🏗️ 项目案例
真实工程项目和应用案例
共 13 个资源
John Deere Operations Center + Case IH AFS Integration in Iowa Corn Belt
Integrated precision agriculture deployment across 42,000 acres of row-crop farmland across central Iowa (Polk, Story, and Boone counties), combining John Deere Operations Center (v6.12) with Case IH AFS Connect (v2.8) to enable interoperable autonomous fleet management for corn-soybean rotation. Involves 32 tractors (John Deere 8R & Case IH 8230), 18 planters, 14 sprayers, and 9 harvesters operated by 7 commercial farming cooperatives.
EcoRobotics Swarm-Tillage Deployment in Central Valley Almond Orchards
EcoRobotics deployed its Swarm-Tillage platform across 1,200 acres of mature almond orchards in California’s Central Valley (Fresno and Kern Counties) during the 2023–2024 dormant season. The system comprised 42 autonomous electric tillage units operating in coordinated swarms to perform precision soil aeration and organic matter incorporation beneath tree canopies without damaging drip lines or root zones.
FarmWise AI Weeder Fleet Scaling in Salinas Lettuce Production
FarmWise deployed its autonomous AI-powered weeder fleet across 1,200 acres of commercial lettuce fields in the Salinas Valley, California—the 'Salad Bowl of the World'—during the 2023–2024 growing season. The operation supported 14 grower partners, running 28 robotic units in parallel across day and night shifts, covering ~8–10 acres per unit per day under real-world irrigation, soil, and crop-density variability.
AGCO Fendt Xaver Autonomous Grain Cart System in Saskatchewan Wheat Fields
AGCO deployed the Fendt Xaver autonomous grain cart system in commercial wheat operations across southern Saskatchewan, Canada — a high-yield, large-scale prairie farming region. The pilot involved 12 Xaver units operating across 45,000 acres of irrigated and rain-fed wheat fields during the 2023 harvest season, integrated with Fendt 1100 Vario tractors and combine harvesters.
Bayer Climate FieldView + Iron Ox Hydroponic Greenhouse Autonomy Pilot
A 2023–2024 pilot collaboration between Bayer (via Climate FieldView™) and Iron Ox in Salinas, California, integrating FieldView’s cloud-based agronomic analytics with Iron Ox’s autonomous hydroponic greenhouse system. The pilot spanned a 1.2-acre modular greenhouse facility operating year-round with 12 robotic growing modules, serving commercial leafy green production for regional retail distribution.
Farm Machinery Lifecycle Management in Large-Scale Industrial Projects
Integrated farm machinery lifecycle management system deployed across 42,000 ha of irrigated cropland in the San Joaquin Valley, California, supporting year-round operations for almond, tomato, and alfalfa production. Project involved 387 heavy-duty machines—including 92 self-propelled harvesters, 145 tractors (180–450 HP), and 150 precision application units—managed by a centralized digital platform.
Small-Scale Farm Machinery Lifecycle Management Implementation
A pilot implementation of machinery lifecycle management (MLM) for a cooperative of 42 small-scale maize and soybean farms in the Midwest U.S. (Iowa and Illinois). The fleet comprised 68 aging assets: 23 tractors (50–120 HP), 19 planters, 14 sprayers, and 12 harvesters—average age 14.7 years, with inconsistent maintenance records and no digital asset tracking.
Farm Machinery Lifecycle Management in Challenging Environments
A large-scale commercial farming operation in the Sahel region of West Africa (Burkina Faso), managing 12,000 hectares of rain-fed and irrigated cropland. The fleet comprises 48 tractors (120–250 HP), 32 harvesters, 60 precision planters, and auxiliary equipment—operating under high-temperature (up to 48°C), abrasive sandy soils, limited access to skilled technicians, and intermittent electricity/fuel supply.
Cost Optimization in Farm Machinery Lifecycle Management
A Tier-1 agricultural equipment manufacturer in the U.S. Midwest implemented lifecycle cost optimization across a fleet of 1,200 high-horsepower tractors and precision planters deployed across 48 commercial farming cooperatives spanning Iowa, Illinois, and Indiana. The program covered machinery acquisition through end-of-life disposition over a 15-year planning horizon.
Soil-Implement Interaction Mechanics in Large-Scale Industrial Projects
Major industrial facility
Small-Scale Soil-Implement Interaction Mechanics Implementation
Small project with budget constraints
Soil-Implement Interaction Mechanics in Challenging Environments
Project in extreme conditions
Cost Optimization in Soil-Implement Interaction Mechanics
Cost reduction initiative