High-tech Agriculture sectors use in the modern world

High-tech Agriculture sectors use in the modern world

High-tech Agriculture sectors use in the modern world  

High-tech Agriculture grows foods such as grains and vegetables that are indispensable for our lives. It is an industry that requires advanced knowledge, technology, and experience to cultivate the soil, utilize water, and nurture the natural blessings of plants in uncertain environments such as climate and weather. Now high-tech an agricultural field stand the robot, of the next-generation utilizing such as AI agriculture "Smart agriculture( Smart Agri ) ”has appeared and is attracting attention. This can be extrapolated to other areas of the world, such as the protectionism practiced (or practiced) by over its agricultural sector or the national advantages granted by the US to its sector to the detriment of imports of agricultural products.

Automation and robotics:

The clearest examples of this high-tech of agricultural technology are machinery that allows increased productivity. Examples are autonomous tractors. where it can also obtain more than useful results compared to certain sectors more dependent on the social factor.

Biotechnology: 

Genetically modified foods not only affect the final consumer by enjoying their possible benefits, but everything begins at the moment of cultivation. . An example would be if we manage to develop a potato that requires less water, this would lead us to change irrigation habits by reducing the amount of water used. E-Commerce & Intelligent Systems: Bringing the commercialization of any product to the internet is almost the first step that any company can think of carrying out in a digital transformation process. After that, we would find new ways of growing processes. So far some of the examples that we can identify in the environment of agricultural technologies, which will grow and improve as the sector develops over time.Through practical training and research experiments on horticultural plants such as vegetables, fruits, flowers, and design plants, we will provide practical specialized learning. Agricultural self-employed person with knowledge, skills, and hearts who can learn advanced technology industrial technology such as plant biotechnology and computer control at high technology facilities such as plant production factories that have reformed the conventional agricultural form and respond to the needs of the new era We will develop human resources who can play an active role in society as engineers of related industries.

In the high-tech agriculture department

we are deepening our learning by dividing it into each major (agricultural club) of fruit trees, vegetables, crops, flowers, and landscaping.

Fruit tree major

We grow a wide variety of fruit trees such as grapes, oysters, blueberries, and citrus fruits. Aiming to realize the sixth industrialization, we will consistently learn from the production to sales of fruit trees. We are also taking on the challenge of corporate collaboration, food education activities, and sales outside the school.

Vegetable major

We grow various varieties of vegetables such as eggplant, radish, and corn in fields and greenhouses. Learn techniques and knowledge related to vegetable production and distribution. In addition, vegetables cultivated with love are sold not only at school events such as agricultural festivals but also at outside shops.

Crop major

We cultivate a wide range of rice, wheat, corn, potatoes, sweet potatoes, etc., and learn consistently from seedling production to harvesting. It is a part that often uses machines such as tractors, rice transplanters, and combines. We also have parent-child potato digging experience and peanut digging experience.

Flower and landscaping major

Learn about the cultivation and use of flowerbed seedlings such as kale, potted flowers, foliage plants, and cut flowers. We are also cooperating in "Center Friend Activities" by producing flower beds at the Osaka Prefectural Education Center, setting up Kadomatsu at Kansai International Airport, and collaborating with the Sakai City Urban Greenery Center. You will learn about landscaping from tree cultivation to garden design and management. We are mainly working to create a healing space by pruning and pruning the plants in the school, managing the garden near the Manyo Botanical Garden and the bus stop, cultivating flowers for flower beds, and breeding conifers and lavender. In the initial stage of the establishment of the plant factory, materials, pipelines, and equipment are installed... not afraid of hardship or tiredness and does everything. It wasn't until the second half of 2019 that the plant factory was completed and the first Provence tomato was planted before he entered the role of agricultural technician. Here, he was delighted to discover that the new high-tech planting model was completely different from the traditional model, which subverted his understanding of agriculture. The factory is an aseptic workshop, using soilless cultivation technology to grow tomatoes. Foreign experts guide on the spot, and strictly follow the technical parameters to control each link. The various nutrients required by the crop are delivered to the crop. Tomato vines can grow five or six meters high, the fruit is full and even, the color is ruddy, the taste is sweet, and the yield is much higher than that of the field planting. There are too many techniques to be mastered in high-tech planting mode, and Zhao Hengfei has been learning tirelessly with the experts. One year after entering the factory, he became the head of the technical department alone. At the end of 2019, the tomatoes from the plant factory went on the market. Because of their good quality and good taste, they are loved by consumers, and the price has been rising all the way. He feels very fulfilled. From the summer of 2019 to the summer of 2020, after a crop of tomatoes was planted, he became more proficient in the technical essentials. Affected by the epidemic in 2020, although foreign experts could not visit the plant factory for guidance, he and the workers successfully planted the second crop of fresh tomatoes in September 2020 and planted 5000 More square meters of cherry tomatoes.“There will be a bumper harvest in 2020, and the fresh tomatoes from the plant factories will be available in a few days.

Intelligent machinery calculation

At the micro-level, genetic improvement of plants from the aspects of plant genetic information, microorganisms, etc., such as hybrid breeding, space breeding, genetic optimization, etc.Internet of Things technology: Use advanced sensor equipment to accurately monitor various environmental factors of plant growth, and control environmental variables in real-time to achieve the best environmental conditions required by crops, such as automation: mechanized operations, agricultural robots, automatic fruit, and vegetable picking, etc.New crop cultivation techniques: soilless cultivation, atomization cultivation, three-dimensional agriculture, etc.