北美自主非公路和农业机器人设备产业的成长机会

自主改造和OEM垂直产业为建筑、采矿和农业领域的全现场自动化开拓了道路

非公路设备自动化在过去三年中经历了快速发展。在全球整体，运作中的自动驾驶非公路设备总数将从 2021 年的约 800 台增加到 2022 年的约 1,700 台，增加一倍以上。

北美是非公路自动化的领先中心之一，多个试点项目正在进行中，吸引了为采矿、城市建设和高价值作物种植园基本客群提供服务的自主解决方案供应商、新兴企业和供应商。商业性采用正在不断增加。

Frost & Sullivan 预计，随着建筑和农业领域对製程自动化的需求增加，短期内将更多地采用自主设备，首先是小型机械领域，然后倾向于大型机器。美国非公路设备（运作中）总数约为790万台，很可能成为自动驾驶设备市场的全球领导者。儘管美国所有非公路应用领域（包括建筑、采矿和农业）的相关人员预计将加速采用自主解决方案，但预计加拿大将成为自主采矿解决方案的主要目标市场。

目录

战略衝动

• 为什么成长如此困难？
• The Strategic Imperative 8（TM）
• 策略要务对非公路设备产业的影响
• 成长机会推动Growth Pipeline Engine（TM）

成长环境

• 分析范围
• 市场区隔
• 自主非公路设备的运作能力
• 自动化程度
• 主要发现
• 生长促进和阻碍因素
• 自主非公路设备：全球市场规模
• 自主非公路设备：市场演变
• 自主非公路设备：市场预测
• 自主非公路设备：主要趋势
• 竞争环境

主要自动驾驶措施和监管状况

• 美国自主非公路倡议
• 国际标准化组织 (ISO) 框架
• 国际电工委员会 (IEC) 框架
• 美国自动驾驶技术管理倡议
• 美国加速特种作物生产自动化和机械化计划
• 美国农业部自动化和机械化计画资金筹措
• 监管评估：无人机
• 商业用途无人机营运现状

自主非公路公路：主要趋势与市场开拓

• 自主非公路市场：主要趋势驱动
• 自主非公路：生态系统
• 自主挖矿：市场概览
• 自主采矿经营模式案例研究
• 市场概览 非公路改装解决方案
• 非公路改装解决方案：EIO

农业机器人：市场概况与趋势

• 农业机器人：市场概况
• 农业机器人：技术展望
• 农业机器人：趋势和影响概述
• 农业机器人：关键应用
• 生长促进因子
• 成长抑制因素

价格和经营模式

• 自主非公路设备定价概述
• 自主改装实施及经营模式分析
• 协作机器人：案例研究- Burro AI
• 作物保护自主喷雾机案例研究

成长机会分析：自主非公路设备与农业机器人

• 成长指标
• 自主非公路 EIO 预测
• 自主非公路改装EIO 预测
• 农业机器人类型收益预测

非公路使用案例分析与最终客户观点

• 各行业的市场机会
• 农业机器人：使用案例的优势
• 时间图：非公路

成长机会宇宙

• 成长机会一：把握应用领域需求
• 成长机会2：OEM透过併购垂直扩张
• 成长机会3：按设备类型分類的电动机会
• 自主非公路设备：结论与未来前景
• 农业机器人：结论与未来展望

下一步

Autonomous Retrofits and OEM Vertical Expansion Will Pave the Way for Complete Site Automation in Construction, Mining, and Agriculture

The automation of off-highway equipment has experienced rapid development in the past 3 years. Globally, the total amount of autonomous off-highway equipment in operation more than doubled to reach approximately 1,700 units in 2022, from approximately 800 in 2021.

North America is one of the major off-highway automation hubs, with several pilots in place and a degree of commercial adoption that has attracted autonomous solution providers, startups, and suppliers to cater to customer bases in mining, urban construction, and high-value crop plantations.

As the demand for process automation increases in construction and agriculture, Frost & Sullivan expects increasing adoption of autonomous equipment starting with smaller machinery segments in the short term, and later leaning into larger machinery. With a total off-highway equipment volume (in operation) of approximately 7.9 million units, the United States holds strong potential to become a global leader in terms of the autonomous equipment market. While the US stakeholders across all off-highway application areas (including construction, mining, and agriculture) are expected to ramp up the adoption of autonomous solutions, Canada is expected to become a key target market for autonomous mining solutions.

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Off-highway Equipment Industry
• Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Environment

• Scope of Analysis
• Market Segmentation
• Operating Capacity of Autonomous Off-highway Equipment
• Levels of Automation
• Key Findings
• Growth Drivers and Restraints
• Global Autonomous Off-highway Equipment Parc
• Evolution of Autonomous Off-highway Equipment Parc
• Autonomous Off-highway Equipment Parc Forecast
• Autonomous Off-highway: Key Trends
• Competitive Environment

Key Autonomous Initiatives and Regulatory Landscape

• US Autonomous Off-highway Initiatives
• International Organization for Standardization (ISO) Framework
• International Electrotechnical Commission (IEC) Framework
• US Autonomous Technology Administrative Efforts
• USDA Programs Accelerating Automation and Mechanization of Specialty Crops Production
• USDA Automation and Mechanization Program Funding
• Regulatory Assessment: Drones
• Current State of Drone Operation for Commercial Purposes

Autonomous Off-highway: Key Trends and Market Developments

• Key Trends Driving the Autonomous Off-highway Market
• Autonomous Off-highway Ecosystem
• Autonomous Mining: Market Overview
• Autonomous Mining: Business Model Case Study
• Market Overview: Off-highway Retrofit Solutions
• Off-highway Retrofit Solutions: EIO

Agricultural Robotics: Market Overview and Trends

• Agricultural Robotics: Market Overview
• Technology Landscape for Agricultural Robots
• Agricultural Robotics Trends Overview and Impact
• Agricultural Robots: Key Applications
• Growth Drivers
• Growth Restraints

Pricing and Business Model

• Autonomous Off-highway Equipment: Pricing Overview
• Autonomous Retrofit: Implementation and Business Model Analysis
• Collaborative Robots: Case Study-Burro AI
• Crop Protection: Autonomous Sprayer Case Study

Growth Opportunity Analysis: Autonomous Off-highway Equipment and Agricultural Robotics

• Growth Metrics
• Autonomous Off-highway EIO Forecast
• Autonomous Off-highway Retrofit EIO Forecast
• Agricultural Robots Revenue Forecast by Type

Off-highway: Use Case Analysis and End Customer Perspectives

• Market Opportunities by Industry
• Agricultural Robots: Use Case Strength
• Hassle Map: Off-highway

Growth Opportunity Universe

• Growth Opportunity 1: Demand Uptake by Application Area
• Growth Opportunity 2: OEM Vertical Expansion Through Mergers and Acquisitions
• Growth Opportunity 3: Electrification Opportunities by Equipment Type
• Autonomous Off-highway Equipment: Conclusion and Future Outlook
• Agricultural Robotics: Conclusion and Future Outlook

Next Steps

• Your Next Steps
• Why Frost, Why Now?
• List of Exhibits
• Legal Disclaimer