3G技术在森林火灾应急指挥中的应用研究
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摘要
本文根据森林火灾应急指挥的对数据的无线传输需求以及森林防火工作信息化发展现状和趋势,对3G技术在系统中的应用进行了研究。按照信息流程与业务需求,将现有的森林火灾应急指挥系统和规划中的视频监控、移动指挥车、无人飞机、视频会议、信息发布平台与3G技术进行整合、分析、设计,最终形成全新的基于3G技术的森林火灾应急指挥系统。
本研究通过对3G技术在森林火灾应急指挥中的应用研究,实现森林防火工作的高速无线传输,并对不同层面的通信设备进行3G网络的融合,解决了在森林防火信息工程中的信息发布不统一协调、监测图像处理不及时、无法实现数据信息共享和指挥过程滞后的问题。
本文主要做了如下工作:
(1)技术研究结合森林火灾应急指挥与3G技术,完成相应的理论准备,重点研究系统的体系结构、具体应用以及实现方法。
(2)明确信息需求森林火灾应急指挥工作信息需求量大,各种通信方式有各自的传输特点,根据不同的特点在指挥工作中进行有针对性的应用,能够达到事半功倍的效果,有助于系统的整合。
(3)3G技术在系统内的应用总体设计是对现有各平台和信息进行全新整合,着重考虑集成的结构、总体目标、设计的原则、总体要求、系统组成、数据管理、多媒体管理及控制管理。
(4)应用实现依据系统总体设计的要求,初步开发3G终端应用软件,阐述开发环境和开发工具,开发系统运行结构,简要展示软件的功能效果,并对其在森林火灾应急指挥中的作出评价。
由于森林火灾应急指挥是一项复杂的系统工程,涉及的运用面广,跨领域知识多,因此文中尚有不足之处,很多问题还需在实践过程中继续发现和补充。更深一步的研究还有待后续工作的开展。如何结合现代无线通信技术的特点,发展森林防火的事业任重而道远。
In this paper, in accordance with the work of forest fire emergency operation command, which demands wireless transmission of data, and the information technology development condition and trend in forest fire prevention work, make a research on the application of 3G technology in forest fire emergency operation command system. According to information flow and business requirements, integrating, analyzing, designing the existing system, and video surveillance, mobile command vehicle, pilotless aircraft, video conference, information publishing platform planning platform in the planning and construction, ultimately structure a creative forest fire emergency operation command system based on 3G technology.
By means of application research on 3G technology applied in forest fire emergency operation command, successfully achieve high speed wireless transmission of the work of forest fire prevention, integrate 3G network through different level communication devices, settle the problems, ranging from the released information lacking of unity and coordination in forest fire prevention system project, the delay of disposal on monitoring digital image, to not sharing with information and the delay of command.
In this paper, do the following work:
(1) Technology Research:Combing 3G technology with forest fire emergency operation command, complete the corresponding theoretical preparation, focuses on the integrated system architecture as well as specific application and implementation methods.
(2) Define information requirements:As the work of forest fire emergency operation command requires a huge quantity of information, and different communication system have different characteristics in transmission, conduct pertinence application according to their different characteristics, so as to attain the results with half effort, and also contribute to the integration of system
(3) The overall design for the system with 3G technology integrates with the existing platform and information, focusing on integrated structure, the overall objectives, design principles, general requirements, system components, data management, multi-media management and control of management.
(4) Implementing application:On the basis of the requirements of system design, initially develops 3Gterminal application software, clarifies the development environment and tools as well as development system operation structure, displays briefly the effect of software and makes evaluation while forest fire emergency operation command.
Since forest fire emergency operation command is a complex systematic project, involving the application of wide range of cross-subject knowledge, there are deficiencies in the paper, many problems have to be discovered and added. Deeper researches have to be carried out subsequently. Make use of the characteristics of modern wireless communication technology, developing the enterprise of forest fire prevention still takes heavy responsibility.
本研究通过对3G技术在森林火灾应急指挥中的应用研究,实现森林防火工作的高速无线传输,并对不同层面的通信设备进行3G网络的融合,解决了在森林防火信息工程中的信息发布不统一协调、监测图像处理不及时、无法实现数据信息共享和指挥过程滞后的问题。
本文主要做了如下工作:
(1)技术研究结合森林火灾应急指挥与3G技术,完成相应的理论准备,重点研究系统的体系结构、具体应用以及实现方法。
(2)明确信息需求森林火灾应急指挥工作信息需求量大,各种通信方式有各自的传输特点,根据不同的特点在指挥工作中进行有针对性的应用,能够达到事半功倍的效果,有助于系统的整合。
(3)3G技术在系统内的应用总体设计是对现有各平台和信息进行全新整合,着重考虑集成的结构、总体目标、设计的原则、总体要求、系统组成、数据管理、多媒体管理及控制管理。
(4)应用实现依据系统总体设计的要求,初步开发3G终端应用软件,阐述开发环境和开发工具,开发系统运行结构,简要展示软件的功能效果,并对其在森林火灾应急指挥中的作出评价。
由于森林火灾应急指挥是一项复杂的系统工程,涉及的运用面广,跨领域知识多,因此文中尚有不足之处,很多问题还需在实践过程中继续发现和补充。更深一步的研究还有待后续工作的开展。如何结合现代无线通信技术的特点,发展森林防火的事业任重而道远。
In this paper, in accordance with the work of forest fire emergency operation command, which demands wireless transmission of data, and the information technology development condition and trend in forest fire prevention work, make a research on the application of 3G technology in forest fire emergency operation command system. According to information flow and business requirements, integrating, analyzing, designing the existing system, and video surveillance, mobile command vehicle, pilotless aircraft, video conference, information publishing platform planning platform in the planning and construction, ultimately structure a creative forest fire emergency operation command system based on 3G technology.
By means of application research on 3G technology applied in forest fire emergency operation command, successfully achieve high speed wireless transmission of the work of forest fire prevention, integrate 3G network through different level communication devices, settle the problems, ranging from the released information lacking of unity and coordination in forest fire prevention system project, the delay of disposal on monitoring digital image, to not sharing with information and the delay of command.
In this paper, do the following work:
(1) Technology Research:Combing 3G technology with forest fire emergency operation command, complete the corresponding theoretical preparation, focuses on the integrated system architecture as well as specific application and implementation methods.
(2) Define information requirements:As the work of forest fire emergency operation command requires a huge quantity of information, and different communication system have different characteristics in transmission, conduct pertinence application according to their different characteristics, so as to attain the results with half effort, and also contribute to the integration of system
(3) The overall design for the system with 3G technology integrates with the existing platform and information, focusing on integrated structure, the overall objectives, design principles, general requirements, system components, data management, multi-media management and control of management.
(4) Implementing application:On the basis of the requirements of system design, initially develops 3Gterminal application software, clarifies the development environment and tools as well as development system operation structure, displays briefly the effect of software and makes evaluation while forest fire emergency operation command.
Since forest fire emergency operation command is a complex systematic project, involving the application of wide range of cross-subject knowledge, there are deficiencies in the paper, many problems have to be discovered and added. Deeper researches have to be carried out subsequently. Make use of the characteristics of modern wireless communication technology, developing the enterprise of forest fire prevention still takes heavy responsibility.
引文
[1]王正非.用现代科学技术科学管理林火[J].森林防火,1986.1:23~25.
[2]舒立福,田晓瑞.国外森林防火工作研究现状及展望[J].世界林业研究.1997(2):28-35.
[3]王金海,闰厚.浅谈森林防火网络管理的安全策略[J].森林防火,2002,2:42-44.
[4]王海晖,朱雾平等.林火行为预测预报专家系统[J].自然灾害学报,1994,3(4):103-109.
[5]王海晖.森林地表火蔓延的计算机模拟[J].中国科学技术大学学报1994,24(3):305-310.
[6]文新东.如何建立森林防州言息网站[J].森林防火,2003,1:28~29.
[7]文新东.国外森林防火网址介绍[J].世界林业研究2001,4:56-57.
[8]冯金凯,杨宝金.林火控制能力评价的应用[J].森林防火.1992.2:16-18.
[9]边馥等.GIS地理信息系统原理和方法[M].北京:测绘出版社,1990.2:56~58.
[10]乔启宇.水灭火森林消防设备系统的研究[J].北京林业大学学报,2002,2:24~25.
[11]曹淑敏.第三代移动通信的发展现状及分析[J].电信网技术,2009,(04):20-22
[12]邬伦.地理信息系统—原理、方法和应用[M].北京:科学出版社,2000:241-246.
[13]张琳等.网络组建、管理与安全[M].人民邮电出版社.2001:89~90.
[14]邱扬.森林植被的自然火干扰[J].生态学杂志,1998,17(1):54~60.
[15]雷震洲.从3G看移动宽带服务[J].中国数据通信,2002,(05):34~36.
[16]Nobel, etc.Mcartherta fire-danger meter expressed as equation[J], Australian journal of Ecology,1999,5(4):201~209
[17]Richard C.Rothermel a mathematical model for predicting fire spread in wild land fuels. USDA:Forest Service Research Paper:INT-115,2005:58~60.
[18]George L M Perry, Ashley D Sparrow, Lan F Owens. A Gis-supported model for the simulation of the spatial structure of wild land fire Cass Basin, New Zealand. Journal of Applied Ecology,1999,36:502~510.
[19]Francis M.F.Uioka. Estimating Wild land fire rate of spread in a spatially no uniform environment Forest Sci.1985:26~27.
[20]IUFRO. remote sening and permanent plot techniques for world forest monitoring.proceedings of the IUFRO[M], Thailand,1992:89~91.
[21]feng lu, etc. study on rural agriforesty planning using remote sening and GIS technology in tropical forest nature reserve [A]. first international conference geospatial information in agriculture and foresty.USA,1998:14~16.
[22]Erdas, O.Gumus.the use of GIS in selecting forest road routes[J].Turkish journal of agriculture &forestry.2000.05:22~24.
[23]Robert J.Whelan.The Ecology of Fire. Cambridge University Press.1995.72~81.
[24]Fung T, Siu W. Environmental quality and its changes, an analysis using NDVI[J]. International Journal of Remote Sensing,2000.05:78~80.
[25]George L M Perry, Ashley D Sparrow, Lan F Owens.A Gis-supported model for the simulation of the spatial structure of wild land fireCassBasin, New Zealand. Journal of Applied Ecology,1999,36:502~510.
[26]Andrews P L. Fire Behavior Prediction and Fuel Modeling System BURN Subsystem.USDA Forest Service Intermountain Forest and Range Experiment Station General Technical Report.1986:189~194.
[27]Mohammad Al-Abe.Application of GIS and remote sensing in soil degradation assessments in the Syrian coas [J].Journal of Zhejiang University2000.06:56~ 58.
[28]Daniel D.Corkill.Blaekboard Systems, AI Expert[M],1991 Vol.6, No.9,40-46
[29]刘南,刘仁义.地理信息系统[M].高等教育出版社,2004:64-66.
[30]任丰原,黄海宁.林闯无线传感器网络[J].软件学报,2003:14(7)87-89.
[31]王庆有.图像传感器应用技术[M].北京:电子工业出版社,2003(9)45~47.
[32]森林防火的数字时代.中国森林防火网,2006.24-36.
[33]黄智伟.无线数字手法电路设计[M].北京:电子工业出版社,2003.5:23~25
[34]郑焕能.森林防火[M].哈尔滨:东北林业大学出版社,1994:65-67.
[35]杨喜军.森林防火学专论[M].哈尔滨:东北林业大学出版社,2003.4:97-100.
[36]Jha, A.R著.红外技术应用[M].北京:化学工业出版社,2004.8:54~56.
[37]静海.深入Delphi网络编程[M].北京:中国铁道出版社,2001.15-23.
[38]徐永龙.数字高程模型理论的应用及其发展[J].武测科技,1998,(3):42~49.
[39]严蔚敏,吴伟民.数据结构[M].北京:清华大学出版社,2000:186-192.
[40]王翠茹.数据结构[M].天津:天津科学技术出版社,2000:158-163.
[41]郝世慧,于丰年,李军.现代通讯条件下通化市森林防火无线电通讯二级网的建设思路与探讨[J].吉林林业科技.2001.30(1):43~45.
[42]邬伦.森林火灾现场视频图像传输方案研究[J].地理信息界,2004,2(4):40-44.
[43]柯颖智.数字视频监控技术[J].现代电视技术,2004(06):152-157.
[44]黄柏霞.森林防火远程图像监控系统的实现[J].中国安防产品信息,2004(01):56~57.
[45]刘海燕,续飞.流媒体技术及其在远程监控中的应用[J].安防技,2003(08):57~58.
[46]张玉凤.简述视频监控系统的发展历程[J].铁路通信信号工程技术,2006,3:43-58
[47]朱得旭.数字监控的新秀-移动视频监控技术及其应用[J].安防科技,2005(05):60-62.
[48]张素文,付薇,刘明兰.嵌入式视频图像传输系统的设计与实现[J].微计算机信息,2007.23(3):22-24.
[49]李光辉,赵军,王智.基于无线传感器网络的森林火灾监测预警系统[J].传感技术学报,2006.19(6):271-276.
[50]透视3G市场最终用户需求[J].电子质量,2009,(05):23-25.
[51]沈玲.即将来临的第三代移动通信系统[J].电子工程师,2000,(12):22~25.
[52]李兆明.福建省森林火险天气等级预报方法[J],福建省林学院学报,1989(2):92-94.
[53]段秀美.801森林火险天气预报方法讨论[J].气象,1988(1):26~28.
[54]甘孜州气象局.甘孜州森林着火蔓延危险等级预防系统[J].森林防火1989(3):30-37.
[55]文定元.森林防火基础知识[M].北京:中国林业出版社,1995,4(3):23~25
[56]蒋礼等.火初期蔓延的分形模型[J].火灾科学,1994,3(1):21~24.
[57]胡振武,郭亚民,石萱.森林防火学[M].黑龙江省科技出版社.1990.65~67.
[58]程亚男.森林火灾经济损失评估研究[J].森林防火.2001,(4):38~43.
[59]张元教.基于GIS的空间决策支持系统理论及其应用[D].南京:河海大学图书馆.
[60]文定元.林火理论知识[M].哈尔滨:东北林业大学出版社,1999,10:8-11.
[61]李福利.通用森林火险等级系统的计算机实现.林业科技[J],1991(3):27~29.
[62]关百钧,施昆山.森林可持续发展研究综述[J].林业世界研究,1995.8(4):1~6.
[63]侯元兆.全球森林保护的问题及趋势[J].世界林业研究,1992(1):1-6.
[64]李际平,黄山如等,林业系统工程基础[M].国防科技大学出版社,2006,9-15
[65]寇文正.林火管理信息系统[M].中国林业出版社,1993.第一版:125~127.
[66]周生贤,论我国林业的跨越式发展[J],林业经济,2001,(6):3-7
[67]安国善,魏西发.最佳扑火路线的选择[J].森林防火.1992:21-22.
[68]何瑞珍,基于GIS林业管理信息系统研究[D],河南农业大学,2004,2.
[69]苏顺等,森林资源类清查信息管理系统[J].森林工程,1998(4):11~19.
[70]John R. Schermerhorn, Theory of Mangement[M].Version 2, Computer Science Press 1982:13-14.
[71]励龙昌,陈大钊,森林资源管理系统设计[J],华东森林经理,1998,12(2):6-9.
[72]张光海.移动通信技术的发展[J].电信建设,2002,(02):35~37.
[73]杨毅刚.3G发展趋势展望[J].电信建设,2007,(02):21-24.
[74]赵夙,尤肖虎.国外第三代移动通信进展[J].电信工程技术与标准化,2007,(03):36-38.
[75]马国瀚, 张恂, 梁勇.第三代移动通信系统的主流体制和关键技术[J].黄河水利职业技术学院学报,2008,(03):43-46.
[76]李世鸿,李方伟.3G移动通信中的安全改进[J].重庆邮电学院学报(自然科学版),2009,(04):12-14.
[77]陈海棠,余章坤TD-SCDMA产业化还需什么?[J].通信世界,2006, (03):56-57.
[78]罗凌,焦元媛,陆冰.第三代移动通信技术与业务[M].北京:人民邮电出版社,2008:36-76.
[79]Prasad.宽带CDMA:第三代移动通信技术[M].北京:人民邮电出版社,2009.87-99.
[80]华为技术有限公司著.WCDMA系统原理与规划建设培训,2005:49~67.
[81]张长刚,孙保红等.无线网络规划原理与实践[M].北京:人民邮电出版社,2005.32-59.
[82]郭东亮等著WCDMA规划设计手册[M].北京:人民邮电出版社,2007.45~73.
[83]中兴通讯CDMA网络规划与优化.编写CDMA网络规划与优化[M].北京:电子工业出版社,2005.56-103.
[84]张元教.基于GIS的空间决策支持系统理论及其应用[D].南京:河海大学图书馆.
[85]文定元,舒立福.林火理论知识[M].哈尔滨:东北林业大学出版社,1999,10:48~49.
[86]Nobel, etc.Mcartherta.fire—danger meter expressed as equateon、Australian journal of Ecology,2003,5(4):201~203.
[87]李福利.通用森林火险等级系统的计算机实现.林业科技[J],2001(3):27~29.
[88]郑人杰,殷人昆,陶永雷.实用软件工程(第二版)[M].北京:清华大学出版社,2003:31-39.
[89]刘勇卫,贺雪鸿译.遥感精解[M].北京:测绘出版社,1993:21-27.
[90]Andrews P L. Fire Behavior Prediction and Fuel Modeling System BURN Subsystem. USDA Forest Service Intermountain Forest and Range Experiment Station General Technical Report.2006:189~194.
[91]杜兴信.自然灾害的自相似性质.灾害学[J].1995(2):13~25.
[92]熊晓芸.基于GIS的林火扑救决策支持系统[J].华东交通大学学报,2004(5):15-18.
[93]陈端吕.基于GIS技术的森林经营优化与辅助决策系统[D].湖南:中南林学院,2001:23-25.
[94]邬伦.地理信息系统-原理、方法和应用[M].北京:科学出版社,2000:241-246.
[95]Emilo Chuvieco. Application of remote sensing and geographic information system to forest fire hazard,, mapping, remote sens environ,1989.147~ 159.
[96]Yue Hong Chou. Management of wildfire with a geographical information system. Int J Geographical Information System,1992,6:123-140.
[97]高洪深.决策支持系统(DSS)理论方法案例[M].北京:清华大学出版社2000:97-100.
[98]张志贤,张立顺,张玉珊.GPS在森林防火信息决策系统中的应用[J].林业科技.1996:6-32.
[99]林业部森林防火办公室编.森林火灾扑救与指挥[M].北京:中国林业出版社,1996:42-56.
[100]修俊儇 齐宗恕.GPS在林火扑救中的应用[J].森林防火.1997:23~35.
[101]马建梅.3S技术在土地资源管理与决策中的应用[J].西北农林科技大学学报,2001,1(3):38~41.
[102]姚树人译.火灾模型和辅助决策系统的现代发展.森林防火[J],1994(12):59-62.
[103]薄颖生,韩恩贤,韩刚,等.森林火灾自相似性质及其在林火管理中的应用研究初探.森林防火[J],1997(3):20~22.
[104]王劲松.决策支持系统中模型的研究[J]科技与管理,2006,(03):24-29.
[105]杨建强.无线Java安全研究[D].中国优秀博硕士学位论文全文数据库(硕士),2005,(02).
[2]舒立福,田晓瑞.国外森林防火工作研究现状及展望[J].世界林业研究.1997(2):28-35.
[3]王金海,闰厚.浅谈森林防火网络管理的安全策略[J].森林防火,2002,2:42-44.
[4]王海晖,朱雾平等.林火行为预测预报专家系统[J].自然灾害学报,1994,3(4):103-109.
[5]王海晖.森林地表火蔓延的计算机模拟[J].中国科学技术大学学报1994,24(3):305-310.
[6]文新东.如何建立森林防州言息网站[J].森林防火,2003,1:28~29.
[7]文新东.国外森林防火网址介绍[J].世界林业研究2001,4:56-57.
[8]冯金凯,杨宝金.林火控制能力评价的应用[J].森林防火.1992.2:16-18.
[9]边馥等.GIS地理信息系统原理和方法[M].北京:测绘出版社,1990.2:56~58.
[10]乔启宇.水灭火森林消防设备系统的研究[J].北京林业大学学报,2002,2:24~25.
[11]曹淑敏.第三代移动通信的发展现状及分析[J].电信网技术,2009,(04):20-22
[12]邬伦.地理信息系统—原理、方法和应用[M].北京:科学出版社,2000:241-246.
[13]张琳等.网络组建、管理与安全[M].人民邮电出版社.2001:89~90.
[14]邱扬.森林植被的自然火干扰[J].生态学杂志,1998,17(1):54~60.
[15]雷震洲.从3G看移动宽带服务[J].中国数据通信,2002,(05):34~36.
[16]Nobel, etc.Mcartherta fire-danger meter expressed as equation[J], Australian journal of Ecology,1999,5(4):201~209
[17]Richard C.Rothermel a mathematical model for predicting fire spread in wild land fuels. USDA:Forest Service Research Paper:INT-115,2005:58~60.
[18]George L M Perry, Ashley D Sparrow, Lan F Owens. A Gis-supported model for the simulation of the spatial structure of wild land fire Cass Basin, New Zealand. Journal of Applied Ecology,1999,36:502~510.
[19]Francis M.F.Uioka. Estimating Wild land fire rate of spread in a spatially no uniform environment Forest Sci.1985:26~27.
[20]IUFRO. remote sening and permanent plot techniques for world forest monitoring.proceedings of the IUFRO[M], Thailand,1992:89~91.
[21]feng lu, etc. study on rural agriforesty planning using remote sening and GIS technology in tropical forest nature reserve [A]. first international conference geospatial information in agriculture and foresty.USA,1998:14~16.
[22]Erdas, O.Gumus.the use of GIS in selecting forest road routes[J].Turkish journal of agriculture &forestry.2000.05:22~24.
[23]Robert J.Whelan.The Ecology of Fire. Cambridge University Press.1995.72~81.
[24]Fung T, Siu W. Environmental quality and its changes, an analysis using NDVI[J]. International Journal of Remote Sensing,2000.05:78~80.
[25]George L M Perry, Ashley D Sparrow, Lan F Owens.A Gis-supported model for the simulation of the spatial structure of wild land fireCassBasin, New Zealand. Journal of Applied Ecology,1999,36:502~510.
[26]Andrews P L. Fire Behavior Prediction and Fuel Modeling System BURN Subsystem.USDA Forest Service Intermountain Forest and Range Experiment Station General Technical Report.1986:189~194.
[27]Mohammad Al-Abe.Application of GIS and remote sensing in soil degradation assessments in the Syrian coas [J].Journal of Zhejiang University2000.06:56~ 58.
[28]Daniel D.Corkill.Blaekboard Systems, AI Expert[M],1991 Vol.6, No.9,40-46
[29]刘南,刘仁义.地理信息系统[M].高等教育出版社,2004:64-66.
[30]任丰原,黄海宁.林闯无线传感器网络[J].软件学报,2003:14(7)87-89.
[31]王庆有.图像传感器应用技术[M].北京:电子工业出版社,2003(9)45~47.
[32]森林防火的数字时代.中国森林防火网,2006.24-36.
[33]黄智伟.无线数字手法电路设计[M].北京:电子工业出版社,2003.5:23~25
[34]郑焕能.森林防火[M].哈尔滨:东北林业大学出版社,1994:65-67.
[35]杨喜军.森林防火学专论[M].哈尔滨:东北林业大学出版社,2003.4:97-100.
[36]Jha, A.R著.红外技术应用[M].北京:化学工业出版社,2004.8:54~56.
[37]静海.深入Delphi网络编程[M].北京:中国铁道出版社,2001.15-23.
[38]徐永龙.数字高程模型理论的应用及其发展[J].武测科技,1998,(3):42~49.
[39]严蔚敏,吴伟民.数据结构[M].北京:清华大学出版社,2000:186-192.
[40]王翠茹.数据结构[M].天津:天津科学技术出版社,2000:158-163.
[41]郝世慧,于丰年,李军.现代通讯条件下通化市森林防火无线电通讯二级网的建设思路与探讨[J].吉林林业科技.2001.30(1):43~45.
[42]邬伦.森林火灾现场视频图像传输方案研究[J].地理信息界,2004,2(4):40-44.
[43]柯颖智.数字视频监控技术[J].现代电视技术,2004(06):152-157.
[44]黄柏霞.森林防火远程图像监控系统的实现[J].中国安防产品信息,2004(01):56~57.
[45]刘海燕,续飞.流媒体技术及其在远程监控中的应用[J].安防技,2003(08):57~58.
[46]张玉凤.简述视频监控系统的发展历程[J].铁路通信信号工程技术,2006,3:43-58
[47]朱得旭.数字监控的新秀-移动视频监控技术及其应用[J].安防科技,2005(05):60-62.
[48]张素文,付薇,刘明兰.嵌入式视频图像传输系统的设计与实现[J].微计算机信息,2007.23(3):22-24.
[49]李光辉,赵军,王智.基于无线传感器网络的森林火灾监测预警系统[J].传感技术学报,2006.19(6):271-276.
[50]透视3G市场最终用户需求[J].电子质量,2009,(05):23-25.
[51]沈玲.即将来临的第三代移动通信系统[J].电子工程师,2000,(12):22~25.
[52]李兆明.福建省森林火险天气等级预报方法[J],福建省林学院学报,1989(2):92-94.
[53]段秀美.801森林火险天气预报方法讨论[J].气象,1988(1):26~28.
[54]甘孜州气象局.甘孜州森林着火蔓延危险等级预防系统[J].森林防火1989(3):30-37.
[55]文定元.森林防火基础知识[M].北京:中国林业出版社,1995,4(3):23~25
[56]蒋礼等.火初期蔓延的分形模型[J].火灾科学,1994,3(1):21~24.
[57]胡振武,郭亚民,石萱.森林防火学[M].黑龙江省科技出版社.1990.65~67.
[58]程亚男.森林火灾经济损失评估研究[J].森林防火.2001,(4):38~43.
[59]张元教.基于GIS的空间决策支持系统理论及其应用[D].南京:河海大学图书馆.
[60]文定元.林火理论知识[M].哈尔滨:东北林业大学出版社,1999,10:8-11.
[61]李福利.通用森林火险等级系统的计算机实现.林业科技[J],1991(3):27~29.
[62]关百钧,施昆山.森林可持续发展研究综述[J].林业世界研究,1995.8(4):1~6.
[63]侯元兆.全球森林保护的问题及趋势[J].世界林业研究,1992(1):1-6.
[64]李际平,黄山如等,林业系统工程基础[M].国防科技大学出版社,2006,9-15
[65]寇文正.林火管理信息系统[M].中国林业出版社,1993.第一版:125~127.
[66]周生贤,论我国林业的跨越式发展[J],林业经济,2001,(6):3-7
[67]安国善,魏西发.最佳扑火路线的选择[J].森林防火.1992:21-22.
[68]何瑞珍,基于GIS林业管理信息系统研究[D],河南农业大学,2004,2.
[69]苏顺等,森林资源类清查信息管理系统[J].森林工程,1998(4):11~19.
[70]John R. Schermerhorn, Theory of Mangement[M].Version 2, Computer Science Press 1982:13-14.
[71]励龙昌,陈大钊,森林资源管理系统设计[J],华东森林经理,1998,12(2):6-9.
[72]张光海.移动通信技术的发展[J].电信建设,2002,(02):35~37.
[73]杨毅刚.3G发展趋势展望[J].电信建设,2007,(02):21-24.
[74]赵夙,尤肖虎.国外第三代移动通信进展[J].电信工程技术与标准化,2007,(03):36-38.
[75]马国瀚, 张恂, 梁勇.第三代移动通信系统的主流体制和关键技术[J].黄河水利职业技术学院学报,2008,(03):43-46.
[76]李世鸿,李方伟.3G移动通信中的安全改进[J].重庆邮电学院学报(自然科学版),2009,(04):12-14.
[77]陈海棠,余章坤TD-SCDMA产业化还需什么?[J].通信世界,2006, (03):56-57.
[78]罗凌,焦元媛,陆冰.第三代移动通信技术与业务[M].北京:人民邮电出版社,2008:36-76.
[79]Prasad.宽带CDMA:第三代移动通信技术[M].北京:人民邮电出版社,2009.87-99.
[80]华为技术有限公司著.WCDMA系统原理与规划建设培训,2005:49~67.
[81]张长刚,孙保红等.无线网络规划原理与实践[M].北京:人民邮电出版社,2005.32-59.
[82]郭东亮等著WCDMA规划设计手册[M].北京:人民邮电出版社,2007.45~73.
[83]中兴通讯CDMA网络规划与优化.编写CDMA网络规划与优化[M].北京:电子工业出版社,2005.56-103.
[84]张元教.基于GIS的空间决策支持系统理论及其应用[D].南京:河海大学图书馆.
[85]文定元,舒立福.林火理论知识[M].哈尔滨:东北林业大学出版社,1999,10:48~49.
[86]Nobel, etc.Mcartherta.fire—danger meter expressed as equateon、Australian journal of Ecology,2003,5(4):201~203.
[87]李福利.通用森林火险等级系统的计算机实现.林业科技[J],2001(3):27~29.
[88]郑人杰,殷人昆,陶永雷.实用软件工程(第二版)[M].北京:清华大学出版社,2003:31-39.
[89]刘勇卫,贺雪鸿译.遥感精解[M].北京:测绘出版社,1993:21-27.
[90]Andrews P L. Fire Behavior Prediction and Fuel Modeling System BURN Subsystem. USDA Forest Service Intermountain Forest and Range Experiment Station General Technical Report.2006:189~194.
[91]杜兴信.自然灾害的自相似性质.灾害学[J].1995(2):13~25.
[92]熊晓芸.基于GIS的林火扑救决策支持系统[J].华东交通大学学报,2004(5):15-18.
[93]陈端吕.基于GIS技术的森林经营优化与辅助决策系统[D].湖南:中南林学院,2001:23-25.
[94]邬伦.地理信息系统-原理、方法和应用[M].北京:科学出版社,2000:241-246.
[95]Emilo Chuvieco. Application of remote sensing and geographic information system to forest fire hazard,, mapping, remote sens environ,1989.147~ 159.
[96]Yue Hong Chou. Management of wildfire with a geographical information system. Int J Geographical Information System,1992,6:123-140.
[97]高洪深.决策支持系统(DSS)理论方法案例[M].北京:清华大学出版社2000:97-100.
[98]张志贤,张立顺,张玉珊.GPS在森林防火信息决策系统中的应用[J].林业科技.1996:6-32.
[99]林业部森林防火办公室编.森林火灾扑救与指挥[M].北京:中国林业出版社,1996:42-56.
[100]修俊儇 齐宗恕.GPS在林火扑救中的应用[J].森林防火.1997:23~35.
[101]马建梅.3S技术在土地资源管理与决策中的应用[J].西北农林科技大学学报,2001,1(3):38~41.
[102]姚树人译.火灾模型和辅助决策系统的现代发展.森林防火[J],1994(12):59-62.
[103]薄颖生,韩恩贤,韩刚,等.森林火灾自相似性质及其在林火管理中的应用研究初探.森林防火[J],1997(3):20~22.
[104]王劲松.决策支持系统中模型的研究[J]科技与管理,2006,(03):24-29.
[105]杨建强.无线Java安全研究[D].中国优秀博硕士学位论文全文数据库(硕士),2005,(02).
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