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市場調查報告書
商品編碼
1733756
數位農業市場規模(按組件、部署、應用、區域範圍和預測)Digital Farming Market Size by Component (Hardware, Software, Services), By Deployment (Yield Monitoring, Field Mapping, Crop Monitoring), By Application (Cloud, On-premises), By Geographic Scope and Forecast |
2024 年全球數位農業市場規模為 244.8 億美元,預計到 2032 年將達到 710.8 億美元,2026 年至 2032 年的複合年成長率為 14.25%。
數位農業是在農業中使用技術和數據主導的解決方案來改善農業實踐。利用感測器、物聯網、人工智慧和精密農業技術,農業公司正在提高作物產量、減少浪費、更有效地管理資源並為永續農業做出更明智的決策。
我們將利用物聯網、人工智慧和數據分析等技術來最佳化農業流程。改善作物監測、精準灌溉和土壤管理,以提高產量和永續性。數據使農民能夠對資源分配、病蟲害控制和作物健康管理做出明智的決策,從而改變傳統的農業實踐。
精密農業技術可望透過最大限度地利用資源、提高作物產量和減少對環境的影響來改變農業。未來的發展可能包括改善人工智慧主導的決策支援系統、更廣泛地採用物聯網設備進行即時監控,以及整合巨量資料分析以獲得預測見解,所有這些都將塑造全球永續農業實踐。
影響全球數位農業市場的關鍵市場動態是:
關鍵市場促進因素
需求不斷增加,資源卻越來越稀缺:隨著世界人口的成長,糧食生產變得越來越具有挑戰性。為了滿足這項需求,農民可以採用精密農業等數位化農業工具來提高產量和資源利用率。
人工智慧和物聯網革命:人工智慧和物聯網等新技術正在改變遊戲規則。感測器收集有關土壤、天氣和作物的即時資訊。人工智慧檢查這些數據並建議改善種植、灌溉和害蟲管理,從而提高效率。
政府措施和支持:政府已經認知到數位農業的重要性。政府透過提供補貼、鼓勵研究和頒布有利於開發這些技術的公司的法律來鼓勵發展。
數據主導的決策帶來更好的結果:農民受益於數位農業,因為它為他們提供了數據。監測作物健康狀況,識別模式並做出明智的決定。這將帶來更好的資源管理、減少浪費並最終提高盈利。
主要問題
前期投資高:感測器、軟體和其他數位農業技術的成本可能過高,尤其是對中小型農場而言。
數位數位鴻溝和有限的基礎設施:特別是在新興國家,缺乏可靠的網路連接和操作這些技術所需的技術知識可能會阻礙發展。
資料安全和隱私問題:農民對共用有關作物和土地的敏感資訊持謹慎態度,這是可以理解的。強大的網路安全保障對於建立信任和鼓勵更廣泛的採用至關重要。
勞動力再培訓和勞動力轉型:數位化可能會導致某些農業地區失業。我們需要製定計劃來重新培訓工人,並為他們提供在新的農業數位化世界中生存所需的技能。
主要趨勢
連結革命:物聯網與現代通訊網路的結合正在徹底改變農業。感測器收集土壤濕度和作物健康狀況的即時數據。這使得遠端監控和明智的決策成為可能。
人工智慧和分析佔據中心地位:機器學習和強大的分析能力正成為農民越來越重要的工具。這些工具透過分析龐大的資料庫來預測天氣趨勢、診斷作物疾病並充分利用資源,從而實現更聰明的農業。
賦予小農戶權力:數位科技不再只適用於大農場。價格實惠的感測器、雲端基礎的平台和公開數據可以幫助小農戶提高產量、進入市場並增加收入。
Global Digital Farming Market size was valued at USD 24.48 Billion in 2024 and is projected to reach USD 71.08 Billion by 2032 growing at a CAGR of 14.25% from 2026 to 2032.
Digital farming is the use of technology and data-driven solutions in agriculture to improve farming methods. It uses sensors, IoT, AI and precision agriculture techniques to improve crop output, minimize waste, manage resources more efficiently and make educated decisions for sustainable farming.
It optimizes agricultural processes by utilizing technology such as IoT, AI and data analytics. It improves crop monitoring, precision irrigation, and soil management, resulting in higher yields and sustainability. Farmers can use data to make informed decisions about resource allocation, pest control and crop health management, altering traditional farming methods.
Precision farming techniques are set to transform agriculture by maximizing resource utilization, increasing crop yields and lowering environmental impact. Future developments may include improved AI-driven decision support systems, broad adoption of IoT devices for real-time monitoring and the integration of big data analytics for predictive insights, all of which will shape global sustainable agricultural methods.
The key market dynamics that are shaping the global digital farming market include:
Key Market Drivers:
Rising Demand and Resource Scarcity: As the world's population grows, food production becomes more challenging. To meet this need, farmers can employ digital farming tools such as precision agriculture to improve yields and resource use.
AI and IoT Revolution: New technologies such as AI and IoT are altering the game. Sensors collect real-time information about soil, weather and crops. AI examines this data to recommend improved planting, irrigation and pest management, thereby increasing efficiency
Government Initiatives and Support: Governments recognize the relevance of digital agriculture. They provide subsidies, encourage research and establish advantageous laws for companies developing these technologies, so boosting market expansion.
Data-Driven Decisions for Greater Results: Farmers benefit from digital farming owing to it provides data. They can monitor crop health, identify patterns, and make informed decisions. This leads to improved resources management, reduced waste, and ultimately, increasing profitability.
Key Challenges:
High Initial Investment: The cost of sensors, software, and other digital farming technologies might be prohibitively expensive, particularly for small and medium-sized farms.
Digital Divide and Infrastructure Limitations: Adoption can be hampered by a lack of dependable internet connectivity and the technical knowledge required to operate these technologies, particularly in developing countries.
Data Security and Privacy Concerns: Farmers are understandably wary of sharing sensitive information about their crops and land. Robust cybersecurity safeguards are critical for fostering trust and encouraging wider usage.
Labor Reskilling and Workforce Transition: Digitalization may result in employment displacement in certain agricultural areas. Programs are required to retrain workers and provide them with the necessary skills to survive in the new digital farming world.
Key Trends:
Connectivity Revolution: The combination of IoT and modern communication networks is revolutionizing agriculture. Sensors collect real-time data on soil moisture and crop health. This enables remote monitoring and informed decision-making.
AI and Analytics Take Center Stage: Machine learning and strong analytics are increasingly important tools for farmers. These tools analyze massive databases to forecast weather trends, diagnose agricultural diseases and maximize resource utilization, resulting in smarter farming methods.
Empowering Smallholders: Digital technologies are no longer just for huge farms. Affordable sensors, cloud-based platforms and publicly available data are enabling smallholder farmers to enhance yields, get market access and raise income.
Here is a more detailed regional analysis of the global digital farming market:
North America:
According to Verified Market Research, North America is expected to dominate the global digital farming market.
The widespread adoption of innovative agriculture technologies and infrastructure are enabling the region hold top position in the market. The region boasts a mature ecosystem of tech start-ups and established agribusinesses, as well as considerable government backing for agricultural innovation.
Key causes driving dominance include the growing use of precision agriculture techniques such as GPS-guided equipment, field monitoring drone technology and sophisticated data analytics platforms.
Furthermore, North American farmers are early adopters of IoT devices and farm management software, allowing them to maximize crop yields, cut costs and improve sustainability practices, cementing the region's leadership in digital agricultural solutions.
Asia Pacific:
According to Verified Market Research, Asia Pacific is fastest growing region in global digital farming market.
This expansion is being driven by a number of causes, including increasing adoption of precision agriculture technologies, government programs fostering digitalization in farming methods and growing farmer knowledge of the benefits of sophisticated agricultural techniques.
Countries such as China, India and Australia are leading the charge, investing heavily in agricultural technology firms and infrastructure.
Furthermore, the region's extensive agricultural terrain, along with the need for efficient resource management, drives demand for digital farming solutions, establishing Asia-Pacific as a leader in agricultural innovation and sustainability.
The Global Digital Farming Market is segmented based on Component, Deployment, Application, and Geography.
Based on Component, the Global Digital Farming Market is separated into Hardware, Software and Services. In the global digital farming market, software is now dominant. Software solutions help farmers manage data, analyze insights and make informed decisions, which are critical for precision agriculture. This domination is driven by advances in AI, data analytics and cloud computing, which improve efficiency and sustainability in modern farming techniques around the world.
Based on Application, Global Digital Farming Market is divided into Precision Farming, Yield Monitoring, Field Mapping, Crop Monitoring, Livestock Monitoring, Soil Monitoring, and Real-time Safety Testing. Precision farming is currently dominating the worldwide digital farming market. It uses advanced technology such as GPS, IoT sensors, and data analytics to improve agricultural processes like sowing, fertilizing, and watering. Precision farming increases efficiency, eliminates resource waste, and boosts crop yields, making it an essential component of modern agricultural sustainability and productivity.
Based on Deployment, Global Digital Farming Market is divided into Cloud and On-premises. In the global Digital Farming market, the cloud deployment paradigm is dominant. Cloud-based solutions are scalable, flexible and accessible, allowing farmers to access real-time data and analytics from anywhere. This approach also facilitates integration with IoT devices and AI-powered applications, which improves operational efficiency and decision-making in agricultural practices around the world.
Based on the Geography, the Global Digital Farming Market divided into North America, Europe, Asia Pacific and Rest of the World. North America and Europe dominate the worldwide digital farming market, owing to rising technology adoption and infrastructure. However, Asia Pacific is the fastest-growing region owing to rising expenditures in agricultural technology, government efforts, and a greater understanding of sustainable farming techniques. The rest of the world experiences varying growth patterns, based on local agricultural advancements.
Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.