Group 1 - The South Korean government plans to raise a total of 44 trillion KRW venture capital fund through a mother fund to strengthen the cultivation of AI and deep tech unicorns, expand regional venture capital, and revitalize the exit market [1] - The Ministry of SMEs and Startups will invest 21 trillion KRW in collaboration with the Ministry of Culture, Sports and Tourism, the Ministry of Oceans and Fisheries, and the Korea Venture Investment Corp [1] - The government will focus 13 trillion KRW on AI and deep tech sectors, promoting the "next-generation unicorn cultivation project" with customized investments and establishing funds for startups and expansions [1] Group 2 - To reduce regional disparities, the government will invest 230 billion KRW in regional growth funds, the highest in history, with participation from local businesses, universities, financial institutions, and local governments [2] - The government aims to establish mother and sub-funds in about four regions annually, targeting a cumulative formation of over 35 trillion KRW in regional sub-fund scale between 2026 and 2030 [2] - The government will significantly enhance the exit market by expanding the secondary market and merger fund investment scale to 120 billion KRW, creating a virtuous cycle of investment, recovery, and reinvestment [2]

Core Insights - The global agriculture sector is at a critical juncture, facing unprecedented pressures from climate change, resource degradation, demographic shifts, and geopolitical instability, necessitating a systemic transformation led by "deep technology" [1] - Deep technology, which encompasses advanced scientific and engineering innovations, is expected to revolutionize the agricultural industry and address significant global challenges over the next decade [1] Group 1: Deep Technology in Agriculture - Deep technologies such as Generative AI, computer vision, edge IoT, satellite remote sensing, robotics, CRISPR gene editing, and nanotechnology are identified as key drivers for transforming global agriculture into a more resilient, sustainable, and efficient system [1] - The World Economic Forum's "AI in Agriculture Innovation Initiative" released a report highlighting the potential of these technologies to reshape agricultural practices [1] Group 2: Generative AI - Generative AI is leveraging advancements in large language models and the increasing availability of agricultural data, providing personalized crop management advice and localized farming plans [2] - Applications include acting as an "AI advisor" for farmers, assisting governments in macro crop planning, and accelerating the development of new crop varieties through gene editing [2] - The lack of high-quality training data, particularly for localized scenarios, remains a significant barrier to the widespread adoption of Generative AI in agriculture [2] Group 3: Computer Vision - Computer vision enables machines to interpret images and videos, generating decision-making suggestions and reducing reliance on human analysis [3] - In agriculture, it is used for precise identification of crop diseases, weeds, and pests, as well as real-time monitoring of crop growth [3] - The variability of field conditions and plant growth stages poses challenges for the large-scale application of computer vision technology in agriculture [3] Group 4: Edge IoT - Edge IoT processes data at the device level or nearby network edge, allowing for low-latency real-time responses and accelerating autonomous decision-making [4] - It is particularly beneficial in rural areas with weak network coverage, facilitating applications such as automated irrigation and early disease warning systems [4] - High equipment costs and interoperability issues between different edge systems are current challenges in this field [4] Group 5: Satellite Remote Sensing - Satellite remote sensing technology is increasingly applied in agriculture due to improved spatial and spectral resolution and higher data collection frequency [6] - It allows for efficient monitoring of large geographic areas at a low cost, assessing crop health and predicting pest outbreaks [6] - The precision of satellite remote sensing needs improvement when dealing with small-scale, dispersed farmland or multi-crop rotations [7] Group 6: Robotics - Robotics technology automates labor-intensive or complex tasks in agriculture, integrating perception and decision-making capabilities [8] - With advancements in AI perception and cloud-edge collaboration, agricultural robots can perform tasks such as precision planting and automated harvesting [8] - High costs of these technologies present challenges for adoption in countries with abundant low-wage labor [9] Group 7: CRISPR Technology - CRISPR gene editing is a key force in agricultural development, allowing precise modifications to DNA to enhance desirable traits in crops [10] - It aims to accelerate the breeding of crops that are drought-resistant, pest-resistant, and nutritionally enhanced [10] - Regulatory hurdles and public acceptance issues are significant challenges to the commercialization of CRISPR technology [11] Group 8: Nanotechnology - Nanotechnology shows potential in agriculture for pest control, nutrient management, and controlled release of agricultural inputs [12] - The lack of long-term data on environmental and health impacts poses challenges for the widespread application of nanotechnology [12] - The report suggests that governments and institutions should support promising agricultural deep tech projects through policy coordination, funding, talent development, and infrastructure building [12]