Smart Irrigation Sensors Market Research Report - Segmentation By Technology (Soil Moisture Sensors, Weather-based Sensors, Flow Sensors, Rain Sensors, Temperature Sensors); By Irrigation System (Drip Irrigation, Sprinkler Irrigation, Surface Irrigation); By Power Source (Battery-Powered Sensors, Solar-Powered Sensors, Electrically-Powered Sensors); By Application (Agriculture Farms, Sports Grounds & Golf Courses, Residential Lawns & Gardens, Parks and Public Gardens, Landscaping in Commercial Spaces, Others); and Region - Size, Share, Growth Analysis | Forecast (2024 – 2030)
Published: 2024 - January
Report Code: IM-15939
Format:
Region: Global
Chapter 1. Global Smart Irrigation Sensors Market– Scope & Methodology
1.1. Market Segmentation
1.2. Scope, Assumptions & Limitations
1.3. Research Methodology
1.4. Primary Sources
1.5. Secondary Sources
Chapter 2. Global Smart Irrigation Sensors Market – Executive Summary
2.1. Market Size & Forecast – (2023 – 2030) ($M/$Bn)
2.2. Key Trends & Insights
2.2.1. Demand Side
2.2.2. Supply Side
2.4. Attractive Investment Propositions
2.5. COVID-19 Impact Analysis
Chapter 3. Global Smart Irrigation Sensors Market– Competition Scenario
3.1. Market Share Analysis & Company Benchmarking
3.2. Competitive Strategy & Development Scenario
3.3. Competitive Pricing Analysis
3.4. Supplier-Distributor Analysis
Chapter 4. Global Smart Irrigation Sensors Market - Entry Scenario
4.1. Regulatory Scenario
4.2. Case Studies – Key Start-ups
4.3. Customer Analysis
4.5. PESTLE Analysis
4.4. Porters Five Force Model
4.4.1. Bargaining Power of Suppliers
4.4.2. Bargaining Powers of Customers
4.4.3. Threat of New Entrants
4.4.4. Rivalry among Existing Players
4.4.5. Threat of Substitutes
Chapter 5. Global Smart Irrigation Sensors Market- Landscape
5.1. Value Chain Analysis – Key Stakeholders Impact Analysis
5.2. Market Drivers
5.3. Market Restraints/Challenges
5.4. Market Opportunities
Chapter 6. Global Smart Irrigation Sensors Market– By Technology
6.1. Introduction/Key Findings
6.2. Soil Moisture Sensors
6.3. Weather-based Sensors
6.4. Flow Sensors
6.5. Rain Sensors
6.6. Temperature Sensors
6.7. Y-O-Y Growth trend Analysis By Technology
6.8. Absolute $ Opportunity Analysis By Technology , 2023-2030
Chapter 7. Global Smart Irrigation Sensors Market– By Irrigation System
7.1. Introduction/Key Findings
7.2. Drip Irrigation
7.3. Sprinkler Irrigation
7.4. Surface Irrigation
7.5. Y-O-Y Growth trend Analysis By Irrigation System
7.6. Absolute $ Opportunity Analysis By Irrigation System , 2023-2030
Chapter 8. Global Smart Irrigation Sensors Market– By Power Source
8.1. Introduction/Key Findings
8.2. Battery-Powered Sensors
8.3. Solar-Powered Sensors
8.4.Electrically-Powered Sensors
8.5. Y-O-Y Growth trend Analysis Power Source
8.6. Absolute $ Opportunity Analysis Power Source , 2023-2030
Chapter 9. Global Smart Irrigation Sensors Market– By Application
9.1. Introduction/Key Findings
9.2. Agriculture Farms
9.3. Sports Grounds & Golf Courses
9.4. Residential Lawns & Gardens
9.5. Parks and Public Gardens
9.6. Landscaping in Commercial Spaces
9.7. Others
9.8. Y-O-Y Growth trend Analysis Application
9.9. Absolute $ Opportunity Analysis Application , 2023-2030
Chapter 10. Global Smart Irrigation Sensors Market, By Geography – Market Size, Forecast, Trends & Insights
10.1. North America
10.1.1. By Country
10.1.1.1. U.S.A.
10.1.1.2. Canada
10.1.1.3. Mexico
10.1.2. By Technology
10.1.3. By Irrigation System
10.1.4. By Application
10.1.5. Power Source
10.1.6. Countries & Segments - Market Attractiveness Analysis
10.2. Europe
10.2.1. By Country
10.2.1.1. U.K.
10.2.1.2. Germany
10.2.1.3. France
10.2.1.4. Italy
10.2.1.5. Spain
10.2.1.6. Rest of Europe
10.2.2. By Technology
10.2.3. By Irrigation System
10.2.4. By Application
10.2.5. Power Source
10.2.6. Countries & Segments - Market Attractiveness Analysis
10.3. Asia Pacific
10.3.2. By Country
10.3.2.2. China
10.3.2.2. Japan
10.3.2.3. South Korea
10.3.2.4. India
10.3.2.5. Australia & New Zealand
10.3.2.6. Rest of Asia-Pacific
10.3.2. By Technology
10.3.3. By Irrigation System
10.3.4. By Application
10.3.5. Power Source
10.3.6. Countries & Segments - Market Attractiveness Analysis
10.4. South America
10.4.3. By Country
10.4.3.3. Brazil
10.4.3.2. Argentina
10.4.3.3. Colombia
10.4.3.4. Chile
10.4.3.5. Rest of South America
10.4.2. By Technology
10.4.3. By Irrigation System
10.4.4. By Application
10.4.5. Power Source
10.4.6. Countries & Segments - Market Attractiveness Analysis
10.5. Middle East & Africa
10.5.4. By Country
10.5.4.4. United Arab Emirates (UAE)
10.5.4.2. Saudi Arabia
10.5.4.3. Qatar
10.5.4.4. Israel
10.5.4.5. South Africa
10.5.4.6. Nigeria
10.5.4.7. Kenya
10.5.4.10. Egypt
10.5.4.10. Rest of MEA
10.5.2. By Technology
10.5.3. By Irrigation System
10.5.4. By Application
10.5.5. Power Source
10.5.6. Countries & Segments - Market Attractiveness Analysis
Chapter 11. Global Smart Irrigation Sensors Market– Company Profiles – (Overview, Product Portfolio, Financials, Strategies & Developments)
11.1 The Toro Company
11.2. Rain Bird Corporation
11.3. Hunter Industries
11.4. Netafim
11.5. Weathermatic
11.6. Valmont Industries
11.7. Irrometer Company
11.8. Acclima Inc.
11.9. Baseline Inc.
11.10. Aquaspy
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Frequently Asked Questions
The Global Smart Irrigation Sensors Market was valued at USD 1.5 billion in 2022 and is projected to reach a market size of USD 4.3 billion by the end of 2030. Over the forecast period of 2023-2030, the market is anticipated to grow at a CAGR of 14.2%.
The primary drivers include the increasing demand for water-efficient agricultural practices and government initiatives for sustainable agriculture
In 2022, the Soil Moisture Sensors segment held the largest market share in the Smart Irrigation Sensors market
North America dominated the global wine market with the largest market share of 6.19% in the global Smart Irrigation Sensors market
The Toro Company, Rain Bird Corporation, Hunter Industries, Netafim, Weathermatic, and Valmont Industries are some of the key players in the Smart Irrigation Sensors market
