With the rapid growth of China's economy, food safety has become a major concern for the public. How can consumers access high-quality food while farmers can sell their agricultural products at fair prices? The answer may lie in "Internet + Visual Agriculture." This innovative approach combines internet technology, the Internet of Things (IoT), cloud computing, and advanced video systems to showcase the entire production process of crops and livestock. By doing so, it builds consumer trust and ensures transparency throughout the supply chain.
Visual agriculture aims to provide real-time monitoring and visibility into farming practices, allowing customers to make informed purchasing decisions. It not only addresses food safety concerns but also helps farmers overcome the challenge of selling their products efficiently. With pre-orders and better market access, agricultural products can be sold at higher prices, benefiting both producers and consumers.
The application of this model typically starts with installing monitoring equipment in farms that maintain a healthy ecological environment. These systems allow for remote supervision and transparent communication between farmers and buyers. Through effective online strategies, issues like food safety, low sales, and poor pricing can be significantly reduced.
As agricultural e-commerce continues to grow, visual agriculture is expected to play a key role in shaping the future of farming. However, challenges such as high logistics costs remain. To fully realize its potential, government support and investment in infrastructure will be essential.
Under the "Internet +" trend, agricultural e-commerce is entering a new phase. More traditional businesses are now going online, and collaboration among governments, industry groups, and enterprises is becoming more common. As a result, the competition in the agricultural sector is shifting from individual companies to entire ecosystems. E-commerce platforms are now focusing on building integrated, shared, and sustainable business models, especially in the growing "Internet + Agriculture" market.
Looking ahead, several key models are expected to emerge:
1. **IoT-Driven Industrialized Farming**: This involves using smart technologies to standardize and optimize farming practices, leading to more efficient and reliable production.
2. **Flat Logistics and Transparent Transactions**: By eliminating middlemen, this model reduces costs and improves efficiency in the distribution process.
3. **Brand Building for Agricultural Products**: With strong branding, agricultural products can stand out in a competitive market and gain consumer loyalty.
4. **Diverse E-commerce Platforms**: From large national platforms to regional and vertical sites, multiple models will coexist, catering to different consumer needs.
5. **Data-Driven Decision Making**: Big data analysis will help farmers and producers make better predictions and develop new products that meet market demands.
The integration of the internet into agriculture is not just a trend—it’s a transformation. It's reshaping how farms are managed, how products are tracked, and how they are sold. Whether in urban or rural areas, the influence of digital technology is becoming increasingly evident.
In conclusion, "Internet + Agriculture" represents a powerful convergence of modern technology and traditional farming. It offers great opportunities for innovation and growth, and its development deserves careful consideration and strategic planning. As this movement continues to evolve, it holds the promise of making Chinese agriculture more efficient, safe, and globally competitive.
DBC Substrate
DBC (Direct Bonded Copper) Substrate is a special process board where copper foil is bonded directly to the surface (single or double sided) of and AI203 OR AIN ceramic substrate at high temperatures and can be etched with various graphics. It has excellent electrical insulation performance, high thermal conductivity, excellent soft brazability, high adhesion strength and a large current-carrying capacity. DBC Substrate mainly used in the fields of rail transit, smart grid, new energy vehicles, industrial frequency conversion, household appliances, military power electronics, wind and photovoltaic power generation.
We custom high precision DBC Substrate with drawings provided by customers. The raw material we use for etched DBC substrate is Ceramic-based double-sided copper clad laminate. We are equipped with professional metal etching equipment and exposure development equipment. Our etching process can achieve double-sided etching of different graphics with 0.3 mm - 0.8mm thickness of copper clad laminate. Also, we can guarantee that our double-sided copper clad laminate substrate is neatly arranged, straight surface line, and have no burr, high product accuracy.
Its superiorities of DBC Substrate are as follow:
1. A ceramic substrate with a coefficient of thermal expansion close to that of a silicon chip, which saves the transition layer of Mo chips, saving labour, material and cost.
2. Excellent thermal conductivity, making the chip package very compact, thus greatly increasing the power density and improving the reliability of systems and devices.
3. A large number of high-voltage, high-power devices have high requirements for heat dissipation, and ceramic substrates have a better heat dissipation effect.
4. Ultra-thin (0.25mm) ceramic substrates can replace beo, without environmental toxicity problems.
5. Large current carrying capacity, 100A continuous current through 1mm wide 0.3mm thick copper body, temperature rise of about 17 ℃; 100A continuous current through 2mm wide 0.3mm thick copper body, temperature rise of only about 5 ℃.
6. High insulation withstand voltage, to ensure personal safety and equipment protection
7. New packaging and assembly methods can be realized, resulting in highly integrated products and reduced size
8. The ceramic substrate is highly resistant to vibration and wear, ensuring its long service life.
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SHAOXING HUALI ELECTRONICS CO., LTD. , https://www.cnsxhuali.com