IoT in Agriculture Market: Global Industry Analysis, Trends, Market Size, and Forecasts up to 2030

IoT in Agriculture Market: Global Industry Analysis, Trends, Market Size, and Forecasts up to 2030



The report on the global IoT in agriculture market provides qualitative and quantitative analysis for the period from 2021-2030. The IoT in Agriculture market is experiencing rapid growth, fueled by the increasing demand for smart farming solutions and the need to address challenges such as climate change, water scarcity, and the growing global population. The global IoT in agriculture market was valued at USD 13.01 billion in 2022 and is expected to reach USD 27.86 billion in 2030, with a CAGR of 10.01% during the forecast period of 2023-2030. The study on IoT in agriculture market covers the analysis of the leading geographies such as North America, Europe, Asia Pacific, and RoW for the period of 2021-2030.

The report on IoT in agriculture market is a comprehensive study and presentation of drivers, restraints, opportunities, demand factors, market size, forecasts, and trends in the global IoT in agriculture market over the period of 2021-2030. Moreover, the report is a collective presentation of primary and secondary research findings.

Porter's five forces model in the report provides insights into the competitive rivalry, supplier and buyer positions in the market and opportunities for the new entrants in the global IoT in agriculture market over the period of 2021-2030. Further, IGR- Growth Matrix gave in the report brings an insight into the investment areas that existing or new market players can consider.

One of the key trends driving the growth of the IoT in Agriculture market is the adoption of precision farming techniques, which involve the use of sensors, drones, and other IoT devices to monitor and manage crops more effectively. This allows farmers to make data-driven decisions, optimize resources, and ultimately increase yields. Additionally, the integration of AI and machine learning technologies is enabling more advanced predictive analytics and automation in agriculture, leading to further efficiency gains.

Report Findings

1) Drivers

The rising adoption of remote sensing, monitoring technologies, and VRT by farmers worldwide is driving the growth of the market.

The increasing demand for food and decreasing cultivate land globally is also a major factor contributing to the growth of the market.

2) Restraints

The upfront cost of the equipment can hamper the growth of the market.

3) Opportunities

Increasing adoption of the drones and UAVs for sparing fertilizers and for monitoring purposes will create ample growth opportunities for the market.

The IoT in Agriculture market is fragmented, with a mix of large multinational companies and innovative startups competing for market share. North America currently leads the market, followed by Europe and Asia Pacific. However, with increasing investment in IoT technologies and government initiatives to promote smart agriculture practices, emerging markets in Latin America, Africa, and the Middle East are also poised for significant growth in the coming years.

Looking ahead, the future of the IoT in Agriculture market looks promising, with continued advancements in sensor technology, connectivity, and data analytics driving innovation in the industry. As farmers around the world strive to produce more with less, IoT solutions will play a crucial role in helping them achieve their goals sustainably and profitably.

Research Methodology

A) Primary Research

Our primary research involves extensive interviews and analysis of the opinions provided by the primary respondents. The primary research starts with identifying and approaching the primary respondents, the primary respondents are approached include

1. Key Opinion Leaders associated with Infinium Global Research

2. Internal and External subject matter experts

3. Professionals and participants from the industry

Our primary research respondents typically include

1. Executives working with leading companies in the market under review

2. Product/brand/marketing managers

3. CXO level executives

4. Regional/zonal/ country managers

5. Vice President level executives.

B) Secondary Research

Secondary research involves extensive exploring through the secondary sources of information available in both the public domain and paid sources. At Infinium Global Research, each research study is based on over 500 hours of secondary research accompanied by primary research. The information obtained through the secondary sources is validated through the crosscheck on various data sources.

The secondary sources of the data typically include

1. Company reports and publications

2. Government/institutional publications

3. Trade and associations journals

4. Databases such as WTO, OECD, World Bank, and among others.

5. Websites and publications by research agencies

Segment Covered

The global IoT in agriculture market is segmented on the basis of system, and application.

The Global IoT in Agriculture Market by System

Automation & Control Systems

Sensing & Monitoring Devices

Livestock Monitoring Hardware

Fish Farming Hardware

Smart Greenhouse Hardware

Software

The Global IoT in Agriculture Market by Application

Precision Farming

Livestock Monitoring

Smart Greenhouses

Monitor Climate Conditions

Remote Sensing

Computer Imaging

Company Profiles

The companies covered in the report include

Deere and Company

DeLaval

Raven Industries, Inc.

Trimble Inc.

Innovasea Systems Inc.

AKVA Group

Climate LLC.

CropX inc.

Hexagon AB

TeeJet Technologies

What does this Report Deliver?

1. Comprehensive analysis of the global as well as regional markets of the IoT in agriculture market.

2. Complete coverage of all the segments in the IoT in agriculture market to analyze the trends, developments in the global market and forecast of market size up to 2030.

3. Comprehensive analysis of the companies operating in the global IoT in agriculture market. The company profile includes analysis of product portfolio, revenue, SWOT analysis and latest developments of the company.

4. IGR- Growth Matrix presents an analysis of the product segments and geographies that market players should focus to invest, consolidate, expand and/or diversify.


Chapter 1. Preface
1.1. Report Description
1.2. Research Methods
1.3. Research Approaches
Chapter 2. Executive Summary
2.1. IoT in Agriculture Market Highlights
2.2. IoT in Agriculture Market Projection
2.3. IoT in Agriculture Market Regional Highlights
Chapter 3. Global IoT in Agriculture Market Overview
3.1. Introduction
3.2. Market Dynamics
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.3. Porter's Five Forces Analysis
3.4. IGR-Growth Matrix Analysis
3.4.1. IGR-Growth Matrix Analysis by System
3.4.2. IGR-Growth Matrix Analysis by Application
3.4.3. IGR-Growth Matrix Analysis by Region
3.5. Value Chain Analysis of IoT in Agriculture Market
Chapter 4. IoT in Agriculture Market Macro Indicator Analysis
Chapter 5. Company Profiles and Competitive Landscape
5.1. Competitive Landscape in the Global IoT in Agriculture Market
5.2. Companies Profiles
5.2.1. Deere and Company
5.2.2. DeLaval
5.2.3. Raven Industries, Inc.
5.2.4. Trimble Inc.
5.2.5. Innovasea Systems Inc.
5.2.6. AKVA Group
5.2.7. Climate LLC.
5.2.8. CropX inc.
5.2.9. Hexagon AB
5.2.10. TeeJet Technologies
Chapter 6. Global IoT in Agriculture Market by System
6.1. Automation & Control Systems
6.2. Sensing & Monitoring Devices
6.3. Livestock Monitoring Hardware
6.4. Fish Farming Hardware
6.5. Smart Greenhouse Hardware
6.6. Software
Chapter 7. Global IoT in Agriculture Market by Application
7.1. Precision Farming
7.2. Livestock Monitoring
7.3. Smart Greenhouses
7.4. Monitor Climate Conditions
7.5. Remote Sensing
7.6. Computer Imaging
Chapter 8. Global IoT in Agriculture Market by Region 2023-2030
8.1. North America
8.1.1. North America IoT in Agriculture Market by System
8.1.2. North America IoT in Agriculture Market by Application
8.1.3. North America IoT in Agriculture Market by Country
8.1.3.1. The U.S. IoT in Agriculture Market
8.1.3.1.1. The U.S. IoT in Agriculture Market by System
8.1.3.1.2. The U.S. IoT in Agriculture Market by Application
8.1.3.2. Canada IoT In Agriculture Market
8.1.3.2.1. Canada IoT in Agriculture Market by System
8.1.3.2.2. Canada IoT in Agriculture Market by Application
8.1.3.3. Mexico IoT In Agriculture Market
8.1.3.3.1. Mexico IoT in Agriculture Market by System
8.1.3.3.2. Mexico IoT in Agriculture Market by Application
8.2. Europe
8.2.1. Europe IoT in Agriculture Market by System
8.2.2. Europe IoT in Agriculture Market by Application
8.2.3. Europe IoT in Agriculture Market by Country
8.2.3.1. Germany IoT In Agriculture Market
8.2.3.1.1. Germany IoT in Agriculture Market by System
8.2.3.1.2. Germany IoT in Agriculture Market by Application
8.2.3.2. United Kingdom IoT in Agriculture Market
8.2.3.2.1. United Kingdom IoT in Agriculture Market by System
8.2.3.2.2. United Kingdom IoT in Agriculture Market by Application
8.2.3.3. France IoT In Agriculture Market
8.2.3.3.1. France IoT in Agriculture Market by System
8.2.3.3.2. France IoT in Agriculture Market by Application
8.2.3.4. Rest of Europe IoT in Agriculture Market
8.2.3.4.1. Rest of Europe IoT in Agriculture Market by System
8.2.3.4.2. Rest of Europe IoT in Agriculture Market by Application
8.3. Asia Pacific
8.3.1. Asia Pacific IoT in Agriculture Market by System
8.3.2. Asia Pacific IoT in Agriculture Market by Application
8.3.3. Asia Pacific IoT in Agriculture Market by Country
8.3.3.1. China IoT In Agriculture Market
8.3.3.1.1. China IoT in Agriculture Market by System
8.3.3.1.2. China IoT in Agriculture Market by Application
8.3.3.2. Japan IoT In Agriculture Market
8.3.3.2.1. Japan IoT in Agriculture Market by System
8.3.3.2.2. Japan IoT in Agriculture Market by Application
8.3.3.3. India IoT In Agriculture Market
8.3.3.3.1. India IoT in Agriculture Market by System
8.3.3.3.2. India IoT in Agriculture Market by Application
8.3.3.4. Rest of Asia-Pacific IoT in Agriculture Market
8.3.3.4.1. Rest of Asia-Pacific IoT in Agriculture Market by System
8.3.3.4.2. Rest of Asia-Pacific IoT in Agriculture Market by Application
8.4. RoW
8.4.1. RoW IoT in Agriculture Market by System
8.4.2. RoW IoT in Agriculture Market by Application
8.4.3. RoW IoT in Agriculture Market by Sub-region
8.4.3.1. Latin America IoT in Agriculture Market
8.4.3.1.1. Latin America IoT in Agriculture Market by System
8.4.3.1.2. Latin America IoT in Agriculture Market by Application
8.4.3.2. Middle East IoT in Agriculture Market
8.4.3.2.1. Middle East IoT in Agriculture Market by System
8.4.3.2.2. Middle East IoT in Agriculture Market by Application
8.4.3.3. Africa IoT in Agriculture Market
8.4.3.3.1. Africa IoT in Agriculture Market by System
8.4.3.3.2. Africa IoT in Agriculture Market by Application

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