The current trend of IOT technology transfer
Technology transfer is increasingly becoming a global trend due to the following reasons:
First, technology transfer contributes to promoting innovation and improving competitiveness. Organizations and businesses are always looking for ways to access and apply the latest technologies to improve their processes, products and services, thereby increasing productivity, quality and business efficiency. Through technology transfer, they can access and learn advanced solutions and techniques instead of having to develop their own which is costly and time-consuming.
Second, technology transfer contributes to narrowing the gap in development levels between countries and regions. Developing or underdeveloped countries can access and learn from technologies that have been successfully applied in more developed countries. This helps them quickly strengthen their capacity and technical infrastructure, thereby promoting economic growth and sustainable development.
Third, technology transfer plays an important role in sharing and spreading solutions for sustainable development and responding to climate change. Many green technologies, renewable energy, natural resource management… are transferred to help countries and local communities implement environmentally friendly projects.
Finally, technology transfer promotes international cooperation and links resources on a global scale. Through technology transfer agreements and projects, organizations, businesses and countries have the opportunity to share knowledge, experience, investment and resources for mutual development.
In general, the trend of technology transfer is increasingly popular due to the great benefits it brings economically, socially and environmentally. This is an important driving force to promote progress and sustainable development on a global scale. Production system and application of IOT technology in farming and animal husbandry
IOT- What is the Internet of Things?
The Internet of Things (IoT) is becoming a global technology trend with vast application potential in many areas of life.
IoT is a network of physical devices (machines, vehicles, phones, appliances…) equipped with sensors, software and connection technology, allowing them to collect and exchange data. . IoT devices can be connected to each other and to central systems via the internet, allowing monitoring, control and automation of processes.
IoT applications bring many benefits such as:
1. Enhance operational and management efficiency: IoT devices provide real-time data on operating status, location, operating history… helping to improve processes, save costs and increase productivity.
2. Improve user experience: IoT allows automation of processes in homes, offices, smart cities… making users more convenient and comfortable.
3. Improve security and safety: IoT sensors can detect incidents, risks, unusual behavior and issue timely warnings, contributing to protecting property and human lives.
4. Promote new applications: IoT opens up opportunities to innovate and develop new services and business models based on exploiting and analyzing data from devices.
However, IoT also poses challenges such as security, privacy, connection standards, and compatibility between different devices. Addressing these challenges will determine the future development and widespread adoption of IoT. IoT is and will continue to have a major impact on many aspects of life, contributing to promoting digital transformation and increasing connectivity in the digital era.
Why should IOT be used in agriculture?
The application of Internet of Things (IoT) in agriculture is receiving attention and is widely deployed in many countries around the world. And agriculture is one of the fields where it brings many benefits such as increasing productivity, saving costs, improving product quality and safety, enhancing risk management capabilities and optimizing the supply chain. response. This is a growing trend and is expected to contribute to the sustainable development of agriculture in the future.
1. Increase productivity and production efficiency: IoT helps collect and analyze real-time data on environmental conditions, plant and animal health… From there, farmers can make informed decisions. More accurate determination of when to water, spray, harvest… This helps increase crop and livestock productivity and agricultural production efficiency.
2. Save production costs: IoT sensors can monitor resource consumption such as water, electricity, fertilizer… helping farmers use only the necessary amount, avoiding waste. In addition, IoT also supports more effective management of equipment and machinery, reducing maintenance costs.
3. Improve product quality and safety: IoT allows monitoring product quality indicators such as temperature, humidity, detecting signs of disease… From there, farmers can promptly intervene and ensure safe products for consumers.
4. Improve forecasting and risk management capabilities: IoT sensors combined with weather and market data… help predict pests and diseases, the right time to plant, harvest, etc. This helps farmers proactively manage risks and respond to adverse fluctuations.
5. Supply chain optimization: IoT supports tracking the location, transportation time, and storage conditions of agricultural products. Thereby, farmers and distributors can improve supply chain efficiency and better meet market demand.
Application of IOT in livestock and crop production
IOT in livestock
The application of Internet of Things (IoT) in livestock farming is becoming increasingly popular, bringing many benefits to livestock farms. Below are some typical applications of IOT technology in this field:
1. Health monitoring and disease detection: IoT sensors can monitor many parameters such as body temperature, heart rate, respiration and unusual fluctuations in each animal. This helps detect disease symptoms early and allows timely treatment, limiting spread and reducing mortality.
2. Optimize livestock management: Based on data collected from IOT technology, farms can adjust diet, watering, ventilation… more accurately, to meet the needs needs of each species and each stage of development. This helps increase weight, milk/egg yield and improve production efficiency.
3. Automate processes: IOT technology helps automate activities such as opening barn doors, turning on lights, spraying pesticides… helping to save time and labor for farmers, while reducing errors. errors due to human factors.
4. Monitor the barn environment: IoT sensors can monitor temperature, humidity, and toxic gas concentration in the barn. From there, farms can adjust ventilation, lighting, and barn cleaning systems accurately, ensuring an optimal living environment for livestock.
5. Improve biosecurity: IoT helps closely monitor access to barns, monitor workers’ health status, and limit the risk of disease spread. Installing GPS tracking on each animal also helps improve security and prevent theft.
6. Optimize the supply chain: Sensors can monitor temperature and humidity during the transportation and storage of products such as meat, milk, eggs… Thereby, farms can ensure product quality and effective supply chain management.
In summary, applying IoT in livestock farming brings many benefits such as improving animal health and productivity, optimizing management activities, enhancing biosecurity and product quality. This is an indispensable trend in modern agriculture. To ensure the safety of livestock animals, many suppliers also register to analyze and test animal feed.
IOT in farming
The application of Internet of Things (IoT) in farming is increasingly popular and brings many benefits to farmers. Below are some typical applications of IoT in this field:
- Monitor environmental conditions: IoT sensors can monitor temperature, humidity, rainfall, soil quality… This information helps farmers better understand crop growing conditions and can Make more accurate decisions about watering, fertilizing, and disease prevention.
- Automatic irrigation management: IoT systems can monitor water levels in ponds, lakes, and wells and adjust the amount of water supplied to each specific area based on crop needs. This helps to significantly save water usage, while plants are provided with enough water according to their needs.
- Detect and manage pests and diseases: Sensors can detect early signs of diseases on crops such as changes in leaf color, reduced growth rate… From there, farmers can promptly intervene and apply effective prevention measures.
- Monitor plant health and growth: IoT sensors can measure height, stem diameter, leaf area… This information helps farmers evaluate plant health and growth. planting, thereby adjusting appropriate care measures.
- Optimize the use of fertilizers and pesticides: Based on data on environmental conditions and crop health, IoT can advise farmers on the amount of fertilizers and pesticides needed, helping avoid waste and environmental pollution.
- Monitor the harvesting and transportation process: Sensors can monitor the temperature, humidity, and location of agricultural products throughout the harvesting, transportation, and storage process. This helps ensure product quality and optimize the supply chain.
Applying IoT in farming brings many benefits such as increasing productivity, saving resources, improving product quality and effectively managing risks. This is an inevitable trend and is being increasingly widely applied in modern agriculture.