The Internet of Things is recognized by the world as the third wave of the world’s information industry after computers, the Internet and mobile communication networks. By implanting various microchips on objects, and using these sensors to obtain various information of the physical world, and then interacting with various communication networks such as local wireless networks, the Internet, and mobile communication networks, the perception of the world is realized. With the gradual maturity of this technology, the Internet of Agricultural Things has also begun to flourish. Today, the facility agricultural production base has informatized the work of traditional agriculture, such as watering, fertilizing, and spraying pesticides. Through the intelligent monitoring system, real-time quantitative and “accurate” checks, farmers can easily manage all farm work by pressing a switch.
Current Situation of my country’s Agricultural Internet of Things
my country’s research on the Internet of Things started almost simultaneously in developed countries such as the United States and Europe. Since Premier Wen proposed “perceiving China”, the Internet of Things has also been officially written into the government work report. my country has long been involved in applying the Internet of Things to agricultural production. The Internet of Things technology has effectively transformed and improved all aspects of my country’s agricultural production, processing, logistics, trading and consumption. Recently, Beijing has even implanted smart chips for controlling induction into facility agriculture, solving the problems that the control of vegetable pests still mainly relies on chemical pesticides, the majority of farmers do not have enough understanding of the occurrence rules of pests and control technologies, and the phenomenon of blind use of pesticides is relatively prominent. . However, compared with developed countries such as Europe and the United States, the application of my country’s Internet of Things in agriculture is still immature. The core technology of the Agricultural Internet of Things has yet to be overcome, and there are still many problems to be perfected and resolved in its application and promotion.
IC unlocks and explores foreign advanced agricultural Internet of Things technology
The application of agricultural Internet of Things in countries such as the United States and Europe has matured. Many foreign developed countries have also widely applied the Internet of Things in the traceability of agricultural, animal husbandry and fishery products, realizing the identification of animals, the anti-counterfeiting of agricultural products, and the monitoring of logistics and distribution. my country is a large agricultural country, and the “three rural” issues are also the main issues that have always restricted the development of traditional agriculture in our country. In terms of agricultural Internet of Things technology, my country needs to learn from developed countries in Europe and the United States. The fastest way is to use IC decryption reverse research technology. The relationship between Internet of Things technology and IC chips is inseparable. It is very suitable for our country to start from the chip and learn their mature technology in reverse, which can be efficient and accurate, and can save costs.
IC unlocks innovation and reverses my country’s agricultural Internet of Things technology
Since the climate, land, water and other resources vary from country to country, agricultural production also varies greatly. Therefore, it is definitely not feasible to directly learn from the agricultural Internet of Things technology of European and American countries, and it is prone to acclimatization. Therefore, after obtaining their advanced technological achievements through chip reverse research, we should also make innovative adjustments to adapt to the local customs. Due to the vast land of our country, the resources in different places are not the same. The requirements for agriculture are also adapted to local conditions. There are many changes to be made in IC decryption, and it is even more necessary to insist on innovative design.