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自动化

市场调查报告书

商品编码

1544827

农业自动化控制系统市场、机会、成长动力、产业趋势分析与预测，2024-2032

Agriculture Automation Control System Market, Opportunity, Growth Drivers, Industry Trend Analysis and Forecast, 2024-2032

出版日期: 2024年07月11日 | 出版商:

Global Market Insights Inc. | 英文 210 Pages | 商品交期: 2-3个工作天内

价格

简介目录

由于精准农业的持续采用和先进技术的集成，2024年至2032年间，全球农业自动化控制系统市场规模将实现10%的复合年增长率。精准农业透过精确的资料和有针对性的干预措施加强作物管理，从而提高产量和资源效率。

人工智慧、机器人和感测器等先进技术透过提供即时资料和自动化来支援农业实践。这些进步带来了更精确的耕作方法，减少了浪费并提高了生产力，从而推动了市场的成长。例如，2023 年 10 月，大陆集团公布了对永续农业的承诺，展示了人工智慧驱动的系统、自主机器人和先进的轮胎技术。

这些技术进步优先考虑了农业的可持续性、安全性和效率。这些发展凸显出人们越来越重视利用现代解决方案来提高农业生产力和永续性。随着这些创新的势头增强，它们不仅将刺激市场成长，还将重新定义农业自动化的全球标准。

农业自动化控制系统产业根据技术、应用、最终用户、控制系统和地区进行分类。

到 2032 年，机器人和自动化设备领域将大幅成长，这要归功于其提高效率和生产力的能力。这些技术简化了种植和收割等劳动密集任务，减少了对体力劳动的需求。此外，随着人工智慧和机器学习的进步，操作变得更加精确，从而提高作物产量并最大限度地减少浪费。智慧农业的兴起和对永续农业解决方案的推动巩固了该领域的主导市场地位。

到 2032 年，作物监测和管理领域有望获得巨大发展，凸显其在最大限度提高作物健康和产量方面的关键作用。物联网感测器和无人机等尖端工具可提供有关土壤、天气和作物状况的即时见解，为农民提供及时的资料。这种细緻的监督不仅提高了生产力，也减少了资源浪费。随着农业部门越来越倾向于高效率且永续的做法，作物监测系统的重要性必将凸显。

在科技的快速采用和智慧农业投资不断增加的推动下，亚太地区农业自动化控制系统市场预计将在 2032 年实现重大发展。该地区拥有广阔的农业景观和对粮食安全的关注，因此迫切需要自动化解决方案。政府透过措施和补贴提供支持，进一步加速了这些先进技术的采用。鑑于亚太地区气候多变、农作物多样，对高效监测系统的需求十分明显，从而巩固了该地区在市场中的关键作用。

产业生态系统分析
供应商矩阵
利润率分析
技术和创新格局
专利分析
重要新闻和倡议
监管环境
衝击力
- 成长动力
  - 劳动力短缺和劳动成本上升
  - 技术进步
  - 全球粮食需求增加
  - 永续农业实践
  - 政府支持和激励
- 产业陷阱与挑战
  - 初始投资成本高
  - 技术复杂性与维护
成长潜力分析
波特的分析
PESTEL分析

第 4 章：竞争格局

介绍
公司市占率分析
竞争定位矩阵
战略展望矩阵

第 5 章：市场估计与预测：按技术分类，2021 - 2032 年

主要趋势
感测器技术
机器人及自动化设备
连接解决方案
数据管理和分析平台
控制系统
其他的

第 6 章：市场估计与预测：按应用分类，2021 - 2032

主要趋势
作物监测和管理
牲畜监测和管理
土壤和田间分析
气候控制与管理
供应链优化
其他的

第 7 章：市场估计与预测：按最终用户划分，2021 - 2032 年

主要趋势
农作物生产
畜牧业生产

第 8 章：市场估计与预测：按控制系统，2021 - 2032 年

主要趋势
灌溉控制器
气候控制系统

第 9 章：市场估计与预测：按地区，2021 - 2032

主要趋势
北美洲
- 我们
- 加拿大
欧洲
- 英国
- 德国
- 法国
- 义大利
- 西班牙
- 荷兰
- 欧洲其他地区
亚太地区
- 中国
- 印度
- 日本
- 韩国
- 澳新银行
- 新加坡
- 亚太地区其他地区
拉丁美洲
- 巴西
- 墨西哥
- 拉丁美洲其他地区
MEA
- 阿联酋
- 以色列
- 南非
- 沙乌地阿拉伯
- MEA 的其余部分

第 10 章：公司简介

Ag Leader Technology
AGCO Corporation
Bayer AG
Bosch
CLAAS KGaA mbH
CNH Industrial N.V.
CropX Inc.
Deepfield Connect GmbH
Deere and Company
DICKEY-john
DroneDeploy
Ecorobotix SA
Harvest Automation
Harvest CROO Robotics LLC
Kubota Corporation
Raven Industries
Robert Bosch LLC
TOPCON CORPORATION
Trimble Inc.
Valmont Industries, Inc.

简介目录

Product Code: 9669

Global Agriculture Automation Control System Market size will witness a 10% CAGR between 2024 and 2032, attributed to the rising adoption of precision agriculture and the integration of advanced technologies. Precision agriculture enhances crop management through precise data and targeted interventions, leading to improved yields and resource efficiency.

Advanced technologies, including AI, robotics, and sensors, are bolstering agricultural practices by offering real-time data and automation. These advancements lead to more precise farming methods, curbing waste and boosting productivity, which in turn propels market growth. For example, in October 2023, Continental unveiled its commitment to sustainable agriculture, showcasing AI-driven systems, autonomous robots, and advanced tire technologies.

These technological strides prioritize sustainability, safety, and efficiency in farming. Such developments underscore the increasing focus on leveraging modern solutions to elevate agricultural productivity and sustainability. As these innovations gain momentum, they are poised to not only spur market growth but also redefine global standards for agricultural automation.

The agriculture automation control system industry categorizes itself based on technology, application, end user, control system, and region.

By 2032, the robotics and automation equipment segment is set for a significant upswing, thanks to its proven ability to boost efficiency and productivity. These technologies simplify labor-heavy tasks like planting and harvesting, diminishing the need for manual labor. Moreover, with advancements in AI and machine learning, operations become more precise, resulting in better crop yields and minimized waste. The rising trend of smart farming and the push for sustainable agricultural solutions solidify this segment's dominant market stance.

The crop monitoring and management segment is poised for substantial traction by 2032, underscoring its pivotal role in maximizing crop health and yield. Cutting-edge tools like IoT sensors and drones deliver real-time insights on soil, weather, and crop conditions, empowering farmers with timely data. This meticulous oversight not only boosts productivity but also curtails resource wastage. As the agricultural sector increasingly leans towards efficient and sustainable practices, the significance of crop monitoring systems is set to amplify.

Asia Pacific market for agriculture automation control systems is on track for significant developments up to 2032, driven by swift tech adoption and rising investments in smart farming. With a vast agricultural landscape and a focus on food security, the region is hungry for automation solutions. Government backing, through initiatives and subsidies, further accelerates the embrace of these advanced technologies. Given Asia Pacific's varied climate and diverse crops, the demand for efficient monitoring systems is pronounced, solidifying the region's pivotal role in the market.

Chapter 1 Methodology and Scope

1.1 Market scope and definition
1.2 Base estimates and calculations
1.3 Forecast calculation
1.4 Data sources
- 1.4.1 Primary
- 1.4.2 Secondary
  - 1.4.2.1 Paid sources
  - 1.4.2.2 Public sources

Chapter 2 Executive Summary

2.1 Industry 360º synopsis, 2021 - 2032

Chapter 3 Industry Insights

3.1 Industry ecosystem analysis
3.2 Vendor matrix
3.3 Profit margin analysis
3.4 Technology and innovation landscape
3.5 Patent analysis
3.6 Key news and initiatives
3.7 Regulatory landscape
3.8 Impact forces
- 3.8.1 Growth drivers
  - 3.8.1.1 Labor shortages and rising labor costs
  - 3.8.1.2 Technological advancements
  - 3.8.1.3 Increased global food demand
  - 3.8.1.4 Sustainable farming practices
  - 3.8.1.5 Government support and incentives
- 3.8.2 Industry pitfalls and challenges
  - 3.8.2.1 High initial investment costs
  - 3.8.2.2 Technical complexity and maintenance
3.9 Growth potential analysis
3.10 Porter's analysis
- 3.10.1 Supplier power
- 3.10.2 Buyer power
- 3.10.3 Threat of new entrants
- 3.10.4 Threat of substitutes
- 3.10.5 Industry rivalry
3.11 PESTEL analysis

Chapter 4 Competitive Landscape, 2023

4.1 Introduction
4.2 Company market share analysis
4.3 Competitive positioning matrix
4.4 Strategic outlook matrix

Chapter 5 Market Estimates and Forecast, By Technology, 2021 - 2032 (USD Million)

5.1 Key trends
5.2 Sensor technologies
5.3 Robotics and automation equipment
5.4 Connectivity solutions
5.5 Data management and analytics platforms
5.6 Control systems
5.7 Others

Chapter 6 Market Estimates and Forecast, By Application, 2021 - 2032 (USD Million)

6.1 Key trends
6.2 Crop monitoring and management
6.3 Livestock monitoring and management
6.4 Soil and field analysis
6.5 Climate control and management
6.6 Supply chain optimization
6.7 Others

Chapter 7 Market Estimates and Forecast, By End User, 2021 - 2032 (USD Million)

7.1 Key trends
7.2 Crop production
7.3 Livestock production

Chapter 8 Market Estimates and Forecast, By Control System, 2021 - 2032 (USD Million)

8.1 Key trends
8.2 Irrigation controllers
8.3 Climate control systems

Chapter 9 Market Estimates and Forecast, By Region, 2021 - 2032 (USD Million)

9.1 Key trends
9.2 North America
- 9.2.1 U.S.
- 9.2.2 Canada
9.3 Europe
- 9.3.1 UK
- 9.3.2 Germany
- 9.3.3 France
- 9.3.4 Italy
- 9.3.5 Spain
- 9.3.6 Netherlands
- 9.3.7 Rest of Europe
9.4 Asia Pacific
- 9.4.1 China
- 9.4.2 India
- 9.4.3 Japan
- 9.4.4 South Korea
- 9.4.5 ANZ
- 9.4.6 Singapore
- 9.4.7 Rest of Asia Pacific
9.5 Latin America
- 9.5.1 Brazil
- 9.5.2 Mexico
- 9.5.3 Rest of Latin America
9.6 MEA
- 9.6.1 UAE
- 9.6.2 Israel
- 9.6.3 South Africa
- 9.6.4 Saudi Arabia
- 9.6.5 Rest of MEA