资源信息

学段 高中
学科 英语
教材版本 高中英语译林版选修第一册
年级 高二
章节 Reading
类型 素材-音频
知识点 -
使用场景 同步教学
学年 2025-2026
地区(省份) 全国
地区(市) -
地区(区县) -
文件格式 MP3
文件大小 3.20 MB
发布时间 2025-04-03
更新时间 2025-04-03
作者 学科网精创英语工作室
品牌系列 -
审核时间 2025-04-03
下载链接 https://m.zxxk.com/soft/51422609.html
价格 2.00储值(1储值=1元)
来源 学科网

内容正文:

Reading farming is an ancient profession, so how do farmers keep up to date? The article below describes how precision farming methods are being used to bring great benefits. Before you read the article, think about the following questions. What did farmers in the past rely on for a good harvest? How do you think farmers could use technology to make their work easier? Precision farming hits its target. When we think of farming, the first damage that springs to mind might be of a farmer working in a field under the baking sun, face covered in sweat. He might be walking through the field carefully checking his crops before deciding what needs to be done. In modern times. However, this decorated image of a traditional farmer is being changed. The collaboration between farming and technology has given rise to precision farming and approach the equity farmers with the tools and data they need to make reliable decisions with remarkable accuracy. Y IT aims to improve food production and conserve the environment by reducing a farms input and increasing its output. This evolution is having a positive impact on farming, while also providing Better solutions to the world's pressing food problems. IT is the advent of modern technology that has turned farming into a highly precise industry. This latest wave of innovation offers farmers and information that is more detailed, measurements that are more accurate and solutions that are more effective. These can be achieved with the combination of information gathering tools like sensors, satellites and drones, and advanced technology such as artificial experience AI. With massive amounts of data on the state of their farmland gathered, processed and analyzed in real time, farmers are able to give the best possible care to the crops that most needed at the most appropriate time and put their resources to the best use. As an added bonus, the decline in the amount of unnecessary chemicals minimizes potential threats to the environment. Precision farming boasts a diverse range of application capabilities at different stages of food production, monitoring, diagnosing, identifying and targeting. Soil sampling, an example of precision farming in its most fundamental form, provides an accurate means for farmers to tend their PS. Field sensors track the soil moisture, nutrient levels and P, H levels, enabling farmers to monitor their crops at any time from anywhere as the data library builds up, the big picture of the soil is revealed, so that farmers are to accurately assess the condition of the soil in real time, identify potential problems and workout solutions accordingly. For instance, if the soil is found to be poor in nutrient, not only do farmers know that fertilizer is needed, they can also calculate the exact amount. Consequently, soil sampling makes IT possible for farmers to create the ideal conditions further crops to grow and manage their resources effectively. At the same time, while such applications are a enormous benefit, precision farming can reach a much higher level with the application of artificial intelligence. When used in farming machines, AI does contribute to increased crop yields as well as simplified crop tracking, harvesting and processing. AI controlled machines can now plant in harvest more crops at faster speeds than humans ever could, while computer vision can distinguish needs from crops. Moreover, algorithms based on data gathered by sensors, drones and satellites can work out sites specific management of the crops with such efficiency and accuracy. This technology is ideal for crops that require delicate handling. For example, cotton farmers use drones with AI technology to Carry out specialize tasks. They precisely removed the cotton plants leaves by spraying chemicals only on the parts that need them. The drones autonomously navigate the fields, taking images of the crops, which are then analyzed by software. Once the exact amount needed is determined, the drone spray the chemicals, while farmers can follow the whole process on a mobile device. Thanks to precision farming close relationship with technology, the farming industries capabilities can develop even further through the integration of five g tech, ology and the interactive things IOT, as well as advances in deep learning technologies. Not only will larger amounts of data be available, but they will be processed more efficiently. Consequently, precision farming will become more effective and have an even greater impact on how we grow our food. Without doubt, the push for future developments in precision farming will benefit all of us. IT will contribute to a Greener, healthier and Better fed planet.
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