Global Smart Harvest For Indoor Farming Market
市场规模(十亿美元)
CAGR :
% 
 Forecast Period |
2023 –2030 |
 Market Size (Base Year) |
USD 13.99 Billion |
 Market Size (Forecast Year) |
USD 33.42 Billion |
 CAGR |
% |
| Major Markets Players |
全球室内农业智能收获市场,按组件(收割机器人、GPS、传感器、RFID、其他)、技术(硬件、软件)、作物类型(蔬菜、水果)划分 - 行业趋势和预测到 2030 年。
室内农业智能收获市场分析及规模
对智能收获系统成本效益的需求不断增长、通过采用先进技术提高农业盈利能力、由于成本和可用性提高而导致的农业劳动力问题不断增加、多项政府举措可能会推动全球新兴国家接受智能收获系统、农业领域大数据和人工智能的整合是一些主要和关键因素,这些因素可能会促进全球室内农业智能收获市场的增长。部署智能收获技术对高资本投资的需求不断增长,而农民所掌握的技术知识有限,这些都可能成为全球室内农业智能收获市场增长的市场制约因素。
Data Bridge Market Research 分析,全球室内农业智能收获市场在 2022 年的规模为 139.9 亿美元,到 2030 年将飙升至 334.2 亿美元,预计在 2023 年至 2030 年的预测期内复合年增长率为 11.50%。 “软件”在全球室内农业智能收获市场的技术领域占据主导地位,因为它通过精确控制光照、温度和湿度等环境因素来优化作物的产量和质量。它能够实时监控和数据驱动的决策,减少资源浪费并确保高效的全年生产。除了对市场价值、增长率、细分、地理覆盖范围和主要参与者等市场情景的见解外,Data Bridge Market Research 策划的市场报告还包括深入的专家分析、按地理代表的公司生产和产能、分销商和合作伙伴的网络布局、详细和更新的价格趋势分析以及供应链和需求的缺口分析。
室内农业智能收获市场范围和细分
|
报告指标 |
细节 |
|
预测期 |
2023 至 2030 年 |
|
基准年 |
2022 |
|
历史岁月 |
2021 (可定制为 2015-2020) |
|
定量单位 |
收入(百万美元)、销量(单位)、定价(美元) |
|
涵盖的领域 |
|
|
覆盖国家 |
美国、加拿大、墨西哥、德国、波兰、爱尔兰、意大利、英国、法国、西班牙、荷兰、比利时、瑞士、土耳其、俄罗斯、欧洲其他地区、日本、中国、印度、韩国、新西兰、越南、澳大利亚、新加坡、马来西亚、泰国、印度尼西亚、菲律宾、亚太其他地区、巴西、阿根廷、智利、南美洲其他地区、阿联酋、沙特阿拉伯、埃及、科威特、南非、中东和非洲其他地区 |
|
涵盖的市场参与者 |
迪尔公司(美国)、罗伯特·博世有限公司(德国)、松下公司(日本)、Energid Technologies Corporation(美国)、Smart Harvest Agritech Ltd.(肯尼亚)、Harvest Automation(美国)、AVL Motion(奥地利)、Abundant Robotics(美国)、Iron Ox(美国)FFRobotics(德国)、METOMOTION(以色列)、Agrobot(西班牙)、HARVEST CROO(美国)、Root AI(美国)、eXabit Systems Pvt Ltd(印度)、OCTINION(比利时)、KMS Projects Ltd.(希腊)、AeroFarms(美国)、Agrilution(德国)和 Plenty Unlimited Inc.(美国) |
|
市场机会 |
|
市场定义
室内农业的智能收获是指利用先进技术和自动化系统优化受控室内环境(如垂直农场、温室或水培设施)内作物的收获过程。这种方法集成了传感器、机器人、人工智能和数据分析,以监测植物生长、评估作物成熟度并在作物成熟度最高时精准收获。智能收获系统可提高效率、减少劳动力需求、最大限度地减少作物损害并提高总产量。它们使各种作物的全年种植成为可能,同时最大限度地减少资源使用,使室内农业成为一种可持续、可靠的粮食生产方法。智能收获技术在受控的技术驱动环境中确保持续的高质量收获,在推动农业未来发展方面发挥着关键作用。
全球室内农业智能收获市场动态
驱动程序
- 全年农作物生产需求不断增长
这一概念指的是,无论季节变化和气候条件如何,全年连续种植农作物的能力。全年农作物生产可确保新鲜农产品的持续供应,以满足消费者的需求。它消除了季节性供应波动,减少了淡季对外部来源的依赖。传统的户外农业往往受到极端天气、霜冻或干旱等季节性因素的限制。智能室内农业让种植者能够绕过这些限制,确保稳定的生产流。
Year-round crop production is a significant driver because it addresses multiple challenges associated with traditional outdoor farming, such as seasonality, climate constraints, and resource inefficiencies. Smart harvest technology plays a pivotal role in achieving year-round production by optimizing growing conditions and ensuring crop quality and consistency, making it a valuable solution for meeting the evolving demands of the agriculture and food industries.
- Automated Harvesting Increases Efficiency and Ensures Productivity
These drivers reflect the capability of smart harvest systems to enhance the overall efficiency and productivity of indoor crop cultivation. Smart harvest systems significantly reduce the reliance on manual labor for tasks such as planting, monitoring, and harvesting. Automation and robotics streamline operations, minimizing the need for human intervention and labor costs. Smart harvest systems employ precise techniques for identifying ripe crops and selectively harvesting them. This reduces waste and ensures that only ready-to-consume produce is collected, enhancing overall productivity.
Efficiency and productivity are fundamental drivers in the adoption of smart harvest technology for indoor farming. These systems not only reduce labor costs and address labor shortages but also enable precision, consistency, and year-round production. The result is enhanced agricultural productivity and sustainability, meeting the growing demand for fresh and locally sourced produce.
Opportunities
- Continued Advancements in Sensors, Robotics, and AI
These opportunities arise from the continuous evolution and innovation of technologies that enhance the efficiency and capabilities of smart harvest systems. Advancements in sensor technology, including cameras, spectral imaging, and multispectral sensors, allow for more accurate and detailed monitoring of crops. This enables better detection of ripeness, disease, or stress conditions in plants. Enhanced data analytics and artificial intelligence (AI) algorithms can process vast amounts of data generated by smart harvest systems. These technologies offer insights into crop health, growth patterns, and harvest timing, leading to better decision-making and optimized yields.
These technological advancements present opportunities for growers to enhance the efficiency, precision, and overall performance of their indoor farming operations. They enable growers to stay competitive, reduce operational costs, and meet the increasing demand for high-quality, locally sourced produce. Furthermore, as technology continues to evolve, the potential for even more advanced and efficient smart harvest systems becomes increasingly promising.
Restraints/Challenges
- Integrating Multiple Technologies and Maintaining them can be Complex
This complexity refers to the intricate nature of implementing and managing advanced smart harvest systems. Smart harvest systems often consist of multiple interconnected components, including sensors, robotics, automation software, and data analytics platforms. Integrating these components seamlessly can be complex and require specialized technical expertise. Each indoor farming environment may have unique requirements based on crop types, facility layouts, and local conditions. Customizing smart harvest solutions to suit specific needs can add complexity to implementation.
This global smart harvest for indoor farming market report provides details of new recent developments, trade regulations, import-export analysis, production analysis, value chain optimization, market share, the impact of domestic and localized market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market. To gain more info on the global smart harvest for indoor farming market contact Data Bridge Market Research for an Analyst Brief, our team will help you make an informed market decision to achieve market growth.
Recent Developments
- In July 2023, Deere & Company has acquired Smart Apply, Inc., a precision spraying equipment company based in Indianapolis, IN. The company developed the Smart Apply Intelligent Spray Control System, an upgrade kit that can improve the precision and performance of virtually any air-blast sprayer used in orchard, vineyard or tree nursery spraying applications. Smart Apply helps growers reduce chemical use, airborne drift and run off, while optimizing high-value crop yields and meeting sustainability objectives
- In April 2023, Bosch BASF Smart Farming, the joint venture between Bosch and BASF Digital Farming to globally market and sell smart farming technology, announced today its new brand name: ONE SMART SPRAY. The distinctive new brand name also applies to its product, previously known as the Smart Spraying Solution. With the name change a new logo, visual identity, and messaging will be introduced in all markets globally
Global Smart Harvest for Indoor Farming Market Scope
The global smart harvest for indoor farming market is segmented on the basis of component, technology, and crop type. The growth amongst these segments will help you analyze meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.
Component
Technology
- Hardware
- Software
Crop type
- Vegetables
- Fruits
Global Smart harvest for indoor farming Market Regional Analysis/Insights
本文对全球室内农业智能收获市场进行了分析,并按组件、技术和作物类型提供了市场规模洞察和趋势。
全球室内农业智能收获市场报告涵盖的国家包括美国、加拿大、墨西哥、德国、波兰、爱尔兰、意大利、英国、法国、西班牙、荷兰、比利时、瑞士、土耳其、俄罗斯、欧洲其他地区、日本、中国、印度、韩国、新西兰、越南、澳大利亚、新加坡、马来西亚、泰国、印度尼西亚、菲律宾、亚太其他地区、巴西、阿根廷、智利、南美洲其他地区、阿联酋、沙特阿拉伯、埃及、科威特、南非、中东和非洲其他地区。
由于欧洲地区各类制造商的普及,欧洲在全球室内农业智能收获市场中占据主导地位,而由于亚太地区对技术的依赖性不断增加以及农业部门的增长不断增加,预计在预测期内亚太地区将实现增长。
报告的国家部分还提供了影响单个市场影响因素和国内市场监管变化,这些因素和变化会影响市场的当前和未来趋势。下游和上游价值链分析、技术趋势和波特五力分析、案例研究等数据点是用于预测单个国家市场情景的一些指标。此外,在提供国家数据的预测分析时,还考虑了全球品牌的存在和可用性以及它们因来自本地和国内品牌的激烈或稀缺竞争而面临的挑战、国内关税的影响和贸易路线。
竞争格局和全球室内农业智能收获市场份额分析
全球室内农业智能收获市场竞争格局提供了竞争对手的详细信息。详细信息包括公司概况、公司财务状况、收入、市场潜力、研发投资、新市场计划、全球影响力、生产基地和设施、生产能力、公司优势和劣势、产品发布、产品宽度和广度、应用主导地位。以上提供的数据点仅与公司对全球室内农业智能收获市场的关注有关。
全球室内农业智能收获市场的一些主要参与者包括:
- 迪尔公司 (美国)
- 罗伯特·博世有限公司 (德国)
- 松下公司(日本)
- Energid Technologies Corporation(美国)
- Smart Harvest Agritech Ltd.(肯尼亚)
- Harvest Automation(美国)
- AVL Motion(奥地利)
- Abundant Robotics(美国)
- Iron Ox(美国)
- FFRobotics(德国)
- METOMOTION(以色列)
- Agrobot(西班牙)
- 收获 CROO(美国)
- Root AI(美国)
- eXabit Systems Pvt Ltd (印度)
- OCTINION (比利时)
- KMS Projects Ltd.(希腊)
- AeroFarms(美国)
- Agrilution(德国)
- Plenty Unlimited Inc.(美国)
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研究方法
Data collection and base year analysis are done using data collection modules with large sample sizes. The stage includes obtaining market information or related data through various sources and strategies. It includes examining and planning all the data acquired from the past in advance. It likewise envelops the examination of information inconsistencies seen across different information sources. The market data is analysed and estimated using market statistical and coherent models. Also, market share analysis and key trend analysis are the major success factors in the market report. To know more, please request an analyst call or drop down your inquiry.
The key research methodology used by DBMR research team is data triangulation which involves data mining, analysis of the impact of data variables on the market and primary (industry expert) validation. Data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Patent Analysis, Pricing Analysis, Company Market Share Analysis, Standards of Measurement, Global versus Regional and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.
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