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基于ACP方法的平行手机信令数据分析系统

王迎春 韩双双 胡成云 宋瑞琦 要婷婷 曹东璞 王飞跃

王迎春, 韩双双, 胡成云, 宋瑞琦, 要婷婷, 曹东璞, 王飞跃. 基于ACP方法的平行手机信令数据分析系统. 自动化学报, 2019, 45(5): 866-876. doi: 10.16383/j.aas.2018.c170156
引用本文: 王迎春, 韩双双, 胡成云, 宋瑞琦, 要婷婷, 曹东璞, 王飞跃. 基于ACP方法的平行手机信令数据分析系统. 自动化学报, 2019, 45(5): 866-876. doi: 10.16383/j.aas.2018.c170156
WANG Ying-Chun, HAN Shuang-Shuang, HU Cheng-Yun, SONG Rui-Qi, YAO Ting-Ting, CAO Dong-Pu, WANG Fei-Yue. Mobile Phone Signaling Data Analysis System Based on ACP Approach. ACTA AUTOMATICA SINICA, 2019, 45(5): 866-876. doi: 10.16383/j.aas.2018.c170156
Citation: WANG Ying-Chun, HAN Shuang-Shuang, HU Cheng-Yun, SONG Rui-Qi, YAO Ting-Ting, CAO Dong-Pu, WANG Fei-Yue. Mobile Phone Signaling Data Analysis System Based on ACP Approach. ACTA AUTOMATICA SINICA, 2019, 45(5): 866-876. doi: 10.16383/j.aas.2018.c170156

基于ACP方法的平行手机信令数据分析系统

doi: 10.16383/j.aas.2018.c170156
基金项目: 

国家自然科学基金 61533019

国家自然科学基金 71232006

国家自然科学基金 61501461

详细信息
    作者简介:

    王迎春  中国科学院自动化研究所复杂系统管理与控制国家重点实验室工程师.2015年获得北京大学智能科学与技术硕士学位.主要研究方向为平行驾驶, 数据挖掘, 机器学习.E-mail:yingchun.wang@ia.ac.cn

    胡成云  中国科学院自动化研究所复杂系统管理与控制国家重点实验室工程师.2016年获得北京大学电子与通信工程硕士学位.主要研究方向为自动驾驶, 平行测试.E-mail:chengyun.hu@ia.ac.cn

    宋瑞琦中国科学院自动化研究所复杂系统管理与控制国家重点实验室工程师.2016年获得北京航空航天大学电子科学与技术工学硕士学位.主要研究方向为平行驾驶, 目标识别与语义分割.E-mail:ruiqi.song@ia.ac.cn

    要婷婷  中国科学院自动化研究所复杂系统管理与控制国家重点实验室工程师.2015年、2016年分别获得英国伯明翰大学、北京交通大学硕士学位.主要研究方向为平行驾驶与数据挖掘.E-mail:tingting.yao@ia.ac.cn

    曹东璞  英国克兰菲尔德大学驾驶员认知与自动驾驶实验室主任.中科院自动化所客座研究员.主要研究方向为自动驾驶, 人车协同, 与平行驾驶.E-mail:d.cao@cranfield.ac.uk

    王飞跃  中国科学院自动化研究所复杂系统管理与控制国家重点实验室研究员.国防科学技术大学军事计算实验与平行系统技术研究中心教授.主要研究方向为智能系统和复杂系统的建模、分析与控制.E-mail:feiyue.wang@ia.ac.cn

    通讯作者:

    韩双双  中国科学院自动化研究所复杂系统管理与控制国家重点实验室助理研究员.2013年获得加拿大阿尔伯塔大学博士学位.主要研究方向为平行网络, 物联网, 智能交通, 无线通信关键技术.本文通信作者.E-mail:shuangshuang.han@ia.ac.cn

Mobile Phone Signaling Data Analysis System Based on ACP Approach

Funds: 

National Natural Science Foundation of China 61533019

National Natural Science Foundation of China 71232006

National Natural Science Foundation of China 61501461

More Information
    Author Bio:

     Engineer at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. She received her master degree in intelligent science and technology from Peking University in 2015. Her research interest covers parallel driving, data mining, and machine learning

     Engineer at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. He received his master degree in electronics and communication engineering from Peking University in 2016. His research interest covers automated driving and parallel testing

     Engineer at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. He received his master degree in electronic science and technology from Beihang University in 2016. His research interest covers automated driving, target recognition, and semantic segmentation

     Engineer at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. She received her master degrees from University of Birmingham and Beijing Jiaotong University in 2015 and 2016, respectively. Her research interest covers parallel driving and data mining

     Director of Driver Cognition and Automated Driving Laboratory, Cranfleld University, UK. Visiting professor at Institute of Automation, Chinese Academy of Sciences. His research interest covers automated driving, driver-automation collaboration, and parallel driving

     Professor at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. Professor at the Research Center for Computational Experiments and Parallel Systems Technology, National University of Defense Technology. His research interest covers modeling, analysis, and control of intelligent systems and complex systems

    Corresponding author: HAN Shuang-Shuang  Assistant professor at the State Key Laboratory for Management and Control of Complex Systems, Institute of Automation, Chinese Academy of Sciences. She received her Ph. D. degree from University of Alberta, Canada in 2013. Her research interest covers parallel networks, internet of things, intelligent transportation system and wireless communications. Corresponding author of this paper
  • 摘要: 随着交通拥堵和公共安全问题的日趋严重,传统方案在道路监测和区域监测方面不仅成本高,准确性和可靠性也无法保证,因此无法给用户提供一整套综合全面的出行路线规划及旅游目的地选择等方面的相关指导.本文提出基于ACP方法的平行手机信令数据分析系统,将解决上述问题.本文主要基于ACP方法,包括人工社会、计算实验和平行执行,构建基于手机信令的人工监控场景和实际监控场景.实际监控场景和人工监控场景平行执行,人工监控场景用来模拟和实验复杂的实际监控场景,通过大量计算实验,进行各种模型的训练与评估,通过平行执行不断地更新和优化,实时指导实际监控场景;同时实际监控场景将结果反馈给人工监控场景,对人工监控场景模型进行修正.通过实际监控场景和人工监控场景之间的不断优化,可有效提高手机信令系统的实时性、准确性和可靠性,并最终满足不断增长的实时用户需求,保证用户出行的舒适性及安全性.
    1)  本文责任编委 张敏灵
  • 图  1  基于ACP方法的平行手机信令数据分析系统的框架

    Fig.  1  The framework of mobile phone signaling data analysis system based on ACP approach

    图  2  人工监控场景框架

    Fig.  2  The framework of manual monitoring scene

    图  3  道路监控预测方法

    Fig.  3  The method of road monitoring and forecasting

    图  4  登录界面

    Fig.  4  System login interface

    图  5  交通流监控

    Fig.  5  The traffic flow monitoring

    图  6  重点区域人流密度

    Fig.  6  The distribution of population flow in focused area

    图  7  用户的归属地分析

    Fig.  7  The attribution of population flow in focused area

    图  8  进出重点区域人数

    Fig.  8  The in/out number of population in focused area

    图  9  平行与非平行手机信令数据系统定量分析结果

    Fig.  9  Quantitative analysis of parallel and general parallel mobile signaling data system

    表  1  手机信令数据格式

    Table  1  The structure of mobile phone signaling data

    字段名称 描述 类型
    标识号 唯一标识, 随机生成 TEXT, 加密
    TimeStamp 时间戳 UINT32类型数字
    LAC 位置区编号 UINT32类型数字
    E 经度 UINT32类型数字
    N 纬度 UINT32类型数字
    EventID 事件类型 UINT8类型数字
    号码归属地编码 号码归属地信息(省+市) 字符串数据类型(省-市)
    Type 基站类型0, 1 UINT32类型数字
    下载: 导出CSV

    表  2  道路基站与用户路径基站匹配表

    Table  2  Mactching between base stations of road and user

    Linkname Roadpoint Usertrajectory Match
    link-01 (120.346277, 36.231411) (120.341874, 36.241635) link-01
    $\cdots$ $\cdots$ (120.291309, 36.236508) link-02
    (120.160276, 36.243413) (120.280959, 36.235056) link-02
    (120.152630, 36.234506) (120.239843, 36.231848) link-03
    (120.145490, 36.246401) (120.239456, 36.231008) link-03
    (120.136701, 36.239830) (120.178939, 36.241566) link-03
    (120.123239, 36.235142) (120.160276, 36.243413) link-04
    (120.072134, 36.222112) (120.136701, 36.239830) link-04
    link-05 (120.072091, 36.215935) (120.123239, 36.235142) link-04
    $\cdots$ $\cdots$ (120.072134, 36.222112) link-04
    $\cdots$ $\cdots$ (120.064562, 36.232949) no
    link-06 (120.105853, 36.076972) (120.061622, 36.237668) no
    下载: 导出CSV
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  • 收稿日期:  2017-03-23
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