野战油料联勤保障可视化系统设计与实现
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摘要
信息化战争油料保障信息具有数据量大、变化迅速和处理复杂等特点,如果依靠传统的信息采集、处理和决策模式,势必与我军所倡导的适时、适地、适量油料保障模式不相适应。为满足现代后勤对油料保障的要求,实现基于信息系统的可视化、精确化油料保障,综合应用北斗卫星定位导航、总线数据采集、军用无线通信、软件工程、数据库、地理信息和智能决策等技术和方法,开发了"野战油料联勤保障可视化系统",能够解决野战条件下轮式装备的位置和需油量实时感知、保密传输、动态监控和油料联勤保障决策等问题,用信息流引导油料保障的物资流和技术流,达到准确、及时、优化的油料保障目标。
The oil support information under the IT-based warfare has the characteristics of large data volume,rapid change and complex processing,if we rely on the traditional mode of information collection,processing and decision-making,it must not be suited to the oil support model that our army advocated with a appropriate time,appropriate location and appropriate quantity.In order to meet the modern logistical requirements for oil support,realize the visual and precise oil support based on the information system,Integrated use of the Beidou satellite positioning and navigation,bus data acquisition,military wireless communications,software engineering,databases,geographic information and intelligent decision-making,Developed the "visualization system for field joint logistics oil support ",to solve the real-time perception,confidential transmission,dynamic monitoring of wheeled equipment's location and oil demand under field conditions,and some other questions like the decision-making of joint logistics oil support. With the flow of information to guide the flow of material support and technology,to achieve accurate,timely and optimized oil support potency.
The oil support information under the IT-based warfare has the characteristics of large data volume,rapid change and complex processing,if we rely on the traditional mode of information collection,processing and decision-making,it must not be suited to the oil support model that our army advocated with a appropriate time,appropriate location and appropriate quantity.In order to meet the modern logistical requirements for oil support,realize the visual and precise oil support based on the information system,Integrated use of the Beidou satellite positioning and navigation,bus data acquisition,military wireless communications,software engineering,databases,geographic information and intelligent decision-making,Developed the "visualization system for field joint logistics oil support ",to solve the real-time perception,confidential transmission,dynamic monitoring of wheeled equipment's location and oil demand under field conditions,and some other questions like the decision-making of joint logistics oil support. With the flow of information to guide the flow of material support and technology,to achieve accurate,timely and optimized oil support potency.
引文
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[2]刘贵生.基于物联网的自动化物流设备开发应用研究[J].自动化与仪器仪表,2015,6:71-73.
[3]姚士成,刘学锋,毛建华.基于传感网的传感器感知信息可视化系统设计[J].电子测量技术,2015,1:95-99.
[4]徐占华,吕楠,邓剑锋.基于GIS的重庆市园林绿化管理信息平台研究[J].测绘,2013,8:163-166.
[5]周庆华,李曙光.基于GPS与GIS的动态交通信息估计研究[J].自动化与仪器仪表,2016,7:106-108.
[6]邓波.基于GPS与GIS集成技术在智能车载移动控制信息系统中的设计与实现[J].信息与电脑,2015(21):119-122.
[7]郑鹏,董伟,饶生源.基于GPS的车载定位导航接收系统的设计[J].汽车实用技术,2015(11):58-60.
[8]何凯凯,翟晓军,申晨.武警物资运输可视化研究[J].化学工程与装备,2016,2:160-162.
[9]黄虎龙,曹闯明,庄斯涵,章明,刘辉.移动GIS在天然气长输管道巡检中的应用[J].测绘与空间地理信息,2013,8:194-196.
[10]孙品一.信息可视化的应用研究[D].湖北工业大学,2016.
[11]邱均平,李小涛,董克.图情领域可视化研究的发展、演化与创新[J].图书情报工作,2014,(13):125-131.
[12]赵慧臣,王玥.我国思维可视化研究的回顾与展望——基于中国知网2003—2013年论文的分析[J].中国电化教育,2014,(04):10-17.
[13]赵慧臣,王淑艳.知识可视化应用于学科教学的新观点——访瑞士知识可视化研究开拓者马丁·爱普教授[J].开放教育研究,2014,(02):4-10.
[14]杨彦波,刘滨,祁明月.信息可视化研究综述[J].河北科技大学学报,2014,(01):91-102.
[15]刘继友.地质体三维可视化研究与应用[D].大庆石油学院,2005.