spline Weight Function Neural Network[J].,2014,24(12):21.
[5]李璨,耿国华,李康,等. 一种基于三维模型的文物碎片线图生成方法[J].计算机技术与发展,2014,24(07):25.
 LI Can,GENG Guo-hua,LI Kang,et al. A Method of Obtaining Cultural Debris’ s Line Chart Based on Three-dimensional Model[J].,2014,24(12):25.
[6]翁鹤,皮德常. 混沌RBF神经网络异常检测算法[J].计算机技术与发展,2014,24(07):29.
 WENG He,PI De-chang. Chaotic RBF Neural Network Anomaly Detection Algorithm[J].,2014,24(12):29.
[7]刘茜[],荆晓远[],李文倩[],等. 基于流形学习的正交稀疏保留投影[J].计算机技术与发展,2014,24(07):34.
 LIU Qian[],JING Xiao-yuan[,LI Wen-qian[],et al. Orthogonal Sparsity Preserving Projections Based on Manifold Learning[J].,2014,24(12):34.
[8]尚福华,李想,巩淼. 基于模糊框架-产生式知识表示及推理研究[J].计算机技术与发展,2014,24(07):38.
 SHANG Fu-hua,LI Xiang,GONG Miao. Research on Knowledge Representation and Inference Based on Fuzzy Framework-production[J].,2014,24(12):38.
[9]叶偲,李良福,肖樟树. 一种去除运动目标重影的图像镶嵌方法研究[J].计算机技术与发展,2014,24(07):43.
 YE Si,LI Liang-fu,XIAO Zhang-shu. Research of an Image Mosaic Method for Removing Ghost of Moving Targets[J].,2014,24(12):43.
[10]余松平[][],蔡志平[],吴建进[],等. GSM-R信令监测选择录音系统设计与实现[J].计算机技术与发展,2014,24(07):47.
 YU Song-ping[][],CAI Zhi-ping[] WU Jian-jin[],GU Feng-zhi[]. Design and Implementation of an Optional Voice Recording System Based on GSM-R Signaling Monitoring[J].,2014,24(12):47.

更新日期/Last Update: 2015-04-15