가축 모니터링 시장 - 예측(2026-2031년)

Livestock Monitoring Market is projected to expand at a 6.62% CAGR, attaining USD 3.444 billion in 2031 from USD 2.345 billion in 2025.

Livestock monitoring systems-commonly termed precision livestock farming (PLF)-integrate IoT sensors, computer vision, RFID/NFC ear tags, rumen boluses, wearable collars, and drone-mounted thermal cameras with cloud analytics platforms to deliver continuous, individual-animal data on location, activity, rumination, body temperature, feeding behavior, estrus detection, and early disease indicators. The core value proposition is three-fold: higher productivity per animal, reduced labor intensity, and improved animal welfare and environmental compliance.

Dairy and beef cattle remain the dominant species segment, with sensor penetration now exceeding 25 % in large commercial herds (>500 head) in Europe, North America, and Australia/New Zealand. Real-time mastitis detection via inline milk conductivity and somatic cell monitoring, combined with automated lameness scoring through 3D accelerometry, routinely deliver 5-12 % increases in milk yield and 20-40 % reductions in involuntary culling. Feed-efficiency gains of 8-15 % are achieved through precision ration formulation tied to individual intake and rumination data.

Poultry and swine are the fastest-adopting segments. Broiler houses equipped with optical flow and sound-analysis systems achieve 3-6-point improvements in final body-weight uniformity and 10-20 % reductions in mortality by flagging ventilation or behavioral anomalies within hours. Swine operations use camera-based weight estimation and cough-sound monitoring to cut antibiotic usage by 30-50 % through early intervention.

Software platforms constitute the highest-growth component. On-premises and cloud-based solutions now offer unified dashboards aggregating data from multiple sensor vendors, with machine-learning models for predictive health alerts (24-72 hours pre-clinical), automated fertility timing, and carbon-footprint calculation at animal level. Open API frameworks and blockchain-enabled traceability modules are becoming standard for premium supply chains targeting EU Farm-to-Fork and U.S. regenerative-agriculture programs.

Environmental and zoonotic disease pressures are accelerating adoption. Livestock contribute approximately 14.5 % of anthropogenic GHG emissions, driving regulatory mandates for methane and nitrogen accounting in the EU, New Zealand, and parts of Latin America. Real-time enteric fermentation monitoring via GreenFeed or wearable sniffers is moving from research to commercial deployment, enabling participation in carbon-credit schemes. Simultaneously, post-COVID and African swine fever experiences have heightened biosecurity focus, with geofencing, virtual fencing, and automated fever-screening gateways now mandatory in many export-oriented operations.

Hardware standardization is progressing rapidly. Low-power wide-area networks (LPWAN-LoRaWAN, Sigfox, NB-IoT) have largely replaced proprietary protocols, delivering 5-10-year battery life on collar and bolus devices. Edge computing on gateways now performs initial anomaly detection to minimize data transmission costs, while 5G campus networks are being rolled out on the largest integrated farms for ultra-low-latency video analytics.

Integration with robotic systems-automatic milking, feeding pushers, and slurry robots-is creating closed-loop automation. Leading platforms trigger robotic interventions (drafting gates, selective feeding, medicine balls) based on individual-animal alerts, reducing labor requirements by 30-50 % on fully instrumented sites.

In conclusion, the livestock monitoring market has matured into an essential digital infrastructure layer for commercial animal agriculture. Systems that combine multi-sensor data fusion, predictive analytics, and seamless robotic integration while delivering verifiable sustainability and welfare outcomes will capture the majority of value in an industry under simultaneous pressure to increase output, reduce environmental impact, and minimize antimicrobial usage. Scale, interoperability, and per-animal ROI clarity are now the primary competitive battlegrounds.

Key Benefits of this Report:

• Insightful Analysis: Gain detailed market insights covering major as well as emerging geographical regions, focusing on customer segments, government policies and socio-economic factors, consumer preferences, industry verticals, and other sub-segments.
• Competitive Landscape: Understand the strategic maneuvers employed by key players globally to understand possible market penetration with the correct strategy.
• Market Drivers & Future Trends: Explore the dynamic factors and pivotal market trends and how they will shape future market developments.
• Actionable Recommendations: Utilize the insights to exercise strategic decisions to uncover new business streams and revenues in a dynamic environment.
• Caters to a Wide Audience: Beneficial and cost-effective for startups, research institutions, consultants, SMEs, and large enterprises.

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Industry and Market Insights, Opportunity Assessment, Product Demand Forecasting, Market Entry Strategy, Geographical Expansion, Capital Investment Decisions, Regulatory Framework & Implications, New Product Development, Competitive Intelligence

Report Coverage:

• Historical data from 2021 to 2025 & forecast data from 2026 to 2031
• Growth Opportunities, Challenges, Supply Chain Outlook, Regulatory Framework, and Trend Analysis
• Competitive Positioning, Strategies, and Market Share Analysis
• Revenue Growth and Forecast Assessment of segments and regions including countries
• Company Profiling (Strategies, Products, Financial Information), and Key Developments among others.

Livestock Monitoring Market Segmentation:

• By Products
• Hardware
• Smart tags
• Sensors
• Cameras
• GPS
• Others
• Software
• On-Premise
• Cloud-based
• By Animal Types
• Cattles
• Poultry
• Swine
• Others
• By Geography
• North America
• USA
• Canada
• Mexico
• South America
• Brazil
• Argentina
• Others
• Europe
• Germany
• France
• United Kingdom
• Spain
• Others
• Middle East and Africa
• Saudi Arabia
• UAE
• Others
• Asia Pacific
• China
• India
• Japan
• South Korea
• Indonesia
• Thailand
• Others

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

2. MARKET SNAPSHOT

• 2.1. Market Overview
• 2.2. Market Definition
• 2.3. Scope of the Study
• 2.4. Market Segmentation

3. BUSINESS LANDSCAPE

• 3.1. Market Drivers
• 3.2. Market Restraints
• 3.3. Market Opportunities
• 3.4. Porter's Five Forces Analysis
• 3.5. Industry Value Chain Analysis
• 3.6. Policies and Regulations
• 3.7. Strategic Recommendations

4. TECHNOLOGICAL OUTLOOK

5. LIVESTOCK MONITORING MARKET BY PRODUCTS

• 5.1. Introduction
• 5.2. Hardware
  • 5.2.1. Smart tags
  • 5.2.2. Sensors
  • 5.2.3. Cameras
  • 5.2.4. GPS
  • 5.2.5. Others
• 5.3. Software
  • 5.3.1. On-Premise
  • 5.3.2. Cloud-based

6. LIVESTOCK MONITORING MARKET BY ANIMAL TYPES

• 6.1. Introduction
• 6.2. Cattles
• 6.3. Poultry
• 6.4. Swine
• 6.5. Others

7. LIVESTOCK MONITORING MARKET BY GEOGRAPHY

• 7.1. Introduction
• 7.2. North America
  • 7.2.1. USA
  • 7.2.2. Canada
  • 7.2.3. Mexico
• 7.3. South America
  • 7.3.1. Brazil
  • 7.3.2. Argentina
  • 7.3.3. Others
• 7.4. Europe
  • 7.4.1. Germany
  • 7.4.2. France
  • 7.4.3. United Kingdom
  • 7.4.4. Spain
  • 7.4.5. Others
• 7.5. Middle East and Africa
  • 7.5.1. Saudi Arabia
  • 7.5.2. UAE
  • 7.5.3. Others
• 7.6. Asia Pacific
  • 7.6.1. China
  • 7.6.2. India
  • 7.6.3. Japan
  • 7.6.4. South Korea
  • 7.6.5. Indonesia
  • 7.6.6. Thailand
  • 7.6.7. Others

8. COMPETITIVE ENVIRONMENT AND ANALYSIS

• 8.1. Major Players and Strategy Analysis
• 8.2. Market Share Analysis
• 8.3. Mergers, Acquisitions, Agreements, and Collaborations
• 8.4. Competitive Dashboard

9. COMPANY PROFILES

• 9.1. DeLaval
• 9.2. GEA Group
• 9.3. Afimilk Ltd.
• 9.4. Sensaphone
• 9.5. BouMatic LLC
• 9.6. Nedap
• 9.7. Fullwood Packo Ltd.
• 9.8. Fancom BV

10. APPENDIX

• 10.1. Currency
• 10.2. Assumptions
• 10.3. Base and Forecast Years Timeline
• 10.4. Key Benefits for the Stakeholders
• 10.5. Research Methodology
• 10.6. Abbreviations