随着农业方面生产科技水平的不断完善、提升,进一步加大了农民对玉米生长环境的关注力度,因此对生长环境的具体参数情况更为重视,特别是在远程上加以的英语翻译

随着农业方面生产科技水平的不断完善、提升,进一步加大了农民对玉米生长环

随着农业方面生产科技水平的不断完善、提升,进一步加大了农民对玉米生长环境的关注力度,因此对生长环境的具体参数情况更为重视,特别是在远程上加以信息数据的采集工作开展得十分突出。其中,由于农业种田的整体环境不太良好,给农民的具体操作带来了众多的挑战与威胁,因此真正做到无人远程的信息采集显得尤为关键。当前,全世界网络科技水平以及网络覆盖率的进一步提高,进一步推动了农业发展过程中远程监测体系的发展与完善。以往对玉米生长环境的远程监测体系存在诸多的问题与缺陷,特别是在采集相关的温度数据以及水的湿度信息等方面存在一定的问题,无法及时有效的监测出实际的数据信息,因此需要多次进行反复的监测,在一定程度上加大了监测工作的难度,尤其是监测到的数据缺乏稳定性,多次反复监测导致运作成本不断提高,都相应的对玉米生长环境的远程监测体系带来诸多的挑战。但是以3G网络玉米生长环境参数作为基础的监测体系,均针对以上问题进行了完善与优化,进一步保证了玉米生长环境参数检测的稳定性与准确性。本文重点结合主ARM编程、J2EE应用以及移动终端编程等内容来优化监测体系的组成部分。其次,具有针对性的将玉米生长环境的远程监测现状加以探究,进而再详细分析目前3G环境监测体系的主要操作与运作步骤。再次,着重比较以往的生长环境监测体系与目前的3G远程监测体系,并且将两者的不同点加以有效整理之后,进一步重点研发以3G网络为基础的玉米生长环境远程监测体系总的来说,本文的重点内容在于以物联网理论作为研究理论基础,并且结合电信网络技术等多种新型科技,重点研发以3G网络作为基础的无线传感器网络以及玉米生长环境远程监测体系。
0/5000
源语言: -
目标语言: -
结果 (英语) 1: [复制]
复制成功!
With the continuous improvement and improvement of the production technology level in agriculture, farmers have paid more attention to the growth environment of corn, so they pay more attention to the specific parameters of the growth environment, especially the collection of information and data on remote Must be outstanding. Among them, because the overall environment of agricultural farming is not very good, it brings many challenges and threats to farmers' specific operations, so truly unmanned remote information collection is particularly critical. At present, the further improvement of the level of network technology and network coverage in the world has further promoted the development and improvement of the remote monitoring system in the process of agricultural development. In the past, there were many problems and defects in the remote monitoring system for corn growth environment, especially in the collection of related temperature data and water humidity information. There are certain problems, and the actual data information cannot be monitored in a timely and effective manner. Repeated monitoring has increased the difficulty of the monitoring work to a certain extent, especially the lack of stability of the monitored data. Repeated monitoring has led to continuous increase in operating costs, and there is a corresponding There are many challenges. However, the monitoring system based on the 3G network corn growth environment parameters has been improved and optimized for the above problems, further ensuring the stability and accuracy of the corn growth environment parameter detection. <br>This article focuses on optimizing the components of the monitoring system by combining main ARM programming, J2EE applications, and mobile terminal programming. Secondly, the current status of remote monitoring of the corn growth environment is targeted, and then the main operations and operating steps of the current 3G environmental monitoring system are analyzed in detail. Once again, after focusing on comparing the previous growth environment monitoring system with the current 3G remote monitoring system, and after effectively sorting out the differences between the two, we will further focus on the development of a 3G network-based corn growth environment remote monitoring system. In general, The key content of this article is to use the Internet of Things theory as the theoretical basis for the research, and combined with a variety of new technologies such as telecommunications network technology, focusing on the development of wireless sensor networks and remote monitoring systems for corn growth environments based on 3G networks.
正在翻译中..
结果 (英语) 2:[复制]
复制成功!
With the continuous improvement and improvement of the level of production science and technology in agriculture, farmers' attention to the growing environment of corn has been further increased, so the specific parameters of the growing environment are paid more attention, especially in the collection of information data on remote lys. Among them, because the overall environment of agricultural farming is not very good, to farmers' specific operation has brought many challenges and threats, so it is particularly important to truly do no one remote information collection. At present, the world's network science and technology level and network coverage to further improve, further promote the development and improvement of the long-distance monitoring system in the process of agricultural development. In the past, there are many problems and defects in the remote monitoring system of corn growth environment, especially in the collection of relevant temperature data and water humidity information, there are certain problems, can not be timely and effective monitoring of the actual data information, so it is necessary to repeatedly monitor, to a certain extent, increase the difficulty of monitoring, especially the lack of data stability, repeated monitoring led to the continuous improvement of operating costs, the corresponding remote monitoring system for corn growth environment brings many challenges. However, the monitoring system based on the parameters of 3G network corn growth environment is perfected and optimized for the above problems, which further ensures the stability and accuracy of the detection of the environmental parameters of corn growth.<br>This paper focuses on the main ARM programming, J2EE applications and mobile terminal programming to optimize the components of the monitoring system. Secondly, it is targeted to explore the remote monitoring of corn growing environment, and then analyze the main operational and operational steps of the current 3G environmental monitoring system in detail. Third, focus on comparing the previous growth environment monitoring system with the current 3G remote monitoring system, and the differencebetween between the two to effectively organize, further focus on the research and development of 3G network-based corn growth environment remote monitoring system in general, the focus of this paper is to the Internet of Things theory as the theoretical basis for research, and combined with a variety of new technologies such as telecommunications network technology, focus on the development of 3G network-based wireless sensor network and corn growth environment remote monitoring system.
正在翻译中..
结果 (英语) 3:[复制]
复制成功!
With the continuous improvement and improvement of agricultural production technology, farmers pay more attention to the growing environment of corn, so they pay more attention to the specific parameters of the growing environment, especially the remote collection of information data. Among them, because the overall environment of agricultural farming is not very good, which brings many challenges and threats to the specific operation of farmers, so it is particularly important to achieve unmanned remote information collection. At present, the further improvement of network technology level and network coverage in the world has further promoted the development and improvement of remote monitoring system in the process of agricultural development. In the past, there were many problems and defects in the remote monitoring system of corn growing environment, especially in the collection of relevant temperature data and water humidity information, which could not monitor the actual data information in time and effectively. Therefore, repeated monitoring was needed for many times, which increased the difficulty of monitoring work to a certain extent, especially the number of monitoring According to the lack of stability, repeated monitoring leads to the continuous increase of operating costs, which brings many challenges to the remote monitoring system of corn growth environment. However, the monitoring system based on 3G network corn growth environment parameters has been improved and optimized to further ensure the stability and accuracy of corn growth environment parameters detection.<br>This paper focuses on the main arm programming, J2EE application and mobile terminal programming to optimize the components of the monitoring system. Secondly, the current situation of remote monitoring of corn growing environment is explored, and then the main operation and operation steps of 3G environmental monitoring system are analyzed in detail. Thirdly, it focuses on the comparison between the previous monitoring system of growth environment and the current 3G remote monitoring system, and after the effective arrangement of the differences between the two, it further focuses on the research and development of the remote monitoring system of corn growth environment based on 3G network. Generally speaking, the focus of this paper is to take the theory of the Internet of things as the theoretical basis of research, and combine with various telecommunication network technologies New technology, focusing on research and development of wireless sensor network based on 3G network and remote monitoring system of corn growing environment.<br>
正在翻译中..
 
其它语言
本翻译工具支持: 世界语, 丹麦语, 乌克兰语, 乌兹别克语, 乌尔都语, 亚美尼亚语, 伊博语, 俄语, 保加利亚语, 信德语, 修纳语, 僧伽罗语, 克林贡语, 克罗地亚语, 冰岛语, 加利西亚语, 加泰罗尼亚语, 匈牙利语, 南非祖鲁语, 南非科萨语, 卡纳达语, 卢旺达语, 卢森堡语, 印地语, 印尼巽他语, 印尼爪哇语, 印尼语, 古吉拉特语, 吉尔吉斯语, 哈萨克语, 土库曼语, 土耳其语, 塔吉克语, 塞尔维亚语, 塞索托语, 夏威夷语, 奥利亚语, 威尔士语, 孟加拉语, 宿务语, 尼泊尔语, 巴斯克语, 布尔语(南非荷兰语), 希伯来语, 希腊语, 库尔德语, 弗里西语, 德语, 意大利语, 意第绪语, 拉丁语, 拉脱维亚语, 挪威语, 捷克语, 斯洛伐克语, 斯洛文尼亚语, 斯瓦希里语, 旁遮普语, 日语, 普什图语, 格鲁吉亚语, 毛利语, 法语, 波兰语, 波斯尼亚语, 波斯语, 泰卢固语, 泰米尔语, 泰语, 海地克里奥尔语, 爱尔兰语, 爱沙尼亚语, 瑞典语, 白俄罗斯语, 科西嘉语, 立陶宛语, 简体中文, 索马里语, 繁体中文, 约鲁巴语, 维吾尔语, 缅甸语, 罗马尼亚语, 老挝语, 自动识别, 芬兰语, 苏格兰盖尔语, 苗语, 英语, 荷兰语, 菲律宾语, 萨摩亚语, 葡萄牙语, 蒙古语, 西班牙语, 豪萨语, 越南语, 阿塞拜疆语, 阿姆哈拉语, 阿尔巴尼亚语, 阿拉伯语, 鞑靼语, 韩语, 马其顿语, 马尔加什语, 马拉地语, 马拉雅拉姆语, 马来语, 马耳他语, 高棉语, 齐切瓦语, 等语言的翻译.

Copyright ©2024 I Love Translation. All reserved.

E-mail: