市場調查報告書
商品編碼
1372066
2030 年精密農業市場預測:按產品、技術、用途和地區進行的全球分析Precision Farming Market Forecasts to 2030 - Global Analysis By Offering, Technology, Application and by Geography |
根據Stratistics MRC的數據,2023年全球精密農業市場規模為111.3億美元,預計預測期內年複合成長率為12.7%,到2030年將達到257.1億美元。
精密農業,有時也稱為精密農業或智慧農業,利用最尖端科技和資料驅動的方法來最佳化農業實踐、提高產量、減少資源損失和對環境的危害。就是這樣。其主要目標是使農民和其他農業相關人員能夠在正確的時間和地點做出準確的決策並採取適當的行動。
據 ETNO 稱,未來年度歐盟 (EU) 農業中的物聯網活躍連接數量預計將增加。預計2022年連線數將達到4692萬,2025年連線數將達到7026萬。物聯網設備在農業中的用途包括使用無人機進行監控和種子分發。
與農機整合是精密農業普及的主要要素。感測器、GPS 和資料分析等精密農業技術的快速進步使農民能夠更輕鬆地將這些進步整合到曳引機、無人機和收割機等現有設備中。這種整合簡化了資料收集、提高了工作效率並支援資料驅動的決策。此外,現代農業機械配備了最先進的感測器和監控系統,可輕鬆收集有關土壤狀況、作物健康和天氣模式的即時資料。在種植、散佈和收割作業期間,GPS 技術可確保機器遵循預定途徑,從而最大限度地擴大工作範圍並減少重複。這些要素促進了市場的快速成長。
在許多農業地區,特別是農業普遍存在的農村和偏遠地區,可靠、高速的網路連線可能有限或無法取得。這種缺乏連接性阻礙了精密農業所需的關鍵資料的順利整合和即時傳輸。此外,如果沒有可靠的網路連接,農民可能難以從田間感測器、無人機和其他監控設備獲取資訊。這使得將用於分析和決策的資料傳輸到集中式系統或雲端基礎的平台變得困難。這些要素可能會阻礙市場成長。
世界各地許多政府透過各種計劃、補貼和激勵措施積極鼓勵精密農業。為了支持精密農業領域的擴張,這些法規鼓勵農民採用有效且永續的農業實踐。此外,感測器、衛星影像和其他資料收集技術的普及極大地增加了農業資料的取得。因此,農民可以分析和使用這些資料來獲得深刻的見解,以最佳化農業實踐並加強決策。因此,這些方面正在推動市場成長。
面臨的挑戰是缺乏全行業標準以及精密農業不同平台和技術之間的資料不相容。這可能會導致資料碎片、互通性問題以及不同系統之間共用和替換資料的挑戰。此外,在使用新技術或改變傳統耕作方法時,有些人可能很難改變心態並接受創新,這可能會影響市場規模。
COVID-19 疫情對全球精密農業市場產生了負面影響,導致中國、印度、歐洲、日本和美國的多個工業設施暫時關閉。受此影響,精密農業裝備產量大幅下降。大流行病毒大流行後政府強制關閉,影響了工業,並抑制了消費者對此類高價值資本財的需求。然而,在 COVID-19 之後,遙感和農場管理軟體技術的部署可能會導致更廣泛的普及。
硬體部門預計將佔據最大佔有率,因為該部門經過冗餘部門,導致監控和感測設備以及自動化和控制系統的生產。例如,自動化和控制系統包括GPS接收器、轉向和引導機構、可變速率技術(VRT)設備,以及無人機和無人駕駛飛行器(UAV)、GPS和GNSS系統、灌溉控制器、引導和自動化的大量採用農業領域內的轉向系統、產量監測器、農業感測器等控制技術歸因於市場領域的成長軌跡。
導引技術是精密農業的重要組成部分。導引技術支援自主和遠端控制設備控制設備,並使用全球定位系統 (GPS) 協助車輛。由於農用車輛是導引系統最頻繁的用戶,導引技術市場預計在預測期內將實現盈利成長。透過避免曳引機和帶有 GPS 引導設備的設備的重複通過,農民可以減少勞動力、燃料、時間和土壤壓實成本。 GPS/GNSS 接收器、天線、控制器、導引和轉向、行動裝置和顯示器是基於導引技術的系統和設備的重要組成部分,適當的線束也是如此。
在估計期間,亞太地區佔據最大的市場佔有率。這種成長歸因於多種要素,包括政府措施的增加、對綠色農業的需求不斷成長以及農業新技術的採用。由於可支配所得高、人口成長以及對農業的高度依賴,企業正在做出各種配合措施向該地區擴張。此外,該地區各國政府也推出了支持精密農業技術的計劃,預計將加速市場成長。
由於美國較早採用精密農業,預計北美在預測期內將實現盈利成長。隨著農業各個方面使用的技術水平提高以降低勞動力成本,精密農業可能在未來年度繼續受到普及。此外,北美地區農民對先進農業工具和系統(例如顯示器、攝影機和農場管理軟體程式)的使用預計將推動精密農業市場的發展。
According to Stratistics MRC, the Global Precision Farming Market is accounted for $11.13 billion in 2023 and is expected to reach $25.71 billion by 2030 growing at a CAGR of 12.7% during the forecast period. Precision farming sometimes referred to as precision agriculture or smart farming is the use of cutting-edge technologies and data-driven approaches to optimize agricultural practices, boost output, and reduce resource loss and environmental harm. Its main objective is to empower farmers and other agricultural stakeholders to make knowledgeable decisions and conduct exact actions at the appropriate times and locations.
According to ETNO, the number of IoT active connections in agriculture was expected to increase in the European Union through the years. It was recorded at 46.92 million connections in 2022 and is expected to reach 70.26 million by 2025. Some uses for IoT devices in agriculture would be drone usage for surveillance or distributing seeds.
The widespread use of precision farming is being fuelled in large part by integration with farm machinery. Farmers can now easily integrate these advances into their existing equipment, including tractors, drones, and harvesters, due to the rapid progress of precision farming technologies like sensors, GPS, and data analytics through this integration, data gathering is streamlined, operational efficiency is improved, and data-driven decision-making is made possible. Additionally, modern agricultural machinery can easily collect real-time data on soil conditions, crop health, and weather patterns since it is outfitted with cutting-edge sensors and monitoring systems. During planting, spraying, and harvesting operations, GPS technology ensures that machinery follows predefined paths, resulting in maximized coverage and less overlap. These factors therefore contribute to the market's rapid growth.
In many agricultural regions, particularly in rural and remote areas where farming activities are prevalent, access to reliable and high-speed internet connectivity may be limited or unavailable. The smooth integration and real-time transmission of vital data necessary for precision agriculture are hampered by this lack of connectivity. Moreover, without a reliable internet connection, farmers might have trouble getting information from sensors, drones, and other monitoring equipment in the field. Hence, it becomes difficult to transfer this data for analysis and decision-making to centralised systems or cloud-based platforms. These factors may hinder market growth.
Through a variety of programs, subsidies, and incentives, numerous governments all around the world are actively encouraging precision farming. In order to support the expansion of the precision farming sector, these rules encourage farmers to adopt effective and sustainable farming methods. Furthermore, the accessibility of agricultural data has significantly increased with the spread of sensors, satellite photography, and other data collection technology. Therefore, farmers can optimize their farming methods and enhance decision-making by using the analysis and usage of this data to produce insightful findings. Hence, these aspects help in propelling the markets growth.
The absence of industry-wide standards and the incompatibility of data between various platforms and technologies for precision farming can be problematic. This may lead to data fragmentation, interoperability problems, and challenges with data sharing and exchange between various systems. Additionally, for some people, it may be difficult to change their mindsets and accept innovation when it comes to using new technologies and altering traditional farming practices therefore impacting the market's size.
The COVID-19 epidemic has negatively impacted the global market for precision farming, resulting in the temporary closure of multiple industrial facilities in China, India, Europe, Japan, and the United States. As a result, the manufacturing of precision farming equipment has significantly decreased. Government-enforced shutdowns following the corona virus pandemic had an impact on industry and slowed consumer demand for such expensive capital goods. However, larger adoption could result from the deployment of remote sensing and farm management software technologies after COVID-19.
The hardware segment is predicted to hold the largest share because of the extra division that this segment goes through, which results in the production of monitoring and sensing equipment as well as automation and control systems. Automation and control systems, for instance, include GPS receivers, steering and guiding mechanisms, and variable-rate technology (VRT) devices and furthermore, the considerable adoption of automation and control technologies, such as drones and unmanned aerial vehicles (UAVs), GPS and GNSS systems, irrigation controllers, guidance and steering systems, yield monitors, and agricultural sensors, within the agricultural domain can be attributed to the market sector's growth trajectory.
Guidance technology is a vital part of precision farming; it makes autonomous or remote-control devices possible and helps vehicles that use the Global Positioning System (GPS). As agricultural vehicles are the most frequent users of guidance systems, the guidance technology market is anticipated to grow profitably during the forecast period. Farmers may save money on labor, fuel, time, and soil compaction by avoiding overlapping tractor and equipment passes with GPS-based guiding devices. A GPS/GNSS receiver, antenna, controller, guidance and steering, portable devices, and display are essential components for a guiding technology-based system or device, as is the appropriate wiring harness.
Asia Pacific commanded the largest market share during the extrapolated period. The growth is attributed to various factors, including growing government initiatives, expanding demand for green agriculture, and the adoption of new technologies in farming. Due to reasons like high disposable income, a growing population, and heavy reliance on agriculture in this region, companies are also taking various initiatives to penetrate there as well. Furthermore, governments in the area are also launching programmes to support precision farming techniques, which are anticipated to accelerate market growth.
North America is expected to witness profitable growth over the projection period, owing to the early adoption of precision farming in the Americas in nations like the United States and Canada. Precision farming will continue to grow in popularity over the coming years as increasing levels of technology are used in various aspects of agriculture to reduce labour costs. Furthermore, the use of advanced agricultural tools and systems by farmers in the North American area, such as displays, cameras, and software programmes for farm management, is expected to drive the market for precision farming.
Some of the key players in the Precision Farming Market include: Ag Leader Technology, AGCO Corporation, CropMetrics LLC, Dickey-john Corporation, Grownetics, Inc., Raven Industries, Inc., Trimble, Inc., Topcon Corporation, AgJunction, Inc., AgEagle Aerial Systems Inc., Deere and Company, Farmers Edge Inc., Granular, Inc., Proagrica, The Climate Corporation, TeeJet Technologies, Bayer CropScience AG, Agribotix, Case IH Agriculture and ClearAg Operations.
In July 2023, Deere & Company acquired Smart Apply, Inc. (US), a precision spraying equipment company. The acquisition aims to strengthen the emphasis on high-value crop customers and dealers, while also broadening the range of solutions available to assist growers in tackling their primary concerns regarding labor, input costs, and regulatory compliance.
In April 2023, AGCO Corporation revealed its partnership with Bosch BASF Smart Farming to introduce and market Smart Spraying technology on Fendt Rogator sprayers. Furthermore, both companies will collaborate to develop additional innovative features.
In December 2022, IG International collaborated with Fyllo to use precision farming with AI, ML, and IoT to produce high-quality fruits. As part of the alliance, IG International's corporate farms would be connected to ""Nero,"" a device for managing irrigation and soil analysis.
In August 2022, Trimble Inc. entered into a definitive agreement to acquire Bilberry, a privately held French technology company known for its expertise in selective spraying systems for sustainable agriculture. Bilberry is at the forefront of using artificial intelligence (AI) technology to identify various weed species in real-time across a wide range of crops. This strategic acquisition will enhance Trimble's crop protection portfolio by incorporating green-on-green selective spraying capabilities and will further bolster their efforts in developing autonomous agricultural solutions
Table Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.