智能农业

  • 网络intelligent agriculture;Intelligence Agriculture;Smart Agriculture
智能农业智能农业
  1. UML及框架元模型在智能农业诊断平台开发中的应用

    Application of UML and Framework Meta-Model in Developing Platform of Intelligent Agriculture Diagnosis System

  2. 以智能农业诊断平台为实例,描述了UML建模的过程以及框架元模型对构件扩展点的分类和管理。

    The paper describes the process of UML in developing the platform for intelligent agriculture diagnosis system , and describes the classification and management method of component hot-spots in Framework Meta-Model .

  3. 基于WEB的广西智能农业专家管理系统设计与实现

    The design and implementation of web-based management system with intelligent agricultural expert of Guangxi

  4. 基于XML智能农业专家咨询系统的设计与实现

    Design and Realization of an Intelligent Agricultural Expert Referring System Based on XML

  5. 基于MSP430的智能农业机械终端

    Agriculture Intelligence Machinery Vehicle Terminal Based on MSP430

  6. 媒体介质访问控制层是影响节点功耗的关键部分,本文的主要任务就是研究智能农业系统中基于实时嵌入式操作系统的低功耗多信道MAC协议。

    Medium access control layer ( MAC ) is the key to the energy consumption of sensor nodes . This paper aims to develop the low-power multi-channel MAC protocol based on real-time embedded operating system intelligent agricultural system .

  7. 发展自走式智能农业装备的机遇与挑战

    Challenges and Opportunities Related to the Development of Intelligent Mobile Agricultural Equipment

  8. 农业设备更新决策的研究河北省智能农业发展现状

    The present situation of the development of the intelligent agriculture in Hebei province

  9. 基于复杂自适应系统的智能农业搜索模型

    Intelligent Agriculture Web Search Engine model Based on CAS

  10. 智能农业电话查询系统的研究

    Study of the intelligent telephone system for farming

  11. 为进一步实施智能农业装备的变量作业,提供了研究平台。

    This system provides a platform for further research on variable-rate application of intelligent agricultural equipment .

  12. 果树采摘机器人是未来智能农业机械化的发展方向,具有广阔的应用前景。

    The application of fruit-harvesting robot will be a development trend of agricultural mechanization and has a great prospect .

  13. 本文重点介绍广西智能农业专家系统基础数据库的设计和系统功能的实现过程。

    The realizing course of design and function of basic database of Guangxi intelligent agricultural expert system was introduced in this paper .

  14. 采摘机器人是21世纪精准农业的重要装备之一,是未来智能农业机械的发展方向。

    Fruit-harvesting robot is the vital important equipment of precision agriculture in the 21st century and future trend of intelligent agricultural machinery .

  15. 智能农业诊断平台设计了基于三个构件层的框架。最底层是农业诊断专家系统的各个数据处理构件,封装了专家系统中知识库处理、解释处理、推理处理等基本的数据处理过程。

    The lowest is data processing component layer , which encapsulate the modules of knowledge base process , explaining process , reasoning process .

  16. 利用高科技改造农业,全面构建信息化农业、智能农业、精准农业是现代农业发展的趋势。

    It is a direction of developing modern agriculture that using high-tech to establish Information Agriculture , Capacity Agriculture and Precision Agriculture entirely .

  17. 它是数字农业和智能农业的重要内容之一,也是农业信息化技术的重要组成部分。

    It is not only the important part of digital agriculture and intelligent farmers , but also is the important part of agricultural information technology .

  18. 最后是智能农业——例如,用来测量湿度或者土壤肥力的地面传感器,它能防止农民们过度浇水或者过度施肥。

    Finally , it 's smart agriculture - for example , sensors in the ground that measure moisture or fertility and prevent farmers , or their automated proxies , from over-watering or applying too much fertilizer .

  19. 智能农业系统是一个远程采集农业信息,并在此信息基础上分析作出决策的智能系统,无线传感器网络作为一个新型的无线通信技术在智能农业系统中的应用越来越广泛。

    Intelligent agricultural system is intelligent system , which collects agricultural information remotely and analyses this information to make decisions . Wireless sensor network has been used more widely in intelligent agricultural system as a new type of communication technology .

  20. 基于WebServices的智能化农业软件支撑平台研究

    Research on Development Platform for Agricultural Intelligent System Based on Web Services Software

  21. 充分发挥Internet网络的作用,加速智能化农业专家系统的示范推广。

    The internet network action is fully elaborated and the intellectual ability agricultural specialist system demonstration popularization is accelerated .

  22. Jahn教授说,向“气候智能型农业”发展应该是决策的核心。

    Professor Jahn says moving toward " climate-smart agriculture " should be at the center of policy considerations .

  23. 本文得到了863项目智能化农业信息处理系统&重庆市示范区(课题编号:2001AA115320)和重庆大学骨干教师资助计划项目基于神经网络和遗传算法的奶牛疾病诊断专家系统的资助。

    This article was sponsored by Project 863 Intelligent Agriculture Information Processing System – Chongqing Demonstration Zone ( Ref. No. 2001AA115320 ) and Chongqing University Teachers ' sponsored project Cow Disease Diagnosis Expert System Based on Neural Network and Genetic Algorithm .

  24. 智能化农业专家系统开发及推广模式研究

    Study on Exploitation and Popularization Modes of Intelligent Agriculture Expert System

  25. 大兴区智能化农业信息技术应用与发展思考

    Application and prospect of agricultural intelligent information technology in Daxing district

  26. 智能化农业信息服务系统关键技术的研究

    Research of Key Techniques of Intelligent Agricultural Information Service System

  27. 农田机械视觉导航技术是智能化农业的一个重要方面。

    Vision navigation of farming machine is the pith of intelligent agriculture .

  28. 湖南省智能化农业信息技术应用渐入佳境

    Application of Intelligent Information Technology in Agriculture of Hunan Province

  29. 智能化农业信息技术及示范推广应用模式研究

    The Study of Intelligent Agriculture Information Technique and Its Demonstration & Application Modes

  30. 智能化农业机械装备的研究进展

    The Development of Research about Precision Agricultural Intelligent Equipments