作物監測設備市場 - 2023-2030

概述

2022年，全球作物監測設備市場規模達到25.6億美元，預計2030年將達到42.4億美元，2023-2030年預測期間CAGR為6.5%。

物聯網 (IoT) 和人工智慧 (AI) 技術的融合正在推動作物監測設備的創新。支援物聯網的感測器收集有關作物健康和環境條件各個方面的即時資料，而人工智慧演算法則分析這些資料，為農民提供可行的見解。這一趨勢導致了更有效率的監控設備的開發，這些設備可提供更高的精度和決策能力。

例如，2023 年 7 月 25 日，全球領先的人工智慧衛星影像分析供應商 EOS Data Analytics (EOSDA) 推出了 EOSDA 作物監測。這個線上精準農業平台利用衛星技術進行田間監測，現已在法國推出。該平台為當地農民提供了免費監測多達 300 公頃田地的機會。

在該地區大規模農業經營和先進農業基礎設施的推動下，北美在精準農業技術的採用方面處於全球領先地位。北美農民擴大投資於作物監測設備，以最佳化投入、提高作物產量並提高農場整體效率。先進技術的可用性、有利的政府政策以及在全球市場上保持競爭力的需求推動了這一趨勢。

動力學

精準農業的需求不斷增加

對精準農業的需求不斷成長預計將推動全球作物監測設備市場的顯著成長。精準農業涉及使用 GPS、感測器、無人機和衛星影像等先進技術來最佳化農業實踐並最大限度地提高作物產量。這些技術使農民能夠高精度和高效地監測作物健康、土壤狀況和環境因素。

隨著精準農業的採用不斷增加，對作物監測設備的需求也隨之增加。這些設備在收集和分析與作物生長和管理各個方面相關的資料發揮著至關重要的作用。它們為農民提供有關作物健康、蟲害、濕度和養分缺乏的即時訊息，以便及時干預和做出更好的決策。

例如，2023年8月2日，印度政府從2023年夏播季節開始在12個邦啟動試點數位作物調查，以加強播種資料的收集。印度農業部長表示，“政府已從 2023 年夏令季開始在 12 個邦開展試點數位作物調查 (DCS)”，強調了改善農業活動資料收集流程的承諾。

作物監測設備的不斷進步

作物監測設備的不斷進步將成為全球作物監測設備市場成長的重要動力。這些進步涵蓋了廣泛的技術創新，旨在提高作物監測設備的能力、效率和可用性，從而滿足農民和農業利益相關者不斷變化的需求。

感測器技術的進步使得更複雜、更精確的監測設備的開發成為可能。這些感測器可以以更高的精度和粒度測量各種參數，例如溫度、濕度、土壤濕度、養分水平和作物健康指標。因此，農民可以更詳細地了解作物狀況，並在灌溉、施肥和病蟲害防治方面做出更明智的決策。

例如，2023 年11 月6 日，印度農業和農民福利部(DA&FW) 與瓦德瓦尼人工智慧研究所(Wadhwani AI) 合作，推出了Krishi 24/7，這是一款開創性的人工智慧驅動解決方案，專為農業新聞的自動化監測和分析。這個創新平台得到了 Google.org 的支持，標誌著利用技術增強農業資訊存取和分析的一個重要里程碑。

初始投資高

購買農作物監測設備（包括感測器、無人機、軟體系統和其他必要的基礎設施）的初始投資可能很大。對於小規模農戶或在財政資源有限的地區經營的農戶來說，前期成本可能過高，導致不願意採用這些技術。這可能會限制作物監測設備的市場滲透，特別是在農業構成經濟重要組成部分的發展中國家。

由於擔心投資回報（ROI），農民猶豫是否要投資農作物監測設備。雖然這些技術有潛力提高作物產量、降低投入成本並提高農場整體效率，但其效益並不能立即顯現或保證。在不清楚預期回報的情況下，農民對進行重大投資持謹慎態度，他們在精準農業技術方面的經驗有限。

目錄

目錄

第 1 章：方法與範圍

• 研究方法論
• 報告的研究目的和範圍

第 2 章：定義與概述

第 3 章：執行摘要

• 按產品類型分類的片段
• 按應用程式片段
• 按地區分類的片段

第 4 章：動力學

• 影響因素
  • 促進要素
    • 精準農業的需求不斷增加
    • 作物監測設備的不斷進步
  • 限制
    • 初始投資高
  • 機會
  • 影響分析

第 5 章：產業分析

• 波特五力分析
• 供應鏈分析
• 定價分析
• 監管分析
• 俄烏戰爭影響分析
• DMI 意見

第 6 章：COVID-19 分析

• COVID-19 分析
  • 新冠疫情爆發前的情景
  • 新冠疫情期間的情景
  • 新冠疫情後的情景
• COVID-19 期間的定價動態
• 供需譜
• 疫情期間政府與市場相關的舉措
• 製造商策略舉措
• 結論

第 7 章：按產品類型

• 軟體與硬體
• 配件
• 顯示器
• 接收器
• 感應器
• 其他

第 8 章：按應用

• 天氣預報
• 作物管理
• 勞動管理
• 財務管理
• 其他

第 9 章：按地區

• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 歐洲
  • 德國
  • 英國
  • 法國
  • 義大利
  • 俄羅斯
  • 歐洲其他地區
• 南美洲
  • 巴西
  • 阿根廷
  • 南美洲其他地區
• 亞太
  • 中國
  • 印度
  • 日本
  • 澳洲
  • 亞太其他地區
• 中東和非洲

第 10 章：競爭格局

• 競爭場景
• 市場定位/佔有率分析
• 併購分析

第 11 章：公司簡介

• Deere & Company
• 公司簡介
• 產品組合和描述
• 財務概覽
• 主要進展
• AGCO Corporation
• Raven Industries, Inc.
• Taranis
• Agrisource Data
• Dicke-John Corporation
• Pessl Instruments
• Mouser Electronics, Inc.
• Topcon
• AgJunction LLC

第 12 章：附錄

Overview

Global Crop Monitoring Devices Market reached US$ 2.56 billion in 2022 and is expected to reach US$ 4.24 billion by 2030, growing with a CAGR of 6.5% during the forecast period 2023-2030.

The integration of the Internet of Things (IoT) and Artificial Intelligence (AI) technologies is driving innovation in crop monitoring devices. IoT-enabled sensors collect real-time data on various aspects of crop health and environmental conditions, while AI algorithms analyze this data to provide actionable insights for farmers. This trend is leading to the development of more efficient monitoring devices that offer enhanced precision and decision-making capabilities.

For instance, on July 25, 2023, EOS Data Analytics (EOSDA), a leading global provider of AI-powered satellite imagery analytics, introduced EOSDA Crop Monitoring. This online precision agriculture platform utilizes satellite-based technology for field monitoring and is now available in France. The platform offers local farmers the opportunity to monitor up to 300 hectares of fields at no cost.

North America leads the adoption of precision agriculture technologies globally, driven by the region's large-scale farming operations and advanced agricultural infrastructure. Farmers in North America are increasingly investing in crop monitoring devices to optimize inputs, improve crop yields, and enhance overall farm efficiency. This trend is fueled by the availability of advanced technologies, favorable government policies, and the need to remain competitive in the global market.

Dynamics

Increasing Demand for Precision Agriculture

The increasing demand for precision agriculture is expected to drive significant growth in the global crop monitoring devices market. Precision agriculture involves the use of advanced technologies such as GPS, sensors, drones, and satellite imagery to optimize farming practices and maximize crop yields. These technologies enable farmers to monitor crop health, soil conditions, and environmental factors with a high degree of accuracy and efficiency.

As the adoption of precision agriculture continues to rise, there is a corresponding increase in the demand for crop monitoring devices. These devices play a crucial role in collecting and analyzing data related to various aspects of crop growth and management. They provide farmers with real-time information about crop health, pest infestations, moisture levels, and nutrient deficiencies, allowing for timely interventions and better decision-making.

For instance, on August 2, 2023, the government of India initiated a pilot digital crop survey across 12 states starting from the kharif (summer-sown) season of 2023 year to enhance the collection of sowing data. The Agriculture Minister of India stated, "The Government has introduced a pilot Digital Crop Survey (DCS) in 12 states from the Kharif season of 2023," highlighting the commitment to improving data collection processes for agricultural activities.

Continuous Advancements in Crop Monitoring Devices

Continuous advancements in crop monitoring devices are poised to be a significant driver of growth in the global crop monitoring devices market. These advancements encompass a wide range of technological innovations aimed at enhancing the capabilities, efficiency, and usability of crop monitoring devices, thereby addressing the evolving needs of farmers and agricultural stakeholders.

Advancements in sensor technology are enabling the development of more sophisticated and precise monitoring devices. These sensors can measure various parameters such as temperature, humidity, soil moisture, nutrient levels, and crop health indicators with greater accuracy and granularity. As a result, farmers can obtain more detailed insights into their crops' conditions and make more informed decisions regarding irrigation, fertilization, and pest management.

For instance, on November 6, 2023, the Department of Agriculture and Farmers Welfare (DA&FW) of India, in partnership with the Wadhwani Institute for Artificial Intelligence (Wadhwani AI), introduced Krishi 24/7, a pioneering AI-driven solution designed for automated monitoring and analysis of agricultural news. This innovative platform received support from Google.org, marking a significant milestone in leveraging technology to enhance agricultural information access and analysis.

High Initial Investment

The initial investment for acquiring crop monitoring devices, including sensors, drones, software systems, and other necessary infrastructure, can be substantial. For small-scale farmers or those operating in regions with limited financial resources, the upfront cost may be prohibitive, leading to a reluctance to adopt these technologies. This can limit the market penetration of crop monitoring devices, especially in developing countries where agriculture forms a significant part of the economy.

Farmers hesitate to invest in crop monitoring devices due to concerns about the return on investment (ROI). While these technologies have the potential to increase crop yields, reduce input costs, and improve overall farm efficiency, the benefits are not immediately apparent or guaranteed. Farmers are cautious about making significant investments without a clear understanding of the expected returns, they have limited experience with precision agriculture technologies.

Segment Analysis

The global crop monitoring devices market is segmented based on product type, application, and region.

Growing Demand for Advanced Software & Hardware Solutions

The software & hardware segment holds the largest share of the global crop monitoring devices market. The hardware includes various physical devices used for crop monitoring are essential for collecting data on crop health, soil conditions, weather patterns, and other environmental factors. As the adoption of precision agriculture technologies continues to rise, there is a growing demand for advanced hardware solutions that offer higher accuracy, greater coverage, and improved durability.

The software includes farm management software platforms, data analytics algorithms, and mobile applications designed to streamline data management and improve farm productivity. With the increasing complexity and volume of data generated by crop monitoring devices, there is a growing demand for advanced software solutions that can handle data integration, analysis, and visualization effectively.

For instance, on February 6, 2024, CropX Technologies, a renowned provider of digital agriculture solutions, launched a new groundbreaking product in collaboration with Reinke Irrigation aimed at enhancing water management practices for farmers. This innovation leverages field-specific Evapotranspiration (ET) measurements to precisely monitor crop water usage.

Geographical Penetration

Growing Technological Innovations and a Strong Consumer Base in North America

North America has a strong and diverse agricultural sector, characterized by large-scale farming operations, high levels of mechanization, and a focus on maximizing yields and profitability. Farmers in the region are early adopters of new technologies that offer tangible benefits in terms of productivity, efficiency, and sustainability. The strong demand for crop monitoring devices from North American farmers contributes to the region's dominance in the global market.

North America is at the forefront of technological innovation, particularly in the agricultural sector. The region boasts advanced research and development capabilities, a robust infrastructure for technology deployment, and a culture of innovation and entrepreneurship. These factors contribute to the development and adoption of cutting-edge crop monitoring devices in North America, contributing to market dominance.

COVID-19 Impact Analysis

The pandemic disrupted global supply chains, leading to delays in the manufacturing and distribution of crop monitoring devices. Restrictions on international trade, temporary closures of manufacturing facilities, and disruptions in logistics and transportation networks affected the availability of components and finished products, leading to supply shortages and delays in fulfilling orders.

The COVID-19 pandemic altered demand dynamics for crop monitoring devices, with varying effects across different regions and sectors. While some farmers faced financial constraints and deferred investments in new technologies, others accelerated adoption to enhance operational efficiency and resilience. Additionally, the shift towards remote work and social distancing measures increased the demand for technologies that enable remote monitoring and management of agricultural operations.

For instance, on March 9, 2020, Valley Irrigation introduced a comprehensive platform designed to streamline data management, control, and sharing among growers' connected devices on the farm. Known as Valley 365, this cloud-based platform offers a single sign-on experience for connected crop management, consolidating various Valley technologies into one user-friendly interface.

Russia-Ukraine War Impact Analysis

The conflict led to disruptions in supply chains, particularly in Eastern Europe. Both Russia and Ukraine are significant exporters of agricultural commodities such as grains and oilseeds. The disruption in transportation routes and logistical challenges hindered the supply of raw materials and components necessary for manufacturing crop monitoring devices, affecting the global market.

The geopolitical tensions between Russia and Ukraine created market uncertainty and volatility, impacting investor confidence and business decisions. Uncertainty regarding the availability of agricultural products from the region, coupled with fluctuating commodity prices, influenced farmers' investment decisions in crop monitoring devices. This uncertainty dampened market growth and expansion efforts during the period of conflict.

By Product Type

• Software & Hardware
• Accessories
• Displays
• Receivers
• Sensors
• Others

By Application

• Weather Forecasting
• Crop Management
• Labour Management
• Financial Management
• Others

By Region

• North America
  • U.S.
  • Canada
  • Mexico
• Europe
  • Germany
  • UK
  • France
  • Italy
  • Russia
  • Rest of Europe
• South America
  • Brazil
  • Argentina
  • Rest of South America
• Asia-Pacific
  • China
  • India
  • Japan
  • Australia
  • Rest of Asia-Pacific
• Middle East and Africa

Key Developments

• On June 8, 2023, PepsiCo India, a leading FMCG company, collaborated with Cropin, an agriculture cloud company, to introduce a crop intelligence platform focused on monitoring potato yields. This innovative platform features mobile app-compatible dashboards, providing farmers with user-friendly tools for monitoring their crops effectively.
• On October 5, 2023, Arya.ag, the largest and sole profitable grain commerce platform in India, partnered with Crystal Crop Protection Limited, a trailblazer in delivering inventive crop protection, seeds, and farming solutions. This partnership introduces a nationwide crop monitoring initiative across India, leveraging Arya.ag's cutting-edge satellite crop monitoring tool, "Prakshep."
• On February 17, 2023, FarmSense, an innovative agricultural technology startup, launched its new highly lauded real-time pest monitoring and identification device, FlightSensor. This initial rollout will include around 1,000 FlightSensor units, which will be distributed to handpicked commercial pest advisors, farm managers, and growers based in California.

Competitive Landscape

The major global players in the crop monitoring devices market include Deere & Company, AGCO Corporation, Raven Industries, Inc., Taranis, Agrisource Data, Dicke-John Corporation, Pessl Instruments, Mouser Electronics, Inc., Topcon, and AgJunction LLC.

Why Purchase the Report?

• To visualize the global crop monitoring devices market segmentation based on product type, application, and region, as well as understand critical commercial assets and players.
• Identify commercial opportunities by analyzing trends and co-development.
• Excel data sheet with numerous crop monitoring devices market-level data points with all segments.
• PDF report consists of a comprehensive analysis after exhaustive qualitative interviews and an in-depth study.
• Product mapping available as excel consisting of critical products of all the major players.

The global crop monitoring devices market report would provide approximately 54 tables, 47 figures, and 213 Pages.

Target Audience 2023

• Manufacturers/ Buyers
• Industry Investors/Investment Bankers
• Research Professionals
• Emerging Companies

Table of Contents

Table of Contents

1.Methodology and Scope

• 1.1.Research Methodology
• 1.2.Research Objective and Scope of the Report

2.Definition and Overview

3.Executive Summary

• 3.1.Snippet by Product Type
• 3.2.Snippet by Application
• 3.3.Snippet by Region

4.Dynamics

• 4.1.Impacting Factors
  • 4.1.1.Drivers
    • 4.1.1.1.Increasing Demand for Precision Agriculture
    • 4.1.1.2.Continuous Advancements in Crop Monitoring Devices
  • 4.1.2.Restraints
    • 4.1.2.1.High Initial Investment
  • 4.1.3.Opportunity
  • 4.1.4.Impact Analysis

5.Industry Analysis

• 5.1.Porter's Five Force Analysis
• 5.2.Supply Chain Analysis
• 5.3.Pricing Analysis
• 5.4.Regulatory Analysis
• 5.5.Russia-Ukraine War Impact Analysis
• 5.6.DMI Opinion

6.COVID-19 Analysis

• 6.1.Analysis of COVID-19
  • 6.1.1.Scenario Before COVID
  • 6.1.2.Scenario During COVID
  • 6.1.3.Scenario Post COVID
• 6.2.Pricing Dynamics Amid COVID-19
• 6.3.Demand-Supply Spectrum
• 6.4.Government Initiatives Related to the Market During Pandemic
• 6.5.Manufacturers Strategic Initiatives
• 6.6.Conclusion

7.By Product Type

• 7.1.Introduction
  • 7.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 7.1.2.Market Attractiveness Index, By Product Type
• 7.2.Software & Hardware*
  • 7.2.1.Introduction
  • 7.2.2.Market Size Analysis and Y-o-Y Growth Analysis (%)
• 7.3.Accessories
• 7.4.Displays
• 7.5.Receivers
• 7.6.Sensors
• 7.7.Others

8.By Application

• 8.1.Introduction
  • 8.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
  • 8.1.2.Market Attractiveness Index, By Application
• 8.2.Weather Forecasting*
  • 8.2.1.Introduction
  • 8.2.2.Market Size Analysis and Y-o-Y Growth Analysis (%)
• 8.3.Crop Management
• 8.4.Labour Management
• 8.5.Financial Management
• 8.6.Others

9.By Region

• 9.1.Introduction
  • 9.1.1.Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
  • 9.1.2.Market Attractiveness Index, By Region
• 9.2.North America
  • 9.2.1.Introduction
  • 9.2.2.Key Region-Specific Dynamics
  • 9.2.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 9.2.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
  • 9.2.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
    • 9.2.5.1.U.S.
    • 9.2.5.2.Canada
    • 9.2.5.3.Mexico
• 9.3.Europe
  • 9.3.1.Introduction
  • 9.3.2.Key Region-Specific Dynamics
  • 9.3.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 9.3.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
  • 9.3.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
    • 9.3.5.1.Germany
    • 9.3.5.2.UK
    • 9.3.5.3.France
    • 9.3.5.4.Italy
    • 9.3.5.5.Russia
    • 9.3.5.6.Rest of Europe
• 9.4.South America
  • 9.4.1.Introduction
  • 9.4.2.Key Region-Specific Dynamics
  • 9.4.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 9.4.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
  • 9.4.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
    • 9.4.5.1.Brazil
    • 9.4.5.2.Argentina
    • 9.4.5.3.Rest of South America
• 9.5.Asia-Pacific
  • 9.5.1.Introduction
  • 9.5.2.Key Region-Specific Dynamics
  • 9.5.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 9.5.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
  • 9.5.5.Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
    • 9.5.5.1.China
    • 9.5.5.2.India
    • 9.5.5.3.Japan
    • 9.5.5.4.Australia
    • 9.5.5.5.Rest of Asia-Pacific
• 9.6.Middle East and Africa
  • 9.6.1.Introduction
  • 9.6.2.Key Region-Specific Dynamics
  • 9.6.3.Market Size Analysis and Y-o-Y Growth Analysis (%), By Product Type
  • 9.6.4.Market Size Analysis and Y-o-Y Growth Analysis (%), By Application

10.Competitive Landscape

• 10.1.Competitive Scenario
• 10.2.Market Positioning/Share Analysis
• 10.3.Mergers and Acquisitions Analysis

11.Company Profiles

• 11.1.Deere & Company*
  • 11.1.1.Company Overview
  • 11.1.2.Product Portfolio and Description
  • 11.1.3.Financial Overview
  • 11.1.4.Key Developments
• 11.2.AGCO Corporation
• 11.3.Raven Industries, Inc.
• 11.4.Taranis
• 11.5.Agrisource Data
• 11.6.Dicke-John Corporation
• 11.7.Pessl Instruments
• 11.8.Mouser Electronics, Inc.
• 11.9.Topcon
• 11.10.AgJunction LLC

LIST NOT EXHAUSTIVE

12.Appendix

• 12.1.About Us and Services
• 12.2.Contact Us