信息技术是当今世界发展最快的高新技术, 它正推动着全球经济朝着以计算机及信息网络为基础的信息化方向发展。农业信息化已成为现代农业的重要标志。我国农业开始从传统农业向现代农业转变, 信息技术目前被广泛应用在农业各个领域,一、信息技术信息技术是应用信息科学的原理和方法, 同信息打交道,以扩展人类信息器官的功能的技术。它集通信( C om m unication)、计算机( C om puter) 和控制( C ontrol) 技术于一体, 国外又称之为“3C ”技术, 其内容包括信息接受技术、信息传递技术、信息处理技术及信息控制技术。信息技术的四大内容中, 信息传递技术和信息处理技术是整个信息技术的核心,而信息接受技术、信息控制技术是核心与外部世界的接口,四者构成一个完整的功能体系, 并与人的信息器官及其功能系统相对应。其内容互相综合, 已形成多项应用开发技术, 如数据库技术、人工智能、专家系统、遥感技术、地理信息系统、全球定位系统、计算机辅助决策系统、自动控制技术、多媒体技术、计算机网络技术等, 它们渗透到农业的各个方面, 充分展示了信息技术强大的生命力和广阔的应用前景。二、信息技术在农业中的主要应用(一)对农情的监测。农情监测的主要任务是监测耕地的变化、粮棉作物的面积、长势、灾害与产量。由于信息技术的发展,“3S”技术( 遥感技术, 地理信息系统, 全球定位系统) 已应用于国家和全球尺度的农情监测。1、自然灾害监测。在G IS 技术支持下, 可实现对遥感获取的灾情信息与地面现实信息的有机结合, 进行干旱、洪涝、森林灾情、雪灾、水土侵蚀、病虫害等方面的动态监测。由于遥感与地理信息技术能及时准确地获取有关信息, 已广泛应用于信息采集和信息处理, 实现灾前预警、灾情监控、灾后评估。目前我国主要用于洪灾、作物病虫灾害、旱灾、土地荒芜沙化监测、森林火灾等。2、农业估产及生长动态监测。信息技术在农业生产中的应用主要在四个方面, 即作物生长模拟模型、农业专家系统、农业生产实时控制系统及作物遥感估产。作物生长模拟是利用专业知识和数学模型, 通过计算机分析模拟作物生长过程, 协助解决多样化和不确定问题, 作物估产(含生长势监测)历来就是人们十分关注的农业情报。美国于1975- 1979 年完成了大面积作物清查试验(LA C I 计划), 并在国内推行以Landsat的T M 资料为基础的面积框图抽样遥感估产取得成功。我国于1983- 1985 年就应用Landsat资料进行了小麦遥感综合测产研究。专家系统是以知识为基础, 在特定问题领域内能像人类专家那样解决复杂现实问题的计算机系统。我国自80 年代开始, 已研制出近40 种专家系统, 如砂礓黑土小麦施肥专家系统, 水稻主要病虫害诊治专家系统, 小麦、玉米、桑蚕品种选育专家系统, 农业气象专家系统等。农业生产实时控制系统主要用于灌溉, 耕耘作业, 果实收获, 畜牧生产过程自动控制, 农产品加工自动化控制及农业生产工厂化。我国还利用遥感与地理信息系统技术, 研制出耕地变化监测系统, 棉花种植面积遥感调查系统, 作物产量气候分析预报系统, 作物短、中、长期预报模型, 小麦、水稻遥感估产信息系统等。这些成果的实用化将极大地推动我国农业生产管理的现代化、信息化。3、农业环境监测。随着人口的增长, 人类对资源的掠夺式的开发, 造成了严重的环境问题, 影响了农业生产。信息技术快速查清各类农业资源及其分布, 了解和掌握环境状况; 对有限的农业资源及环境变化进行有效监测; 预测各种措施对农业资源及环境带来的可能影响, 实现资源合理开发利用,保护生态环境。(二)农产品质量检测。我国加入W T O 后, 农产品面临着国际化竞争, 农产品能否进入国际市场, 取决于产品品质的好坏, 因此, 农产品品质的检测就显得非常重要。1995 年美国成功研制出M erling 高速高频计算机视觉水果分级系统, 用于苹果、梨、桃等的水果的分等定级和品质监测。我国农业工作者为了提高农产品质量, 应用现代信息技术致力于产品品质检测系统的研究, 这些系统的研究与应用能够及时地检测产品品质质量指标, 分析模拟品质好坏。生产者根据这些信息及时地控制或调整化学肥料和农药的施用, 避免化肥和农药的不必要施用而造成在产品中的残留, 影响产品品质。(三)农地分等和土壤养分管理。农用地分等定级是对决定土壤生产力的内在属性和影响土壤生产力的外部环境条件进行综合评价, 用量化指标确定土地质量等级, 为制定有关农业政策、综合治理中、低土壤, 建立高产稳产田、促进农业持续、稳定和协调发展提供依据。G IS 强大的空间数据分析处理能力和制图功能为完成农用地分等提供了技术支持。(四)在管理和经营决策中的应用。我国正在抓紧建设国家公用数字通信网, 国家公用经济信息基干通信网等国家信息国道的建设, 全面实施" 金" 字工程。国家农业信息网络已具规模, 信息扶贫致富工程正在实施, 农业部自1994 年开始,在中国农业信息网的基础上, 逐步开发农产品产销信息系统网络, 这些网络的建成将改变我国农业信息服务体系的环境, 有利于各级政府部门对农业发展的宏观决策指导, 提高办公自动化水平, 快速准确向农村、农户提供全方位的信息服务。农户只要有一台微机终端, 通过网络就能够及时获得农业法规、农业政策、市场行情、产品销售等信息, 合理地进行农资购置与产品销售, 促进农村市场繁荣和经济增长。(五)在农业研究及技术推广中的应用。我国已建成农业科研项目计算机管理系统( A R IC M S) , 中国农业文献数据库,中国农业科技成果库, 中国农业研究项目数据库, 农业实用技术数据库等, 同时还引进了世界上几个最主要的农业数据库, 目前, 全世界建立了4 个大型的农业信息数据库, 即联合国粮农组织的农业数据库(A G R IS)、国际食物信息数据库(IFIS)、美国农业部农业联机存取数据库(A G R IC O LA )、国际农业与生物科学中心数据库(C A B I)。我国除引进以上世界大型数据库外, 自己建立了数十个农林数据库。这些数据库的运行和服务都取得了社会效益和经济效益, 为农业生产提供了大量农业信息资源和科学技术, 推动了生产的发展。三、我国信息技术在农业应用中存在的问题(一)农民文化素质低,高层农业信息技术开发人才缺乏,信息化意识和利用信息的能力不强。信息技术是一项高科技, 其开发应用需要高科技人才。由于农民的文化素质较低,农民对信息的利用能力差, 成为信息农业实施的一大障碍。(二)信息农业成本过高,信息农业普及难度大。信息农业以信息技术为支撑, 信息农业技术装备如监测仪、计算机、G IS 软件、G PS 装置等设备价格昂贵。全国农民人均纯收入仅2210.34 元, 农民无力购买昂贵的技术装备, 使信息农业难以推广。(三)农业信息化基础工作水平低,信息化、网络化程度低。我国已建成一批农业信息资源库, 但其数量和质量均远不足以形成信息产业。农业信息技术总体水平不高,信息化、网络化程度低.主要表现在两个方面: 一是我国虽然已全面起动" 金" 字工程, 加快各种信息网及高速信息公路的建设,但不同地区发展很不平衡, 我国局域网连接的PC 数目平均水平很低, 只有12 个, 而美国、日本、澳大利亚、韩国分别达68、26、64、35 个; 二是数据库的开发、各种应用软件的网络化水平低, 严重制约信息技术的推广应用。(四)信息农业体系整体服务水平不高。高层农业信息技术开发人才缺乏, 利用信息技术能力低。到目前为止, 我国还没有建立起一支专业化的农业信息服务队伍, 现有的信息技术人才不足, 服务人员素质不高, 影响了信息服务质量。四、促进农业信息技术革命,加速农业信息化发展的对策(一)建立和完善农业信息产业和农业信息化体系。政府应承担起农业信息化的引导责任, 同时积极发挥社会组织、广大农民及社会其它力量的作用进行农业信息开发。应普及计算机及计算机知识, 培育农业信息市场和信息产业, 促进和完善农业信息体系, 为信息技术在农业上的应用及推广提供良好环境。(二)加强信息市场管理。应加强对农业信息资源开发和利用的统一规划和指导, 逐步建立并完善各级信息资源, 建立标准和数据更新体系, 加强数据更新技术的研究与应用。同时加强信息市场的管理和立法, 避免信息数据库的重复建设, 提高数据库的网络化水平, 增强数据的共享性, 开发和利用各省、市、县等地区的农业数据库, 促进地方农业信息化建设进程。(三)大力加强国家信息网络建设。农业信息化和信息技术的应用要依托全国信息主干网, 加快“农”工程建设。在发挥国家投资主渠道作用下, 各地及有关农业部门应加大投入, 建立区域网、局部网, 并与国内主干网、互联网接轨, 实现农业技术人员、管理人员、农户入网。加强高层农业信息技术人才培养, 增强全民信息意识。加强农业应用软件网络化、多媒体化及可视化研究, 使农业信息技术可实行远程推广, 远程教育。(四)建设农业信息技术基地,加强信息技术的示范推广。选择民众信息意识强、信息基础设施较好的地区, 建立农业信息技术示范基地, 组织农学家、信息专家、经济学家参与规划建设和实施。并加快成熟信息技术成果的推广, 边试验边应用, 根据试验情况总结经验, 成熟后向其它地区大力推广,使农业信息技术走向实际应用的“试验———推广”的道路。
论文参考文献可以来自农业信息网。写毕业论文能引用网络上的资料作为参考文献,一定要注明出处,即引用文献的作者、文献名称、出版社、年限等信息。引用的章节也最好给予注明。引用文献放在论文最后的参考文献加以列示。
Countries in the world of development of agricultural information (世界各国农业信息化发展) World Agricultural Information technology generally go through three stages: the first stage is 50-60 during the 20th century, radio, telephone communications and science and computer information stage; the second phase is 70-80 during the 20th century, computer data processing and knowledge processing stage; the third stage of the 20th century since the 90's agricultural database development, network and multimedia technologies and agricultural production, such as automatic control of the new stage of development. At present, the area of information technology in agriculture in the world's leading countries in the United States, Germany and Japan. The United States is the leader in information technology, agriculture, Japan, Germany, followed by France and other developed countries; India and other developing countries, although the late start, but developed rapidly; Vietnam also recognizes the importance of agriculture and information technology, is stepping up its to catch up. United States of America Since 1844, Morse (SFBMorse) invented the first telegram, the subsequent image transfer technology with the invention, the U.S. audio and video broadcasts of the radio has been the rapid development and popularization of rural areas has been greatly promoted the United States the process of agricultural information; AppleMacintosh series in 1984 launched the commercialization of computer operation and the promotion of practical use to stimulate the building of the U.S. agricultural database, computer network, such as construction. In 1985, the United States published the world's 428 agricultural computerized cataloging database. These databases is one of the most important agricultural information resources. One of the most famous, most widely used is: The United States National Agricultural Library and co-developed by the U.S. Department of Agriculture A-GRICOLA, its storage magazine articles, government publications, technical reports and so on. The United States also has a national crop germplasm resources information management system across the country to provide services to the breeding farm; the 20th century, the United States since the 70s of the computer application scope gradually to the farm. By 1985, the United States has 8% of farmers use the computer processing of agricultural production, including some large farms have been computerized. Today, computer applications, to the United States, farm management and production control, research and production of high-quality, efficient and cost-effective. Japan MAFF information in rural areas of the building from the mid-50th century farm broadcasting (cable run) to start the infrastructure. By the late 20th century, 60, Japan "GreenUtopia the concept of" response to the news media at that time the trend of information technology for rural development has played a great role in promoting. By the late 80's, for a variety of rapidly growing popularity of information technology, network development, information-based policy in rural areas continue to expand in rural areas, the degree of information technology into the rapid development stage. The end of 1998, in the prefectures in Japan with the establishment of agricultural information-related institutions such as the network center 67, an average of 1.5 for each County Agricultural Information Center. 90 Japan in the early 20th century established the National Agricultural Technology Information Service online networks, that is, Telegraph and Telephone Company's real-time management system (DRESS), its large-scale electronic computer can be the collection, processing, storage and delivery from all over the country's agricultural technical information. DRESS County are located in each sub-centers, can quickly obtain information and exchange of information at any time. Germany In the mid-20th century, 50 to 70 of Germany's agricultural radio, telephone, television and other communication technologies, and universal in rural areas. 70 In the mid-20th century to the mid-80's, a German computer data processing, data storage, such as the establishment of agricultural information technology from the initial stage to mature stage. The mid-80s, the German government commissioned the study in Germany has established a full model of the agricultural economy of the region, later additions and amendments continue to be a very mature to deal with the agricultural information system to provide services for the decision-making. 80 In the mid-20th century to the early 90s, in this period, Germany in agricultural research and development of database technology has made a lot of work to the building. Since the mid-90s, the emergence of Internet dissemination of agricultural information to make a fundamental change occurred in the past, large and inefficient data storage facilities, high-performance computer systems have been replaced. At present, Germany through a variety of network connectivity, can find information on a variety of professional research, science and technology, management information and economic information. France Before 1997, the French information technology also is lagging behind. Since 1997, the French government will be the development of the Information Society a priority before, the former Prime Minister Lionel Jospin was launched on "Information Society Project Action (PAGSI)". Through unremitting efforts, France has been in information technology has made gratifying achievements. France with the family computer in 1997 and 2000 almost doubled. At the end of 2000, the family personal computer equipped with the rate of between 26% -33%, and the growth rate achieved during the period is basically the European average, which also contributed to France's development of agricultural information. India India in the 20th century, the beginning of the 60's the use of agricultural research in the computer. 20th century since the 90's, the Indian government decided to implement the Agricultural Research Information System (ARIS) project, with information technology for national agricultural research systems, funds from the National Agricultural Research Project Fund. The establishment of agricultural research information system is the main purpose of: agriculture and agricultural research managers to quickly and easily access to information; use of national agricultural research systems to collect the infrastructure, processing, storage, retrieval and use of information; at the national agricultural research system the full realization of the sharing of information resources; improve research project planning, implementation, monitoring and evaluation capacity. South Korea 20th century 80's, South Korea to speed up the process of economic globalization, with the intensification level of agricultural modernization and the improvement of crop yield is also significantly improved, to some extent alleviated the negative effects of reduced arable land. South Korea in the process of modernization of agriculture, agricultural information up on the agenda. Of agricultural information at this stage is characterized mainly in the construction of infrastructure to work. South Korea launched in 1994 "plan to revitalize agricultural and fishery and agricultural policy reform program" to strengthen the science and technology including information technology, investment in agriculture. In the process of the revitalization of agriculture, agricultural information technology come into play. This stage of the characteristics of agricultural information is to strengthen the Government's role in the process of informatization. South Korea agricultural information as a late start of the country, of agricultural information to take the "catch up" mode. "Catch up" the State may use the successful experience of developed countries, vis-à-vis the process of industrialization in advance for access to the information age, and in turn the use of information technology to promote and transform the traditional agriculture, and even the formation of "industrialization" and "information-based "The new model combining. This stage the main features of information technology is more focused on the effectiveness of the application of information technology. Vietnam Vietnam's agricultural information of a late start, a wave of information technology in the world under the impetus of the 20th century, late 90's to establish the Internet in 2000, e-ASEAN agreement formally joined. At present, the Vietnamese Ministry of Agriculture and Rural Development in the realization of e-management process, the Government has learned from the experience of many countries, plans to carry out four steps: the first step in the establishment of websites, to provide basic information for farmers; the second step to establish and expand the agricultural and rural the development of trade information systems; the third step the establishment of agriculture and rural development for the software industry, to replace imported software and the progressive realization of export their own software; fourth step is to adapt to the needs of technology development, strengthening of agricultural information technology experts training.
一、参考文献著录格式 1 、期刊作者.题名〔J〕.刊名,出版年,卷(期)∶起止页码 2、 专著作者.书名〔M〕.版本(第一版不著录).出版地∶出版者,出版年∶起止页码 3、 论文集作者.题名〔C〕.编者.论文集名,出版地∶出版者,出版年∶起止页码 4 、学位论文作者.题名〔D〕.保存地点.保存单位.年份 5 、专利文献题名〔P〕.国别.专利文献种类.专利号.出版日期 6、 标准编号.标准名称〔S〕 7、 报纸作者.题名〔N〕.报纸名.出版日期(版次) 8 、报告作者.题名〔R〕.保存地点.年份 9 、电子文献作者.题名〔电子文献及载体类型标识〕.文献出处,日期 二、文献类型及其标识 1、根据GB3469 规定,各类常用文献标识如下: ①期刊〔J〕 ②专著〔M〕 ③论文集〔C〕 ④学位论文〔D〕 ⑤专利〔P〕 ⑥标准〔S〕 ⑦报纸〔N〕 ⑧技术报告〔R〕 2、电子文献载体类型用双字母标识,具体如下: ①磁带〔MT〕 ②磁盘〔DK〕 ③光盘〔CD〕 ④联机网络〔OL〕 3、电子文献载体类型的参考文献类型标识方法为:〔文献类型标识/载体类型标识〕。例如: ①联机网上数据库〔DB/OL〕 ②磁带数据库〔DB/MT〕 ③光盘图书〔M/CD〕 ④磁盘软件〔CP/DK〕 ⑤网上期刊〔J/OL〕 ⑥网上电子公告〔EB/OL〕 三、举例 1、期刊论文 〔1〕周庆荣,张泽廷,朱美文,等.固体溶质在含夹带剂超临界流体中的溶解度〔J〕.化工学报,1995(3):317—323 〔2〕Dobbs J M, Wong J M. Modification of supercritical fluid phasebehavior using polor coselvent〔J〕. Ind Eng Chem Res, 1987,26:56 〔3〕刘仲能,金文清.合成医药中间体4-甲基咪唑的研究〔J〕.精细化工,2002(2):103-105 〔4〕 Mesquita A C, Mori M N, Vieira J M, et al . Vinyl acetate polymerization by ionizing radiation〔J〕.Radiation Physics and Chemistry,2002, 63:465 2、专著 〔1〕蒋挺大.亮聚糖〔M〕.北京:化学工业出版社,2001.127 〔2〕Kortun G. Reflectance Spectroscopy〔M〕. New York: Spring-Verlag,1969 3、论文集 〔1〕郭宏,王熊,刘宗林.膜分离技术在大豆分离蛋白生产中综合利用的研究〔C〕.//余立新.第三届全国膜和膜过程学术报告会议论文集.北京:高教出版社,1999.421-425 〔2〕Eiben A E, vander Hauw J K.Solving 3-SAT with adaptive genetic algorithms 〔C〕.//Proc 4th IEEE Conf Evolutionary Computation.Piscataway: IEEE Press, 1997.81-86 4、学位论文 〔1〕陈金梅.氟石膏生产早强快硬水泥的试验研究(D).西安:西安建筑科学大学,2000 〔 2 〕 Chrisstoffels L A J . Carrier-facilitated transport as a mechanistic tool in supramolecular chemistry〔D〕.The Netherland:Twente University.1988 5、专利文献 〔1〕Hasegawa, Toshiyuki, Yoshida,et al.Paper Coating composition〔P〕.EP 0634524.1995-01-18 〔 2 〕 仲前昌夫, 佐藤寿昭. 感光性树脂〔 P 〕. 日本, 特开平09-26667.1997-01-28 〔3〕Yamaguchi K, Hayashi A.Plant growth promotor and productionthereof 〔P〕.Jpn, Jp1290606. 1999-11-22 〔4〕厦门大学.二烷氨基乙醇羧酸酯的制备方法〔P〕.中国发明专利,CN1073429.1993-06-23 6、技术标准文献 〔1〕ISO 1210-1982,塑料——小试样接触火焰法测定塑料燃烧性〔S〕 〔2〕GB 2410-80,透明塑料透光率及雾度实验方法〔S〕 7、报纸 〔1〕陈志平.减灾设计研究新动态〔N〕.科技日报,1997-12-12(5) 8、报告 〔1〕中国机械工程学会.密相气力输送技术〔R〕.北京:1996 9、电子文献 〔1〕万锦柔.中国大学学报论文文摘(1983-1993)〔DB/CD〕.北京:中国百科全书出版社,1996
Countries in the world of development of agricultural information (世界各国农业信息化发展) World Agricultural Information technology generally go through three stages: the first stage is 50-60 during the 20th century, radio, telephone communications and science and computer information stage; the second phase is 70-80 during the 20th century, computer data processing and knowledge processing stage; the third stage of the 20th century since the 90's agricultural database development, network and multimedia technologies and agricultural production, such as automatic control of the new stage of development. At present, the area of information technology in agriculture in the world's leading countries in the United States, Germany and Japan. The United States is the leader in information technology, agriculture, Japan, Germany, followed by France and other developed countries; India and other developing countries, although the late start, but developed rapidly; Vietnam also recognizes the importance of agriculture and information technology, is stepping up its to catch up. United States of America Since 1844, Morse (SFBMorse) invented the first telegram, the subsequent image transfer technology with the invention, the U.S. audio and video broadcasts of the radio has been the rapid development and popularization of rural areas has been greatly promoted the United States the process of agricultural information; AppleMacintosh series in 1984 launched the commercialization of computer operation and the promotion of practical use to stimulate the building of the U.S. agricultural database, computer network, such as construction. In 1985, the United States published the world's 428 agricultural computerized cataloging database. These databases is one of the most important agricultural information resources. One of the most famous, most widely used is: The United States National Agricultural Library and co-developed by the U.S. Department of Agriculture A-GRICOLA, its storage magazine articles, government publications, technical reports and so on. The United States also has a national crop germplasm resources information management system across the country to provide services to the breeding farm; the 20th century, the United States since the 70s of the computer application scope gradually to the farm. By 1985, the United States has 8% of farmers use the computer processing of agricultural production, including some large farms have been computerized. Today, computer applications, to the United States, farm management and production control, research and production of high-quality, efficient and cost-effective. Japan MAFF information in rural areas of the building from the mid-50th century farm broadcasting (cable run) to start the infrastructure. By the late 20th century, 60, Japan "GreenUtopia the concept of" response to the news media at that time the trend of information technology for rural development has played a great role in promoting. By the late 80's, for a variety of rapidly growing popularity of information technology, network development, information-based policy in rural areas continue to expand in rural areas, the degree of information technology into the rapid development stage. The end of 1998, in the prefectures in Japan with the establishment of agricultural information-related institutions such as the network center 67, an average of 1.5 for each County Agricultural Information Center. 90 Japan in the early 20th century established the National Agricultural Technology Information Service online networks, that is, Telegraph and Telephone Company's real-time management system (DRESS), its large-scale electronic computer can be the collection, processing, storage and delivery from all over the country's agricultural technical information. DRESS County are located in each sub-centers, can quickly obtain information and exchange of information at any time. Germany In the mid-20th century, 50 to 70 of Germany's agricultural radio, telephone, television and other communication technologies, and universal in rural areas. 70 In the mid-20th century to the mid-80's, a German computer data processing, data storage, such as the establishment of agricultural information technology from the initial stage to mature stage. The mid-80s, the German government commissioned the study in Germany has established a full model of the agricultural economy of the region, later additions and amendments continue to be a very mature to deal with the agricultural information system to provide services for the decision-making. 80 In the mid-20th century to the early 90s, in this period, Germany in agricultural research and development of database technology has made a lot of work to the building. Since the mid-90s, the emergence of Internet dissemination of agricultural information to make a fundamental change occurred in the past, large and inefficient data storage facilities, high-performance computer systems have been replaced. At present, Germany through a variety of network connectivity, can find information on a variety of professional research, science and technology, management information and economic information. France Before 1997, the French information technology also is lagging behind. Since 1997, the French government will be the development of the Information Society a priority before, the former Prime Minister Lionel Jospin was launched on "Information Society Project Action (PAGSI)". Through unremitting efforts, France has been in information technology has made gratifying achievements. France with the family computer in 1997 and 2000 almost doubled. At the end of 2000, the family personal computer equipped with the rate of between 26% -33%, and the growth rate achieved during the period is basically the European average, which also contributed to France's development of agricultural information. India India in the 20th century, the beginning of the 60's the use of agricultural research in the computer. 20th century since the 90's, the Indian government decided to implement the Agricultural Research Information System (ARIS) project, with information technology for national agricultural research systems, funds from the National Agricultural Research Project Fund. The establishment of agricultural research information system is the main purpose of: agriculture and agricultural research managers to quickly and easily access to information; use of national agricultural research systems to collect the infrastructure, processing, storage, retrieval and use of information; at the national agricultural research system the full realization of the sharing of information resources; improve research project planning, implementation, monitoring and evaluation capacity. South Korea 20th century 80's, South Korea to speed up the process of economic globalization, with the intensification level of agricultural modernization and the improvement of crop yield is also significantly improved, to some extent alleviated the negative effects of reduced arable land. South Korea in the process of modernization of agriculture, agricultural information up on the agenda. Of agricultural information at this stage is characterized mainly in the construction of infrastructure to work. South Korea launched in 1994 "plan to revitalize agricultural and fishery and agricultural policy reform program" to strengthen the science and technology including information technology, investment in agriculture. In the process of the revitalization of agriculture, agricultural information technology come into play. This stage of the characteristics of agricultural information is to strengthen the Government's role in the process of informatization. South Korea agricultural information as a late start of the country, of agricultural information to take the "catch up" mode. "Catch up" the State may use the successful experience of developed countries, vis-à-vis the process of industrialization in advance for access to the information age, and in turn the use of information technology to promote and transform the traditional agriculture, and even the formation of "industrialization" and "information-based "The new model combining. This stage the main features of information technology is more focused on the effectiveness of the application of information technology. Vietnam Vietnam's agricultural information of a late start, a wave of information technology in the world under the impetus of the 20th century, late 90's to establish the Internet in 2000, e-ASEAN agreement formally joined. At present, the Vietnamese Ministry of Agriculture and Rural Development in the realization of e-management process, the Government has learned from the experience of many countries, plans to carry out four steps: the first step in the establishment of websites, to provide basic information for farmers; the second step to establish and expand the agricultural and rural the development of trade information systems; the third step the establishment of agriculture and rural development for the software industry, to replace imported software and the progressive realization of export their own software; fourth step is to adapt to the needs of technology development, strengthening of agricultural information technology experts training.
Countries in the world of development of agricultural information (世界各国农业信息化发展) World Agricultural Information technology generally go through three stages: the first stage is 50-60 during the 20th century, radio, telephone communications and science and computer information stage; the second phase is 70-80 during the 20th century, computer data processing and knowledge processing stage; the third stage of the 20th century since the 90's agricultural database development, network and multimedia technologies and agricultural production, such as automatic control of the new stage of development. At present, the area of information technology in agriculture in the world's leading countries in the United States, Germany and Japan. The United States is the leader in information technology, agriculture, Japan, Germany, followed by France and other developed countries; India and other developing countries, although the late start, but developed rapidly; Vietnam also recognizes the importance of agriculture and information technology, is stepping up its to catch up. United States of America Since 1844, Morse (SFBMorse) invented the first telegram, the subsequent image transfer technology with the invention, the U.S. audio and video broadcasts of the radio has been the rapid development and popularization of rural areas has been greatly promoted the United States the process of agricultural information; AppleMacintosh series in 1984 launched the commercialization of computer operation and the promotion of practical use to stimulate the building of the U.S. agricultural database, computer network, such as construction. In 1985, the United States published the world's 428 agricultural computerized cataloging database. These databases is one of the most important agricultural information resources. One of the most famous, most widely used is: The United States National Agricultural Library and co-developed by the U.S. Department of Agriculture A-GRICOLA, its storage magazine articles, government publications, technical reports and so on. The United States also has a national crop germplasm resources information management system across the country to provide services to the breeding farm; the 20th century, the United States since the 70s of the computer application scope gradually to the farm. By 1985, the United States has 8% of farmers use the computer processing of agricultural production, including some large farms have been computerized. Today, computer applications, to the United States, farm management and production control, research and production of high-quality, efficient and cost-effective. Japan MAFF information in rural areas of the building from the mid-50th century farm broadcasting (cable run) to start the infrastructure. By the late 20th century, 60, Japan "GreenUtopia the concept of" response to the news media at that time the trend of information technology for rural development has played a great role in promoting. By the late 80's, for a variety of rapidly growing popularity of information technology, network development, information-based policy in rural areas continue to expand in rural areas, the degree of information technology into the rapid development stage. The end of 1998, in the prefectures in Japan with the establishment of agricultural information-related institutions such as the network center 67, an average of 1.5 for each County Agricultural Information Center. 90 Japan in the early 20th century established the National Agricultural Technology Information Service online networks, that is, Telegraph and Telephone Company's real-time management system (DRESS), its large-scale electronic computer can be the collection, processing, storage and delivery from all over the country's agricultural technical information. DRESS County are located in each sub-centers, can quickly obtain information and exchange of information at any time. Germany In the mid-20th century, 50 to 70 of Germany's agricultural radio, telephone, television and other communication technologies, and universal in rural areas. 70 In the mid-20th century to the mid-80's, a German computer data processing, data storage, such as the establishment of agricultural information technology from the initial stage to mature stage. The mid-80s, the German government commissioned the study in Germany has established a full model of the agricultural economy of the region, later additions and amendments continue to be a very mature to deal with the agricultural information system to provide services for the decision-making. 80 In the mid-20th century to the early 90s, in this period, Germany in agricultural research and development of database technology has made a lot of work to the building. Since the mid-90s, the emergence of Internet dissemination of agricultural information to make a fundamental change occurred in the past, large and inefficient data storage facilities, high-performance computer systems have been replaced. At present, Germany through a variety of network connectivity, can find information on a variety of professional research, science and technology, management information and economic information. France Before 1997, the French information technology also is lagging behind. Since 1997, the French government will be the development of the Information Society a priority before, the former Prime Minister Lionel Jospin was launched on "Information Society Project Action (PAGSI)". Through unremitting efforts, France has been in information technology has made gratifying achievements. France with the family computer in 1997 and 2000 almost doubled. At the end of 2000, the family personal computer equipped with the rate of between 26% -33%, and the growth rate achieved during the period is basically the European average, which also contributed to France's development of agricultural information. India India in the 20th century, the beginning of the 60's the use of agricultural research in the computer. 20th century since the 90's, the Indian government decided to implement the Agricultural Research Information System (ARIS) project, with information technology for national agricultural research systems, funds from the National Agricultural Research Project Fund. The establishment of agricultural research information system is the main purpose of: agriculture and agricultural research managers to quickly and easily access to information; use of national agricultural research systems to collect the infrastructure, processing, storage, retrieval and use of information; at the national agricultural research system the full realization of the sharing of information resources; improve research project planning, implementation, monitoring and evaluation capacity. South Korea 20th century 80's, South Korea to speed up the process of economic globalization, with the intensification level of agricultural modernization and the improvement of crop yield is also significantly improved, to some extent alleviated the negative effects of reduced arable land. South Korea in the process of modernization of agriculture, agricultural information up on the agenda. Of agricultural information at this stage is characterized mainly in the construction of infrastructure to work. South Korea launched in 1994 "plan to revitalize agricultural and fishery and agricultural policy reform program" to strengthen the science and technology including information technology, investment in agriculture. In the process of the revitalization of agriculture, agricultural information technology come into play. This stage of the characteristics of agricultural information is to strengthen the Government's role in the process of informatization. South Korea agricultural information as a late start of the country, of agricultural information to take the "catch up" mode. "Catch up" the State may use the successful experience of developed countries, vis-à-vis the process of industrialization in advance for access to the information age, and in turn the use of information technology to promote and transform the traditional agriculture, and even the formation of "industrialization" and "information-based "The new model combining. This stage the main features of information technology is more focused on the effectiveness of the application of information technology. Vietnam Vietnam's agricultural information of a late start, a wave of information technology in the world under the impetus of the 20th century, late 90's to establish the Internet in 2000, e-ASEAN agreement formally joined. At present, the Vietnamese Ministry of Agriculture and Rural Development in the realization of e-management process, the Government has learned from the experience of many countries, plans to carry out four steps: the first step in the establishment of websites, to provide basic information for farmers; the second step to establish and expand the agricultural and rural the development of trade information systems; the third step the establishment of agriculture and rural development for the software industry, to replace imported software and the progressive realization of export their own software; fourth step is to adapt to the needs of technology development, strengthening of agricultural information technology experts training.
农业技术参考文献
农业推广工作的成效,很大程度上取决于农技推广队伍整体素质,那么,关于农业技术专业参考文献有哪些?
[1]樊锡聪.加快现代农业科技进步的发展对策[J].现代农业科技,2013,(11)311-312.
[2]贺警钟、牟筱玲.论农业高等教育与农业的可持续发展[J].职业技术教育,2000,(4)35-36.
[3]邓振营.农业高等教育与现代农业发展关系思考[J].河南机电高等专科学校学报,2009,(9)86-87.
[4]董成森.农业科技创新面临的问题与对策——以湖南省为例[J].湖南农业大学学报(哲学社会科学版),2010,(8)8-9.
[5]张令宏.农业科技示范基地建设存在的问题与对策[J].现代农业科技,2013,(10)288-289.
[6]朱明芬.杭州市农业科技创新能力综合评估与提升对策研究[J].杭州科技,2007(5),45—47.
[7]徐鹤群.浅议影响农业科技成果推广的主要因素及解决对策[J].农业科技开发与装备,2013(12)67.
[8]徐荃子.西部区域农业科技创新能力评价研究[D].北京,中国农业科学院,2012.
[9]余春友.我国基层农业科技发展现状与改善对策研究[J].现代农业科技,2014(1)316—317.
[10]马志强、朱永跃.美、日等发达国家科技评估的实践对我国科技评估管理的启示[J].科学管理研究,2007(12)122—123.
[11]苏国丽.农业科技成果转化的'对策研究——以河南省为例[D].河南,河南农业大学,2011,(6)1-44.
[12]冯永晔.河北省农业科技资源配置状况及对策研究[D].河北,河北农业大学,2005,(6)1-72.
[13]肖黎.眉山市农业科技推广现状与对策研究[D].四川,四川农业大学,2013,(5)1-58.
[14]徐晶.中国农业科技创新资金投入问题与对策研究[D].江苏,扬州大学,2005,(5)1-85.
[15]王冰.浅谈农业科技成果产业化项目的论证评估[J].科技情报开发与经济,2004,(8)37-38.
[16]朱明芬.杭州市农业科技创新能力综合评估与提升对策研究[J].杭州科技,2007(5),45—47.
[17]钟蔚.农业科技发展水平评估体系的初步研究[D].北京,中国中冶科学院,2001.
[18]许毅强.现代农业科技园区运营绩效评价体系研究[D].内蒙古,内蒙古农业大学,2012.
[19]高志勇.福建农业科技创新成果与农业经济发展的关联度研究[D].福建:福建农林大学,2012.
[20]满佳.我国农业科技创新存在的问题与对策研究[D].辽宁,渤海大学,2013
[1]蔡荣,王学渊. 农业合作社的集体行动困境:理论分析与实证检验[J]. 农业经济问题,2013,04:69-75+111-112.
[2]秦愚. 中国农业合作社股份合作化发展道路的反思[J]. 农业经济问题,2013,06:19-29+110.
[3]黄祖辉. 发展农民专业合作社,创新农业产业化经营模式[J]. 湖南农业大学学报(社会科学版),2013,04:8-9.
[4]邓宏图,王巍,韩婷. 转型期农业合作社的现实与逻辑:来自山东寿光的经验观察[J]. 中国农村经济,2014,07:27-38.
[5]谭银清,王钊,陈益芳. 西方农业合作社演化对我国农民专业合作社异化的启示[J]. 现代经济探讨,2015,05:74-78.
[6]刘颖娴. 当前中国农民专业合作社的困境与发展方向——“2012国际合作社年:农业合作社的国际趋势与中国实践”国际研讨会综述[J]. 中国农村经济,2013,03:89-96.
[7]秦愚. 农业合作社的资本问题——基于相关理论与实践的思考[J]. 农业经济问题,2015,07:60-72+111.
[8]本报记者 高伟山. 农民专业合作社:现代农业的时代诉求[N]. 许昌日报,2012-10-12003.
[9]刘宇 王雷. 农业合作社对提高粮食产量至关重要[N]. 中国改革报,2012-10-19003.
[10]本报记者 何红卫 通讯员 余爱民 胡小芳. 农业合作社的“华丰样板”[N]. 农民日报,2013-10-28001.
[11]应瑞瑶,何军. 中国农业合作社立法若干理论问题研究[J]. 农业经济问题,2002,07:2-7.
[12]应瑞瑶. 合作社的异化与异化的合作社——兼论中国农业合作社的定位[J]. 江海学刊,2002,06:69-75.
[13]扶玉枝. 农业合作社效率研究[D].浙江大学,2012.
[14]常青,张建华. 丹麦与中国农业合作社之比较研究[J]. 农业经济问题,2011,02:25-31+110.
[15]刘洁,祁春节. 我国农业合作社制度创新的动力机制及完善对策[J]. 农业现代化研究,2011,02:192-195.
[16]雷兴虎,刘观来. 激励机制视野下我国农业合作社治理结构之立法完善[J]. 法学评论,2011,06:100-108.
[17]应瑞瑶. 论农业合作社的演进趋势与现代合作社的制度内核[J]. 南京社会科学,2004,01:13-18.
[18]米新丽. 美国农业合作社法初探[J]. 江西社会科学,2004,03:139-141.
[19]潘建国. 美国农业合作社面面观(上)[J]. 中国合作经济,2004,10:55-58.
[20]雷兴虎,刘水林. 农业合作社的法律问题探讨[J]. 中国法学,2004,05:90-98.
[21]黄胜忠. 农业合作社理论研究述评[J]. 商业研究,2009,03:175-179.
[22]周波,万小兵,朱朝晖,唐卫青,万洁. 国外农业合作社发展模式探析[J]. 江西农业大学学报(社会科学版),2009,01:68-72.
[23]郑丹. 国外农业合作社在农业科技推广中的作用及启示[J]. 农业科技管理,2009,02:55-59.
[24]黄胜忠. 农业合作社的环境适应性分析[J]. 开放时代,2009,04:27-35.
[25]刘勇. 西方农业合作社理论文献综述[J]. 华南农业大学学报(社会科学版),2009,04:54-63.
[26]李先德,孙致陆. 法国农业合作社发展及其对中国的启示[J]. 农业经济与管理,2014,02:32-40+52.
[27]秦愚. 组织成本视角下的农业合作社基本制度分析[J]. 农业经济问题,2014,08:45-56+111.
[28]林坚,马彦丽. 农业合作社和投资者所有企业的边界——基于交易费用和组织成本角度的分析[J]. 农业经济问题,2006,03:16-20+79.农业经济参考文献
[29]蔡润英. 农业合作社定义及其法律地位探析[J]. 企业经济,2006,03:158-160.
[30]柴效武,叶益东. “农业合作社+农户”——农村制度变迁过程中组织模式的抉择[J]. 浙江
大学学报(人文社会科学版),2006,04:98-107.
[31]丁俊华. 中国特色社会主义农业合作社发展研究[D].河南大学,2014.
[32]徐小平. 中国现代农业合作社法律制度研究[D].西南政法大学,2007.
[33]逄玉静,任大鹏. 欧美农业合作社的演进及其对我国农业合作社发展的启示[J]. 经济问题,2005,12:46-48.
[34]米新丽. 论农业合作社的法律性质[J]. 法学论坛,2005,01:59-64.
[35]. 法国农业合作社及对我国的启示[J]. 农村经营管理,2005,04:43-46.
网络论文的参考文献可以反映论文作者的科学态度和论文具有真实、广泛的科学依据,参考文献在一定程度上影响着论文的质量。下文是我为大家整理的关于网络论文参考文献的内容,欢迎大家阅读参考! 网络论文参考文献(一) [1]赵启飞.基于WCDMA 无线网络 的优化研究与实践[D].云南:云南大学图书馆,2010:3. [2]中兴公司.2G/3G互操作优化指导书[M/CD.深圳:中兴通讯股份有限公司,2009:16-21 [3]中国联通.中国联通2/3G互操作分场景参数设置指导书[M/CD].北京:中国联通移动网络公司运行维护部,2009 [4]刘业辉.WCDMA网络测试与优化教程[M].北京:人民邮电出版社,2012:8-9 [5]姜波.WCDMA关键技术详解[M].北京:人民邮电出版社,2008,320-324. [6]中兴学院.WCDMARNS培训教材第三册[M/CD].深圳:中兴通讯股份有限公司,2009 [7]窦中兆、雷湘.WCDMA系统原理与无线网络优化[M].北京:清华大学出版社,2009:95-120 [8]王晓龙.WCDMA网络专题优化[M].北京:人民邮电出版社,2011:106 [9]张长刚.WCDMAHSDPA无线网络优化原理与实践[M].北京:人民邮电出版社,2007:116-119 [10]邬鹏.呼和浩特联通异系统互操作优化[D].北京:北京邮电大学图书馆,2011:7-12. [11]黄伟,李腊元,孙强,MANET路由协议DSR的OPNET实现及仿真[J],武汉理工大学学报2005.5 [12]李国强,武穆清,基于OPNET多径路由协议的建模与仿真[J],数字通信世界,2008.04 [13]王振中,关媛,陆建德,陆佰林,基于NSZ仿真平台的Adhoc新路由协议的模拟[J],计算机仿真,2007.04 [14]策力木格,胡其吐,基于NS的AODV路由协议研究[J],内蒙古科技与经济,2005 [15]刘小利,使用OPNET仿真MANET路由协议的实现 方法 [J],计算机与数字工程,2008.4 [16]王瑜,焦永革,孟涛,林家薇,基于免费软件ns的无线网络仿真[J],无线电工程,第34卷,第一期 [17]张天明,王培康,自助学习路由协议(SL一AoDV)及GloMosim仿真[J],计算机仿真,2008.07 [18]吴晗星,付宇卓,无线自组网AODV路由协议的实现[J],计算机应用与软件,2007.10 网络论文参考文献(二) [1]孙义明,杨丽萍.信息化战争中的战术数据链[M].北京:北京邮电大学出版社,2005 [2] 范文 庆,周彬彬,安靖.WindowsAPI开发详解--函数、接口、编程实例[M].北京:人民邮电出版社,2011 [3]陈敏.OPNET网络编程[M].北京:清华大学出版社,2004 [4]于全.战术通信理论与技术[M].北京:电子工业出版社,2009 [5]FrederickKuhl,RichardWeatherly,JudithDahmann.计算机仿真中的HLA技术[M].付正军,王永红译.北京:国防工业出版社,2003 [6]陈敏.OPNET网络仿真[M].北京:清华大学出版社,2004 [7]JohnN.Abrams'J.E.Rhodes.IntrductiontoTacticalDigitalInformationLinkJandQuickRefernceGuide,23-27,2000 [8]刘徐德.战术通信、导航定位和识别综合系统文集(第一集)[M].北京:电子工业出版社,1991 [9]罗桂兰,赵志峰,赵海.排队论对嵌入式系统网络性能的测试评估[J].沈阳师范大学学报(自然科学版),2005,23(1):54-56 [10]张铎.物联网大趋势-Internetofthings[M].北京:清华大学出版社.2010. [11]苏仕平.无线传感器网络的访问控制机制研究[D].兰州大学.2007. [12]张凯,张雯捧.物联网导论[M].北京:清华大学出版社.2012. [13]郭萍,张宏,周未,曹雪.基于轻量级CA无线传感器网络双向认证方案[D].小型微型计算机系统.2013(3):903-907. [14]李大伟,杨庚.一种基于重复博弈的物联网密钥共享方案[J].通信学报,2010,31(9A):97-103. [15]马巧梅.基于IKEv2的物联网认证与密钥协商协议[J].计算机与数字工程.2013(4):45-48. [16]郭萍.无线网络认证体系结构及相关技术研究[D].南京理工大学.2012. [17]张晓辉.基于Diameter的物联网认证协议研究[D].西安电子科技大学.2013. [18]刘宴兵,胡文平,杜江.基于物联网的网络信息安全体系[J].中兴通讯技术.2011(01):96-100. [19]刘姝.基于PKI的CA认证系统的设计与实现[D].郑州大学.2005. [20]任伟,雷敏,杨榆.ID保护的物联网T2ToI中能量高效的健壮密钥管理方案[J].小型微型计算机系统.2011,32(9):1903-1907. 网络论文参考文献(三) [1]安德森ASP NET高级编程[M]北京:清华大学出版社,2002 [2](美)Chris Goode,Chris Ullman等康博译ASP NET入门经典——c#编程篇[M]北京:清华大学出版社,2002 [3]秦鑫,朱绍文NET框架数据访问结构[J]计算机系统应用[M]2002,12 [4]张辉鹏基于NET的电子商务系统的研究和设计[D]武汉:武汉理工大学计算机科学与技术学院,2006 [5]廖新彦ASP NET交互式Web数据库设计[M]北京:中国铁道出版社,2004 [6]Jeffrey Richter Applied Microsoft NET Framework Programming[M].北京:清华大学出版社,2004 [7]Daniel Cazzulino等C#Web应用程序入门经典[M]北京:清华大学出版社,2003 [8]蒋秀英SQL Server 2000数据库与应用[M]北京:清华大学出版社,2006 [9]龚小勇关系数据库与SQL Server 2000[M]北京:机械工业出版社,2007 [10]萨师煊,王珊数据库系统概论(第三版)[M]北京:高等 教育 出版社,2000 [11]李中华基于NET的模式实现与应用[D]四川:四川大学,2006 [12]任开银,黄东在NET上架构公司级应用程序[J]微型机与应用2003,1 [13]叶春阳基于Web服务的流程协作研究[D]北京:中国科学院研究生院,2003 [14]李琳NET开发平台核心服务的研究与应用[D]武汉:武汉理工大学计算机科学与技术学院,2003 [15]张莉,王强,赵文防,董莉,SQL server数据库原理及应用教程[M],清华大学出版社,2004 06 猜你喜欢: 1. 计算机类毕业论文参考文献大全 2. 网络安全论文参考文献 3. 最全电子商务毕业论文参考文献 4. 毕业论文参考文献范文
1.企业信息化建设中的管理创新2.管理信息系统与企业信息化建设3.企业信息化建设与企业管理创新4.产品数据管理系统在企业信息化建设中的应用5.管理重组是提高企业信息化建设效益的根本途径6.数据质量管理与企业信息化建设7.论信息化建设与现代企业管理8.企业信息化建设与现代企业管理9.试论企业管理信息化的建设10.企业信息化建设中的管理创新研究11.施工企业管理信息化建设与管理创新12.我国企业信息化建设与管理中的典型问题13.企业信息化建设中的管理重组14.建设中小型施工企业项目信息化管理系统15.谈企业信息化建设与管理16.企业信息化建设的项目管理18.对我国服装企业管理信息化建设的探讨19.企业信息化与“信息管理与信息系统”专业建设20.出版企业财务管理信息化建设点滴如果这些合适的话,,请你留下你的邮箱。。。我发给你已经发送//
农业信息化概述(1) 什么叫农业信息化什么叫农业信息化呢?按照亚洲农业信息技术联盟主席、中国农科院院长梅方权教授的说法,农业信息化就是让农业生产的各个环节都在科学数据指导下进行。农业信息技术包括农业信息网络、农业数据库系统、管理信息系统、决策支持系统、农业专家系统、多媒体技术、精确农业等诸多领域。(2) 农业信息化的意义农业信息化对于农业的发展和农业现代化具有十分重要的意义。它可以降低农业生产的投入、提高农产品的生产数量和质量、减轻自然灾害的影响、加速农产品的流通、引导农产品的生产和消费,是建设现代农业、标准化农业和精准农业的基础。1、农业信息化是提高农业生产经营效益的有效措施。2、农业信息化是实现资源高效配置的重要手段。3、农业信息化是现代农业的必要组成部分。4、农业信息化是提高我国农业国际竞争力的必要手段。(3) 农业信息化的迫切(4) 性和必要性1、农业信息化是农业发展的第三次革命2、农业信息化是农业现代化的必然要求3、农业信息化是农业市场化的基石4、农业信息化是农科教结合的必然选择5、农业信息化是实施农业市场政策的必要手段
Agricultural Information is the world's economic and social development trend of China's industrial upgrading and achieve industrialization and modernization of the key. However, agricultural information in China has not yet been sufficient attention, therefore, should be further strengthened China's agricultural information development strategy study, the use of information and China's agricultural advantages to strengthen China's agriculture in the international market competitiveness. According to the domestic and international agricultural information to make comparison of the situation. China's agricultural information on the development status and insufficient. Pointed out that China now accelerate the development of agricultural information of the necessity and urgency. Focus on China in the next few years, agricultural development should follow the trend.
今天没时间弄了。只能提醒楼主,这个独独鸟也是机器一族,洒男孩系列的。
看看以下资料能不能用的上,希望对你论文有所帮助 以农业信息化促进农业现代化 从总体上讲,我国农业劳动生产率水平依然偏低,农业人口仍在我国占有较大比重,和发达国家3%左右的第一产业人口比率相比差距仍然很大。而在加入WTO后,我国农业将面临更大的国际市场竞争,如何提高我国农业现代化水平,增强在国际市场的竞争力,是摆在我们面前的重要问题。 改革开放也给我国信息产业发展创造了机遇,使我们能够迎头赶上国际信息产业发展的巨大潮流,由于信息的广延性和通用性,使信息化发展给各行各业提供了发展新机遇,利用信息产业的发展去武装我国传统农业,就可以为我国传统农业注入新的技术活力,使我国传统农业得到超常的发展。 一、信息化是传统农业的倍增器 信息技术是当今发展最快的高技术,但就信息技术本身来讲,它只是一种工具,并不能替代其他产业,只有和其他产业结合,才能够真正成为传统产业发展的倍增器。信息技术与农业结合也同样能够起到倍增作用。 农业信息化主要包括以下内容:农业技术信息化:如精准农业信息;农业环境信息化:如气候预报、病虫害测报;农业经营信息化:如农产品交易信息等。20世纪80年代开始,美国在实现农业机械化的基础上,政府每年拨款15亿美元,用于建立农业信息和市场服务网络。有着粮仓称号的俄亥俄州的农场主,一个人经营几千公顷的土地,全靠电脑管理控制生产、销售的每一个环节,而在我国目前几乎是不可想象的。 当前,我国农业正处在由传统农业向现代化农业转变的时期。要在人均0.067公顷的耕地上解决13亿人口的吃穿问题,根本出路在于以科学技术和信息及其物化了的设备工具和生产资料来武装农业,使之在有限的土地上大幅度地提高生产率,所以发展农业信息将给我国农业带来难得的机遇。我国传统农业绝大部分尚处于低质低效水平,虽然劳动力成本低,但劳动力人员素质也低,技术水平、管理水平、经营水平也同样不高。随着加入WTO的临近,我国农业生产不得不面临国际市场的竞争压力。要提高农业生产力水平,提高农业在国际市场的竞争力就要推进农业现代化,要实现农业现代化,就必须提高农业信息化水平,用当今信息技术与传统农业相结合无疑会极大促进我国传统农业的现代化水平,使我国传统农业取得跨越式发展。 二、把农业信息当做产业来发展 推进农业信息化,必须把农业信息当做一项产业来发展。众所周知,信息产业已经成为世界发展最迅速、科技含量最高、利润率最高的产业之一。发达国家50%以上产值来源于信息业,信息产业在农业上应用,一方面可以使农业生产效率大幅度提高;另一方面,农业信息本身也可以被当做产业来发展。所以农业信息化建设决不仅限于信息网建设,它还可以带动农业信息硬件、软件建设,还可以拉动农业信息服务、农业信息的收集、加工、处理、分析以及农业信息中介、网上农科教育、网上农产品交易、网上结算、定单农业、物流配送等一系列农业生产、流通活动,既可以创造一大批就业机会,又可真正通过信息化提高农业现代化水平,提高农业整体效益。 在农业信息化实施过程中,农业通过信息化可以获得倍增效益,信息业可以通过对农业的信息软硬件服务形成农业信息产业,最终形成农业与信息业双赢的良好局面。现代农业在农业生产、流通等各个环节都离不开信息服务,农业信息已经涉及到了农业生产、流通的方方面面,加之信息本身的增效作用,使得农业信息服务的各环节都会有效益产生,在这里由于农业信息效益市场价值的体现,起到了促进农业信息向产业发展的推动作用,从而使得将农业信息化被当做产业来发展成为了可能。 三、建立农业信息化指标体系 在谈到现代化指标时,往往把信息化程度作为一项衡量现代化水平的重要指标来看待。信息化指数的高低也就反映了该地区、该行业的信息化水平,发展农业信息化产业也就不能不建立农业信息化指标体系,农业信息化指标体系主要由以下几部分构成: 信息量:包括单位面积内人口的通话次数、E-mail数、信函数、报刊数、网上信息数、因特网点数等。 信息装备:包括单位面积内人口的电话机数、电视机数、计算机数、上网微机数等。 信息主体水平:如单位面积内人口中的第三产业人口数、大学生数、信息从业人员数、上网人数等。 信息消费:如个人、单位或集团消费中信息消费的绝对值和相对值等。 要提高农业信息化水平,就必须按农业信息化指标体系各方面全面提升农业信息化水平。与我国目前农业水平、农村条件和农业人口来比较,尚具有不小差距。但我国农业发展也具有地区性不平衡,西北地区相对落后,而东南沿海由于开放早,市场经济已经比较发达,农民已经向富裕小康水平转化,初步具备了推进农业信息化的条件,有了建设农业信息化的投资能力,只要领导重视,加强相关人才队伍建设,完全有能力发展农业信息产业。另外在目前衡量农业现代化水平的许多统计材料中尚缺乏有关农业信息化方面的记录,希望将来把农业信息化等有关量化指标加以统计,逐步建立起农业信息化指标体系,以推动农业信息化建设。 四、农业信息化市场需求巨大 在我国总人口中农村和小城镇人口占有绝对大的比例。在我们对浙江农村的考察过程中,强烈地感受到农民、农业工作者对农业信息的渴望。绍兴市所属嵊州市1998年专门提出了“必须像重视农业科技推广一样重视农业信息”的要求,嵊州通过建设“农业信息服务中心”、“农业110”及农业信息员、农业信息发布会等多种农业信息形式,开拓了为农业服务的新领域,通过网上交易、网上服务,确使农民尝到了农业信息的甜头。如嵊州农业信息网,短短几个月就有200多个农户、企业在网上交易,涉及200多种农产品,吸引了美、日、香港客商洽谈生意,成交额已突破300万元。又如绍兴“中国轻纺城”这一大型纺织品专业市场,去年成交额167亿元,成为亚洲最大的轻纺市场。这个市场建成了100兆的网络线,所有商户都可以进入因特网,网址点击率已达3.5万次以上。这说明农业信息化建设,顺应了农民需要,也顺应了市场经济、信息化发展的需要。 一般来讲,发达地区信息化建设,优于落后地区,城市优于农村。虽然浙江省和全国相比,农业属于较发达地区,农业信息建设也取得了一定成绩,但农业信息化建设目前仍显不足,农业信息流通仍显闭塞。比如,绍兴日报报道对在诸暨市的抽样调查表明,10个种粮大户中有7户不了解粮食购销改革,反映出农民目前大多数还是处在信息不灵状态,说明了加强农业信息化建设是十分必要的。同时我们应该看到如果农民、农业工作者、小城镇居民都参与农业信息化建设,或即使仅有二分之一、三分之一、甚至仅有四分之一、五分之一农业人口来参与这个市场,按全国人口比率而论这个市场该有多么巨大。 发展农业信息产业本身也是一项市场行为,市场行为就必须用市场手段去做,用市场方法做市场的事,不宜用行政方式做市场的事,政府最好是去为农业信息产业业搭台,唱戏还应让企业去唱,政府不宜包办。但在发展农业信息产业过程中,政府要扶持,要给予优惠、引导,最终要按市场规律以企业运作方式来完成。只有真正按市场方式运作,才能真正发展农业信息产业。 五、利用农业信息系统,保障粮食购销市场安全 浙江省已经在全国率先开始粮食购销体制的改革。不久,我国还要加入WTO。随着信息时代的到来,要想保障粮食安全,首先必须按市场规则建立起一套高效的农业信息保障系统。这种投入是一种软投入,以建立一套风险、预警、警戒域值及解决问题、化解风险的方案或预案为主旨。这比常规只通过单一购粮的硬投入来保证粮食安全的方式要经济得多,也实惠、实用得多。可以说是通过掌握市场规律、利用信息软手段来解决粮食风险“硬”问题的最佳方式,而且这种方式对全国粮食购销体制改革都将有极为重要的意义。通过建立农业信息产业,对实现这样的风险预警信息系统的作用无疑是巨大的,当然这样的信息预警系统决不是简单的农业信息的收集和整理,更重要的是对农业信息进行的深加工、分析和预测。如同天气预报,原始的水文、气象资料信息对最终消费者没有多大意义,但经过对这些原始资料加工分析产生的新的天气预报信息却更有价值,这其间通过信息加工形成新的信息产品,使信息在深加工过程中得以升值。粮食预警信息系统也同样如此,在粮食预警信息系统中不单要研究国内农业信息,由于我国即将加入WTO,还要研究国外信息,不仅要从粮食品种、质量、产量、面积、价格等方面进行研究,还要从气象、灾害及国内外政治、经济形势等多方面进行综合分析、研究,形成新的信息产品,以保证粮食运行体制的安全。