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Oncidium intelligent fill light technology

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The export price of oncidium is greatly affected by the demand of the production area. When the flower market is not good during the peak production period, the price will drop or even lose money. If you use bud removal technology to adjust the flowering period, you can increase the output value of cut flowers, but it will consume a lot of nutrients, resulting in poor quality of subsequent cut flowers! It is also very important to adjust the production period through bud removal technology, and to improve the quality of cut flowers with light supplement technology. Traditional supplementary light technology relies on farmers' experience or daily timing switches, which cannot be accurately and automatically supplemented with light. The development of intelligent supplementary light technology, through the collection of micro-climate environment parameters, calculation and the application of LED lamps, reduces electricity costs and improves the quality of cut flowers. and period control. |
Spectral Detection Technology for Agricultural Product Quality

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Hyperspectral imaging is the sensing and high-end system processing technology which collects and analyzes information across the entire electromagnetic spectrum and can be used in agriculture, mining, physics, and surveillance. Through the technology and algorithm of hyperspectral analysis, the freshness of King oyster mushroom and yellow leaf disease of Phalaenopsis were studied, including spectral analysis, band de-correlation and band selection technologies to detect characteristic bands. |
Stone-Crushing Medium Separation Processor

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The "Electric Gravel and Medium Separation Processor" with an inclined multi-aperture sieve drum can separate old Oncidium roots from gravels, making the process six times the efficiency of manual labor so that significantly improving the time-consuming and labor-intensive work and reducing injuries. The vehicle-mounted machine can be shared among farming groups, reducing usage costs and depreciation periods, then increasing utilization rates. It aligns with the trend of net-zero emissions, also standardized and integrated operation. The research and development results have been licensed to one industry operator. Farmers who are interested in this technology can take advantage of it. |
Electric auxiliary transportation equipment

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"Electric auxiliary transportation equipment" is suitable for facilities where the ground is paved with gravel. The equipment can carry the weight up to 500 kilograms and be operated by a driver or via remote control. With multiple trailers attached, it can increase transport capacity. The speed can be up to 13 meters per minute. It saves about 10% of working hours to apply this equipment while picking cut flowers or transporting plants. With its assistance , we only need one worker to complete the tasks, at the same time, reducing injuries caused by repeated heavy lifting. |
The Technologies Integrated of Smart IoT Sensing and Cloud Control for Crops Cultivation in Facility

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The technologies integrated of smart IoT sensing and cloud control for crops cultivation in facility mainly uses facility IoT sensors and microcontrollers to connect and communicate with devices with big data of IoT through the network MQTT protocol to obtain on-site equipment-related environments factors and other real-time data. This technology deploys microcontrollers in facilities to remotely control skylights, lighting and other equipment, and uses Python programming language to develop and integrate agricultural enterprise resource planning (ERP) into cloud system applications to enhance the controllability and predictability of crop production. , improve management efficiency and product quality. |
Crop ion-sensing digital service platform

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The crop ion sensing digital service platform utilizes ion-selective electrode arrays, automatic control systems, and cloud integration. It can quickly and in real-time provide the concentration of eight major ions in nutrient solutions, helping farmers to understand the absorption of various nutrients by crops, thereby increasing yield and improving crop quality. |
Nutrient Solution Control Technology for Low-Potassium Vegetable Production

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In Taiwan, 1 in 8 people requires dialysis, and 48.8% of them also suffer from diabetes. Patients with kidney dysfunction are unable to fully excrete potassium, leading to hyperkalemia. Therefore, there is a need to cultivate low-potassium and low-sugar fruits and vegetables for these patients. Our team has successfully grown low-potassium lettuce (76.6 mg/100g) and low-potassium (198.8 mg/100g), low-sugar (Brix 9.2) melons using artificial light and a low-potassium nutrient solution.
1. By adjusting the composition of the hydroponic nutrient solution and using artificial light with specific spectra, it is possible to cultivate high-functional lettuce with significantly reduced ion content, including a 60.5% reduction in potassium compared to commercially available lettuce. 2. The high-functional melons grown using this technique exhibit low potassium and low sugar characteristics, with potassium content reduced by 25.5% and sugar level (Brix) reduced by 44.2% compared to commercially available melons. 3. The future potential lies in adjusting the nutrient solution composition and light spectrum to cultivate other high-functional fruits and vegetables, such as varieties rich in iron, calcium, and protein.
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Wearable Agricultural Labor-Saving Exoskeleton

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According to statistical data, over 70% of agricultural workers have experiencedoccupational injuries, with 90% of these injuries resulting from excessive physical exertion and poor posture. Our team has developed a wearable agricultural labor-saving exoskeleton to provide support and assistance during agricultural tasks. This exoskeleton reduces muscle strain and fatigue, improving the quality of life for agricultural workers. Lumbar Exoskeleton: This mechanical, non-powered exoskeleton is designed for tasks requiring prolonged bending, such as rolling seedlings and moving seedling trays during the rice seedling period. Labor-Saving Efficiency: It can reduce muscle strain in areas like the latissimus dorsi by at least 50%. |
Remote-controlled / autonomous spraying machine

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Professor Lin Wei-Chih's team at Sun Yat-sen University has developed a "Remote-Controlled/Autonomous Spraying Machine" to reduce farmers' risk of exposure to pesticides, address agricultural labor shortages, and enhance the efficiency of farming operations. Time and Labor Saving: This machine improves on the time-consuming and labor-intensive methods of manual or hose-carried sprayers, saving up to 70% of labor. Consistency: The uniformity of pesticide droplets from the spraying machine is the same as that of manual spraying. Automatic Refilling: When the pesticide level in the spraying machine is low, it will automatically go to the refilling station to replenish the pesticide. Once refilled, it can return to the point where it stopped and continue the spraying operation. |
AIoT Smart Control Boxes and Sensors
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The core capability is the IoT sensing and control system, which is programmed with building blocks to realize an intelligent farm, and the production operation mode is constructed through the cloud system, which can be expanded to systematic replication in the future. By connecting with Line API, you can view the environmental parameters and send control commands remotely based on the data. |
Plant Diseases and Pests consultation helper

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Integrate several of crop diseases and insect pests’ information, use clear and easy to understand content to search for crops diseases and insect pests. Then will receive relevant prevention and control information. Our system also combined with Facebook and Line. This Line chatbot module can answer pest relevant question and provide information in real time, as if accompanied by a 24-hour pest and disease expert for users. |
Automatic Monitoring Trap for Noctuid Pests

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This device automatically counts noctuid pests using infrared sensor technology. The trap attracts male noctuid pests with sex pheromones. When a male moth passes through the counting part, the infrared light is blocked. The device then senses and records the number of pests, transmitting the data to a cloud system via a wireless network. |
Rice Smart Butler Farming Services

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KSI is a SINON related company. Its smart housekeeping service includes digital field production (connected in series with TGAP); pest and disease expert services - brown planthopper early warning, rice fever early warning, and farmers' guidance on pesticide use; pesticide spraying service matching to solve field production problems Big and small things. It also provides simple order management, purchase, sales and inventory, CRM and e-commerce systems and group purchasing services. |
Self-propelled pineapple intelligent spraying flower inducer machine

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This technology uses a high-speed camera to capture images of pineapples, and transmits the captured images back to an intel core i5 computer for calculation, which can then issue commands to control peripheral components in real time. In order to detect pineapple objects in real time and accurately locate the center of the pineapple plant, a deep learning recognition model is used for detection. After detecting and locating the center position of the pineapple plant, a control command is issued immediately, and the stepper motor controls the positioning of the nozzle, and quantitatively injects the flower-inducing agent into the center of the pineapple plant. |
Application of Digital Field Operation Records and Management Tools in the Pineapple Industry

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To meet the need for recording the complete process of agricultural products from production to sales, i-PLANT has developed various system modules, including field management, packaging management, production information, and sales information. Additionally, it provides API functions for interfacing with environmental IoT and automation equipment. By utilizing technologies such as LBS, data analysis, yield prediction models, and image recognition, i-PLANT consolidates information from the agricultural field to the packaging and distribution process. This integration supports the automated generation of production and sales records, as well as the required formats for certifications such as export quarantine, meeting the demands of market consumers and traders. |
Enclosed Intelligent Goose Farms

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To address climate change and tackle the most significant threat to goose farming—avian influenza—FORMOSA GOOSE has developed enclosed intelligent farming systems. These systems are designed to stabilize goose production while also promoting eco-friendly circular agriculture. Wastewater from the farms is repurposed to irrigate farmland, where corn and forage grass are cultivated as feed for the geese. This farming process is not only pollution-free but also aids in restoring farmland, contributing to the revitalization of rural areas. |