智能公交系统中车载终端的研究与开发
|
摘要
公共交通是解决当今社会城市交通拥挤、运输紧张的有效手段,公共交通系统的智能化管理技术则是提高公交系统运行效率,为市民营造良好出行环境的有效方式。智能化公共交通系统是现代控制技术、定位技术和无线通信技术等多种技术的有机结合。鉴于国内外智能化公交系统概况及我国车载终端的使用现状,本文充分利用现代电子、计算机、传感测控等方面的技术成果,设计开发了一种新型公交车车载终端系统。
公交车车载终端是智能公交调度管理系统的信息来源和信息发布处,是整个系统的基础与核心。本文设计的车载终端是基于AT89S52实现采集车况信息、播报站点、显示服务信息、统计客流量等,并于地面通讯,将相关的数据信息传输到监控中心,解决目前公交系统底层信息采集的瓶颈问题,更好地实现车辆跟踪和调度。
本文针对车载终端设计涉及的主要技术问题车辆的定位、系统功能以及系统通讯进行了详细的论述。提出了里程表分段式方法以站间为区域实现车辆的定位,发送到站牌和监控中心的车辆位置信息,便于候车乘客和监控中心更加清楚形象的了解到车辆的行驶位置。通过在车辆及站台上安装无线数传模块,构成通讯网络,采用获取令牌接力方式传递信息的方式,车载终端将采集到的车况信息传送到监控中心,使监控中心进行科学调度。车载终端不仅具有采集车况信号、超限报警等常规功能,而且具有全自动语音报站功能,根据里程信息自动播报相关站名,可以免去司机的手动操作,集中精神驾驶;实时客流检测功能可以统计出车载乘客数,将此信息发送到站牌,可以让等车乘客事先了解车辆的拥挤度,做出是否变更乘车路线的决定;点阵LCD中文显示功能用于显示即将到站的站名,避免未听到语音报站的乘客或残疾人乘客错过下车的时机,显示功能还可以播放有关出行的信息,如天气、转换车等,可以方便乘客出行。
Today, public traffic is effective to abate traffic jam and busy transportation in the city. The technology of intelligent management in the public traffic system improves the efficiency and builds a comfortable circumstance for the citizen. Intelligent public traffic system includes the technology about modern control, positioning and wireless communication and so on. Based on study about status quo and development of intelligent public traffic at home and abroad, the newfashioned onboard terminal unit in the bus is designed in the thesis.
The onboard terminal unit in the bus is the source and destination of the information flow in intelligent public traffic dispatching system. By using AT89S52 as MCU, the system realizes the functions, such as collecting the state of the driving buses, broadcasting the bus-stop names, displaying service information, registering the number of the passengers and so on. And then the correlative information is transmitted to the control center by communicating with the floor. The whole system can resolve the bottle-neck problem of public traffic system, to realize better the track of vehicle and attempering.
Aiming at designing the onboard terminal unit in the bus, the paper discusses and focuses on vehicle positioning, communication system and functions of system. By odometer-distance method the position of buses is confirmed, so waiting passengers and control center know the position of buses clearly. The wireless communication modules installed in the buses and bus-stations compose the net of communication. The bus-stop sends the data by obtaining the token. The control center manages buses scientifically based on the information about the driving buses. Not only the system has functions, such as collecting the information about the driving buses, alarming over the limit. But also the system can broadcast the bus-stop name automatically. The function can make the drivers fix attention on driving buses. Real-time checking the number of passengers and transmitting this information to the bus-stop, the waiting passengers can know the status about the bus in advance so as to decide whether to change another bus. LCD displays the name of the bus-stop the bus is arriving at and the information about the weather, changing the bus and so on. This function of display provide the passengers the convenience.
公交车车载终端是智能公交调度管理系统的信息来源和信息发布处,是整个系统的基础与核心。本文设计的车载终端是基于AT89S52实现采集车况信息、播报站点、显示服务信息、统计客流量等,并于地面通讯,将相关的数据信息传输到监控中心,解决目前公交系统底层信息采集的瓶颈问题,更好地实现车辆跟踪和调度。
本文针对车载终端设计涉及的主要技术问题车辆的定位、系统功能以及系统通讯进行了详细的论述。提出了里程表分段式方法以站间为区域实现车辆的定位,发送到站牌和监控中心的车辆位置信息,便于候车乘客和监控中心更加清楚形象的了解到车辆的行驶位置。通过在车辆及站台上安装无线数传模块,构成通讯网络,采用获取令牌接力方式传递信息的方式,车载终端将采集到的车况信息传送到监控中心,使监控中心进行科学调度。车载终端不仅具有采集车况信号、超限报警等常规功能,而且具有全自动语音报站功能,根据里程信息自动播报相关站名,可以免去司机的手动操作,集中精神驾驶;实时客流检测功能可以统计出车载乘客数,将此信息发送到站牌,可以让等车乘客事先了解车辆的拥挤度,做出是否变更乘车路线的决定;点阵LCD中文显示功能用于显示即将到站的站名,避免未听到语音报站的乘客或残疾人乘客错过下车的时机,显示功能还可以播放有关出行的信息,如天气、转换车等,可以方便乘客出行。
Today, public traffic is effective to abate traffic jam and busy transportation in the city. The technology of intelligent management in the public traffic system improves the efficiency and builds a comfortable circumstance for the citizen. Intelligent public traffic system includes the technology about modern control, positioning and wireless communication and so on. Based on study about status quo and development of intelligent public traffic at home and abroad, the newfashioned onboard terminal unit in the bus is designed in the thesis.
The onboard terminal unit in the bus is the source and destination of the information flow in intelligent public traffic dispatching system. By using AT89S52 as MCU, the system realizes the functions, such as collecting the state of the driving buses, broadcasting the bus-stop names, displaying service information, registering the number of the passengers and so on. And then the correlative information is transmitted to the control center by communicating with the floor. The whole system can resolve the bottle-neck problem of public traffic system, to realize better the track of vehicle and attempering.
Aiming at designing the onboard terminal unit in the bus, the paper discusses and focuses on vehicle positioning, communication system and functions of system. By odometer-distance method the position of buses is confirmed, so waiting passengers and control center know the position of buses clearly. The wireless communication modules installed in the buses and bus-stations compose the net of communication. The bus-stop sends the data by obtaining the token. The control center manages buses scientifically based on the information about the driving buses. Not only the system has functions, such as collecting the information about the driving buses, alarming over the limit. But also the system can broadcast the bus-stop name automatically. The function can make the drivers fix attention on driving buses. Real-time checking the number of passengers and transmitting this information to the bus-stop, the waiting passengers can know the status about the bus in advance so as to decide whether to change another bus. LCD displays the name of the bus-stop the bus is arriving at and the information about the weather, changing the bus and so on. This function of display provide the passengers the convenience.
引文
[1]郭嘉俭.我国GPS车辆定位管理系统的现状与发展方向探讨.全球定位系统.2001,26(4):16-22.
[2]刘镇阳等.城市智能公共交通系统.北京:中国铁道出版社,2005.
[3]王丰元.智能公交系统技术及其功能.城市公共交通.2005,(6):39-40.
[4]石友服.美国智能交通的发展现状及规划.交通世界.2002,10(8):34-36.
[5]陆化普.日本智能公共交通系统的开发应用现状与展望.国外城市规划.1997,9(3):34-37.
[6]Department US of Transportation. FTA. Advanced Public Transportation Systems:The State of the Art Updated'98,1998.
[7]杨兆升,胡坚明.中国智能公共交通系统框架与实施方案研究.交通运输系统工程与信息.2001,(1):39-43.
[8]郭俊亮.公共汽车智能车载设备的开发研究:(硕士学位论文).北京:北京交通大学,2007.
[9]T.B. Fleming, S. F. Midkiff, N.J. Davis. lmproving the Performance of the World Wide Web over Wireless Networks. Proceeding of IEEE GLOBECOM, 1997:16-19.
[10]J.R. Perkins, P.R. Kumax. Stable Distributed real-time Scheduling of Flexible Manufacturing System IEEE Trans Automat Control, 1989: 139-148.
[11]张海,范耀祖.无线通信技术在ITS中的应用.北京:中国铁道出版社,2006.
[12]SA68D21DL使用说明书.北京捷麦通讯公司.
[13]段锐,王豪才.防数据碰撞的无线呼叫系统设计.单片机与嵌入式系统应用.2004,(02):53-56.
[14]聂光义.点对多点的多任务无线通信.电子质量.2003,(4):24-26.
[15]胡伍生等.GPS测量原理及其应用.北京:人民交通出版社,2002.
[16]唐荣欣,GPS/INS组合导航系统设计及滤波算法研究(硕士论文),武汉大学,2003.11-42.
[17]Per Enge,Scanning the Issue Technology Proceeding of The IEEE.VOL87 No.1 JANUARY 1999.5-15.
[18]王惠南.GPS导航原理与应用.北京:科学出版社,2003.
[19]刘建新.利用行车记录仪消除GPS的“盲区”.中国智能交通,2003.
[20]秦永元,张洪斌,王淑华等.卡尔曼滤波与组合导航原理.西安:西北工业大学出版社,1998.
[21]方珉,刘星荣.GPS技术、惯性导航技术和组合导航技术在汽车导航中的应用.汽车技术.2002,(5):1-5.
[22]王志纲.GPS/DR组合导航系统在车辆定位中的应用.武汉大学学报.2004,29:97-98.
[23]袁焱.基于行驶路程的公交车定位问题求解.测控技术.2005,(9):65-68.
[24]孙林祥,房坚.城市轨道交通的列车定位技术.电子工程师.2002,28(7):28-30.
[25]宋庆军.智能车速里程表的单片机实现.机电产品开发与创新.2006,19(4):54-55.
[26]张淑英.传感器原理及应用.天津:天津大学出版社,2007.
[27]郑发农.电子式车速里程表.自动化仪表.2006,21(6):19-20.
[28]沙占友.集成化智能传感器原理与应用.北京:电子工业出版社,2004.
[29]朱晓宏等.公交客流信息采集的方法与技术.城市公共交通.2005,(7):20-21.
[30]王化祥.传感器原理及应用.天津:天津大学出版社,2004.
[31]王幸之等.AT89系列单片机原理与接口技术.北京:北京航空航天大学出版社,2004.
[32]林占江,林放.单片计算机电源设计技术.电源技术应用.2000,3(8):421-423.
[33]李朝青.单片机原理及接口技术.北京:北京航空航天大学出版社,2005.
[34]田会方,张洪昌.计算机汉字库开发液晶汉字显示数据的方法.武汉理工大学学报.2005,27(4):83-86.
[35]黄长杰,包文俊.液晶显示器汉字字模存储方法.安徽建筑.2006,13(4):166-168.
[36]MGLS-240128E使用说明书.香港精电公司.
[37]陆晓峰,孙兵.点阵图形液晶显示模块HG25501的应用.电子技术应用.1998,(4):55-59.
[38]唐明道.ISD系列单片语音录放集成电路.国外电子元器件.1996,(7):2-6.
[39]王高.一种基于嵌入式实时操作系统的CPU架构.微型机与应用.2005,24(6):19-22.
[40]盛焕鸣,李广弟.单片机系统微机化开发常用软件.北京:北京航空航天大学出版社,1992.
[41]胡大可.基于单片机8051的嵌入式开发指南.北京:电子工业出版社,2003.
[42]张培仁.基于C语言编程MCS-51单片机原理与应用.北京:清华大学出版社,2003.
[43]徐爱钧,彭秀华.单片机高级语言C51Windows环境编程与应用.北京:电子工业出版社,2001.
[44]SED 1335 Seri es.SEIKO EPSON CORPORATION.
[45]杨将新等.单片机程序设计及应用从基础到实践.北京:电子工业出版社,2006.
[46]王幸之等.单片机应用系统电磁干扰与抗干扰技术.北京:北京航空航天大学出版社,2006.
[2]刘镇阳等.城市智能公共交通系统.北京:中国铁道出版社,2005.
[3]王丰元.智能公交系统技术及其功能.城市公共交通.2005,(6):39-40.
[4]石友服.美国智能交通的发展现状及规划.交通世界.2002,10(8):34-36.
[5]陆化普.日本智能公共交通系统的开发应用现状与展望.国外城市规划.1997,9(3):34-37.
[6]Department US of Transportation. FTA. Advanced Public Transportation Systems:The State of the Art Updated'98,1998.
[7]杨兆升,胡坚明.中国智能公共交通系统框架与实施方案研究.交通运输系统工程与信息.2001,(1):39-43.
[8]郭俊亮.公共汽车智能车载设备的开发研究:(硕士学位论文).北京:北京交通大学,2007.
[9]T.B. Fleming, S. F. Midkiff, N.J. Davis. lmproving the Performance of the World Wide Web over Wireless Networks. Proceeding of IEEE GLOBECOM, 1997:16-19.
[10]J.R. Perkins, P.R. Kumax. Stable Distributed real-time Scheduling of Flexible Manufacturing System IEEE Trans Automat Control, 1989: 139-148.
[11]张海,范耀祖.无线通信技术在ITS中的应用.北京:中国铁道出版社,2006.
[12]SA68D21DL使用说明书.北京捷麦通讯公司.
[13]段锐,王豪才.防数据碰撞的无线呼叫系统设计.单片机与嵌入式系统应用.2004,(02):53-56.
[14]聂光义.点对多点的多任务无线通信.电子质量.2003,(4):24-26.
[15]胡伍生等.GPS测量原理及其应用.北京:人民交通出版社,2002.
[16]唐荣欣,GPS/INS组合导航系统设计及滤波算法研究(硕士论文),武汉大学,2003.11-42.
[17]Per Enge,Scanning the Issue Technology Proceeding of The IEEE.VOL87 No.1 JANUARY 1999.5-15.
[18]王惠南.GPS导航原理与应用.北京:科学出版社,2003.
[19]刘建新.利用行车记录仪消除GPS的“盲区”.中国智能交通,2003.
[20]秦永元,张洪斌,王淑华等.卡尔曼滤波与组合导航原理.西安:西北工业大学出版社,1998.
[21]方珉,刘星荣.GPS技术、惯性导航技术和组合导航技术在汽车导航中的应用.汽车技术.2002,(5):1-5.
[22]王志纲.GPS/DR组合导航系统在车辆定位中的应用.武汉大学学报.2004,29:97-98.
[23]袁焱.基于行驶路程的公交车定位问题求解.测控技术.2005,(9):65-68.
[24]孙林祥,房坚.城市轨道交通的列车定位技术.电子工程师.2002,28(7):28-30.
[25]宋庆军.智能车速里程表的单片机实现.机电产品开发与创新.2006,19(4):54-55.
[26]张淑英.传感器原理及应用.天津:天津大学出版社,2007.
[27]郑发农.电子式车速里程表.自动化仪表.2006,21(6):19-20.
[28]沙占友.集成化智能传感器原理与应用.北京:电子工业出版社,2004.
[29]朱晓宏等.公交客流信息采集的方法与技术.城市公共交通.2005,(7):20-21.
[30]王化祥.传感器原理及应用.天津:天津大学出版社,2004.
[31]王幸之等.AT89系列单片机原理与接口技术.北京:北京航空航天大学出版社,2004.
[32]林占江,林放.单片计算机电源设计技术.电源技术应用.2000,3(8):421-423.
[33]李朝青.单片机原理及接口技术.北京:北京航空航天大学出版社,2005.
[34]田会方,张洪昌.计算机汉字库开发液晶汉字显示数据的方法.武汉理工大学学报.2005,27(4):83-86.
[35]黄长杰,包文俊.液晶显示器汉字字模存储方法.安徽建筑.2006,13(4):166-168.
[36]MGLS-240128E使用说明书.香港精电公司.
[37]陆晓峰,孙兵.点阵图形液晶显示模块HG25501的应用.电子技术应用.1998,(4):55-59.
[38]唐明道.ISD系列单片语音录放集成电路.国外电子元器件.1996,(7):2-6.
[39]王高.一种基于嵌入式实时操作系统的CPU架构.微型机与应用.2005,24(6):19-22.
[40]盛焕鸣,李广弟.单片机系统微机化开发常用软件.北京:北京航空航天大学出版社,1992.
[41]胡大可.基于单片机8051的嵌入式开发指南.北京:电子工业出版社,2003.
[42]张培仁.基于C语言编程MCS-51单片机原理与应用.北京:清华大学出版社,2003.
[43]徐爱钧,彭秀华.单片机高级语言C51Windows环境编程与应用.北京:电子工业出版社,2001.
[44]SED 1335 Seri es.SEIKO EPSON CORPORATION.
[45]杨将新等.单片机程序设计及应用从基础到实践.北京:电子工业出版社,2006.
[46]王幸之等.单片机应用系统电磁干扰与抗干扰技术.北京:北京航空航天大学出版社,2006.