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researchyblog · 3 days ago

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Livestock Monitoring Market Size, Trends, and Growth Forecast to 2025

Market Overview

The livestock monitoring market is growing rapidly, driven by the increasing adoption of smart farming technologies, rising concerns about animal health and productivity, and the need for real-time monitoring solutions. Livestock monitoring systems use advanced technologies such as IoT (Internet of Things), AI (Artificial Intelligence), RFID (Radio Frequency Identification), sensors, and GPS tracking to optimize livestock management.

These systems help farmers track the health, location, behavior, and productivity of animals, improving efficiency, reducing losses, and ensuring food safety. The market is expanding due to increasing demand for automated monitoring solutions, precision livestock farming, and sustainable dairy and meat production.

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Market Insights

Market Growth Drivers

Rising Demand for Precision Livestock Farming: Farmers are increasingly adopting IoT and AI-based monitoring solutions to improve livestock management.

Increasing Concern for Animal Health & Welfare: Real-time health monitoring helps detect diseases early, reducing mortality rates and veterinary costs.

Growing Dairy and Meat Industry: With rising global demand for milk, meat, and other animal-based products, efficient monitoring systems are essential.

Advancements in Sensor and Wearable Technologies: The development of smart collars, RFID tags, and GPS trackers has enhanced livestock tracking and monitoring.

Government Support for Smart Agriculture: Initiatives promoting digital farming and smart livestock solutions are driving adoption, especially in developed economies.

Market Challenges

High Initial Investment Costs: The cost of IoT-based sensors, cloud-based platforms, and wearable devices can be high for small and medium-sized farms.

Data Security & Connectivity Issues: Rural farms may struggle with internet connectivity, limiting real-time monitoring capabilities.

Lack of Awareness & Technical Expertise: Some farmers are unfamiliar with digital livestock solutions, hindering adoption.

Resistance to Technology Adoption: Traditional livestock farmers may hesitate to transition to automated systems.

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Key Players in the Livestock Monitoring Market

Several companies are leading the livestock monitoring sector, focusing on sensor technology, AI-based analytics, and automated livestock management solutions. Key players include:

DeLaval (Sweden) – Specializes in dairy farming automation and herd monitoring solutions.

GEA Group (Germany) – Offers automated milking and livestock monitoring systems.

Allflex Livestock Intelligence (Merck Animal Health, USA) – A leader in RFID-based livestock tracking and health monitoring.

Afimilk (Israel) – Provides advanced dairy herd management solutions.

Sensaphone (USA) – Focuses on remote monitoring systems for animal environments.

HID Global (USA) – A major player in livestock RFID solutions.

BouMatic (USA) – Specializes in dairy automation and monitoring systems.

Scraper (UK) – Provides health monitoring and tracking for cattle and sheep.

Regional Analysis

1. North America

The United States and Canada lead in smart farming adoption due to strong government support and advanced dairy/meat industries.

IoT-based cattle monitoring is widely used in large-scale livestock farms.

High investment in AI & sensor technologies to optimize farm productivity.

2. Europe

Germany, France, and the Netherlands are key players in precision livestock farming.

The EU’s focus on animal welfare regulations is driving demand for monitoring solutions.

High adoption of RFID tags and health tracking solutions in dairy and meat industries.

3. Asia-Pacific

China, India, and Australia are rapidly adopting livestock monitoring due to growing dairy and meat production.

India's dairy sector is investing in sensor-based monitoring for high milk yield.

Australia's cattle industry is using GPS tracking and automated health monitoring systems.

4. Latin America

Brazil and Argentina are leading in precision livestock farming, with a focus on cattle monitoring for meat export markets.

Rising demand for smart sensors and wearable devices in large farms.

Government efforts to modernize the livestock industry support market growth.

5. Middle East & Africa

South Africa and UAE are emerging markets for digital livestock monitoring.

Water scarcity and climate change concerns are driving smart farming solutions.

Limited internet infrastructure poses challenges to remote farm monitoring.

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willyskristina · 2 months ago

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Animal Tracking Market

Animal Tracking Market Size, Share, Trends: Garmin Ltd. Leads

Integration of AI and Machine Learning Enhances Animal Tracking Capabilities

Market Overview:

The animal tracking market is expected to develop at a CAGR of 15.9% between 2024 and 2031. The market value is estimated to reach USD XX billion in 2024 and USD YY billion in 2031.

North America is expected to lead the market throughout the projection period. Key metrics include increased usage of IoT in agriculture, growing worries about wildlife protection, and rising pet ownership rates worldwide.

The animal tracking market is expanding rapidly, owing to developments in GPS and RFID technologies, increased demand for livestock management solutions, and rising awareness of wildlife protection. The incorporation of AI and big data analytics into animal tracking systems is transforming the way researchers, farmers, and pet owners monitor and manage animals, allowing for real-time tracking, behaviour analysis, and health monitoring.

DOWNLOAD FREE SAMPLE

Market Trends:

The animal tracking market is seeing a substantial increase in the integration of artificial intelligence (AI) and machine learning technology. These advanced algorithms are being integrated into monitoring devices and data analysis systems to deliver more precise and insightful data on animal behaviour, movement patterns, and health condition. AI-powered systems can forecast animal migration routes, detect behavioural anomalies that may suggest disease or distress, and even anticipate possible human-wildlife interactions. For example, researchers at the University of Minnesota created an AI model that can anticipate wolf migration with 90% accuracy, assisting in conservation efforts and avoiding conflicts with livestock.

Similarly, firms such as Smart Parks use machine learning algorithms to analyse data from tracking collars and detect poaching in real time. This trend is driving market innovation, with companies spending in research and development to create more sophisticated and intelligent tracking solutions that can deliver useful insights to researchers, conservationists, and animal management.

Market Segmentation:

GPS trackers have emerged as the dominant technology in the animal tracking business, providing unrivalled accuracy, real-time monitoring capabilities, and long-range tracking. This dominance stems from the growing need for precise location data in wildlife research, livestock management, and pet monitoring applications. GPS tracking has proved essential in monitoring over 60% of vulnerable large animal species globally, according to a report by the International Union for Conservation of Nature (IUCN), considerably adding to conservation efforts.

GPS technology has advanced in recent years, solidifying its market supremacy. For example, Lotek Wireless Inc. released their PinPoint GPS tag in 2022, which is one of the tiniest and lightest GPS trackers available, weighing only 1 gramme. This breakthrough has broadened the spectrum of animals that may be followed, including small birds and insects, allowing for new study opportunities. Similarly, Vox Animals debuted its solar-powered GPS collar in 2023, which has a longer battery life and requires less frequent battery replacements, making it ideal for long-term animal studies.

GPS tracking solutions have also experienced increasing adoption in the livestock management sector. According to the Journal of Dairy Science, GPS-based virtual fencing systems can increase pasture utilisation by up to 20% while lowering labour expenses associated with traditional fencing by 30%. This has resulted in agreements between GPS technology suppliers and agricultural companies. For example, in 2023, Allflex Livestock Intelligence teamed with Gallagher Group to develop an integrated GPS tracking and virtual fencing solution for cattle management, which fuelled the expansion of the GPS tracker sector in the animal tracking market.

Market Key Players:

Garmin Ltd.

Lotek Wireless Inc.

Vectronic Aerospace GmbH

Followit Sweden AB

Telemetry Solutions

Sirtrack Ltd.

Name: Hari Krishna

Email us: [email protected]

Website: https://aurorawaveintellects.com/

#market insights #market growth #market trends

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eteily4 · 3 months ago

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Innovative Uses of RF Antennas in IoT (Internet of Things)

By linking gadgets and facilitating smooth communication between them, the Internet of Things (IoT) has completely transformed a number of businesses. As the essential element for sending and receiving wireless signals, RF (Radio Frequency) antennas are crucial to this transition. RF antennas are the foundation of Internet of Things systems, from smart homes to industrial automation, guaranteeing dependable communication and peak performance. We'll look at creative use of RF antennas in Internet of Things applications as well as the developments propelling this technology in this blog.

The Function of RF IoT antennas IoT devices, which frequently function across several frequency bands including Wi-Fi, Bluetooth, Zigbee, LoRa, NB-IoT, and cellular networks, need on RF antennas to enable wireless communication. The frequency range, positioning, and antenna design selection have a direct impact the performance, range, and efficiency of IoT devices.

Creative Uses of RF Antennas in Internet of Things Smart Homes Voice assistants, security cameras, smart lighting systems, and smart thermostats are all connected by RF antennas in smart homes. These antennas facilitate smooth device-to-device communication via Z-Wave, Zigbee, or Wi-Fi protocols. For instance:

Smart Door Locks: Using cellphones, users may remotely lock and open doors thanks to embedded antennae. Energy Management Systems: To cut down on electricity use, RF antennas in Internet of Things-enabled sensors track energy consumption and enhance appliance performance.

Internet of Things-powered smart cities mostly depend on RF antennas to provide extensive connectivity:

Traffic management: Real-time traffic flow optimization and congestion reduction are made possible by antennas in sensors and networked traffic signals.

Smart Streetlights: By communicating with one another via radio frequency (RF) antennae, streetlights may modify their brightness in response to changing environmental conditions.

garbage Management: RF-enabled smart bins alert garbage collection providers when they are full, allowing them to optimize collection routes and timetables.

IoT antennas in medical equipment are revolutionizing healthcare by allowing remote patient monitoring and real-time data transmission.

Smartwatches and fitness trackers use RF antennas to transmit health data such as heart rate, blood pressure, and oxygen levels to healthcare specialists.

Connected Implants: Devices such as pacemakers now have antennae for remote monitoring and adjustment, which improves patient care and safety.

Industrial IoT (IIoT) relies heavily on RF antennas for automation and monitoring.

Predictive Maintenance: IoT sensors equipped with RF antennas monitor machines in real time, identifying anomalies and predicting maintenance requirements to avoid downtime.

Asset tracking: Antennas integrated in RFID tags and GPS trackers enable businesses to follow the location and status of assets throughout the supply chain.

Agriculture Smart farming leverages IoT-enabled devices with radio frequency antennae for precision agriculture:

Soil Sensors: Moisture sensors' antennas send data to farmers, allowing them to improve irrigation and preserve water. Livestock Monitoring: Wearable antennas in animal tags offer health, location, and behavior data.

Environmental Monitoring IoT devices fitted with RF antennas are critical for monitoring environmental conditions.

Weather stations use antennas to broadcast data on temperature, humidity, and wind speed to cloud servers for analysis. Air Quality Sensors: These devices measure pollution levels and provide real-time data to authorities and the public.

Advances in RF Antenna Technology for IoT: Miniaturization As IoT devices become smaller and more compact, miniaturized antennas are needed to maintain performance without sacrificing efficiency.

Multiband antennas Modern IoT antennas enable several frequency bands, allowing devices to effortlessly transition between networks like 5G, Wi-Fi, and LoRaWAN.

Energy Efficiency Low-power RF antennas are being developed to improve battery life in IoT devices, which is essential for remote and off-grid applications.

Beamforming Antennas Advanced antennas capable of beamforming guide signals in precise directions, improving connectivity in crowded IoT situations such as smart cities.

Future of RF Antennas in the Internet of Things The incorporation of AI and machine learning into IoT systems is expected to improve antenna performance. Smart antennas will adjust dynamically to changing conditions, maintaining reliable connectivity. With the growth of 5G and advancements in wireless technology, RF antennas will become increasingly important in developing IoT applications.

Conclusion RF antennas are the unsung heroes of IoT, powering the interconnected world we live in today. Their inventive uses in smart homes, cities, healthcare, industries, and agriculture demonstrate their variety and significance. As technology advances, RF antennas will continue to play a critical role in creating the future of IoT, opening up new opportunities and efficiencies for both businesses and consumers.

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apexsalaesarena · 3 months ago

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Precision GPS Tracker with Remote APP Control

Discover Peace of Mind with Ultra-accurate Tracking

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harshnews · 4 months ago

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Smart Agriculture Market Size, Share, Demand, Future Growth, Challenges and Competitive Analysis

"Global Smart Agriculture Market – Industry Trends and Forecast to 2030

Global Smart Agriculture Market, By Agriculture Type (Precision Farming, Precision Forestry, Livestock Monitoring, Smart Greenhouse, Precision Aquaculture, Others), Solution (Network Management, Agriculture Asset Management, Supervisory Control and Data Acquisition, Logistics and Supply Chain Management, Smart Water Management, Others), Offering (Hardware, Software, Services), Application (Yield Monitoring, Field Mapping, Crop Scouting, Weather Tracking and Forecasting, Irrigation Management, Farm Labor Management, Financial Management, Feeding Management, Milk Harvesting, Breeding Management, Fish Tracking and Fleet Navigation, Water Quality Management, HVAC Management, Others) - Industry Trends and Forecast to 2023 to 2030.

Access Full 350 Pages PDF Report @

**Segments**

- **Hardware**: This segment includes devices such as sensors, drones, GPS systems, and automated farming tools that are utilized in smart agriculture practices. These hardware components play a crucial role in data collection, monitoring, and automation of various tasks on the farm.

- **Software**: Smart agriculture software solutions focus on data analytics, predictive modeling, and farm management systems. These tools help farmers make informed decisions, optimize resource allocation, and improve overall efficiency in agricultural operations.

- **Services**: The services segment covers a range of offerings including consulting, managed services, and support for smart agriculture technologies. Service providers in this segment assist farmers in implementing and utilizing smart agriculture solutions effectively.

**Market Players**

- **Deere & Company**: Deere & Company is a prominent player offering advanced precision agriculture technologies and solutions. The company's products include precision farming equipment and digital platforms for farmers to enhance productivity and sustainability.

- **Trimble Inc.**: Trimble specializes in precision agriculture technologies that enable farmers to improve crop yield and reduce input costs through the use of GPS and other integrated technologies. Their solutions cover precision agriculture hardware and software solutions.

- **Ag Leader Technology**: Ag Leader Technology provides precision agriculture tools such as displays, guidance and steering systems, and data management software to facilitate efficient farm management practices. The company focuses on empowering farmers with data-driven insights for better decision-making.

- **IBM Corporation**: IBM offers smart agriculture solutions powered by AI and IoT technologies to help farmers optimize resource usage, monitor crop health, and predict yield outcomes. Their integrated platforms support data-driven decision-making for sustainable agriculture practices.

The Smart Agriculture Market is witnessing significant growth driven by increasing adoption of advanced technologies in the agriculture sector. Hardware components such as sensors and drones are being increasingly utilized for monitoring crop conditions and environmental factors, while software solutions are enabling farmers to analyze data for precision farming practices. The services segment is also playing a crucial role in supporting farmers in implementing and managing smart agriculture technologies effectively. KeyThe smart agriculture market is experiencing robust growth as farmers and agricultural businesses increasingly embrace advanced technologies to optimize their operations. One of the key drivers of this growth is the rising need for efficient and sustainable agricultural practices to meet the growing global food demand. Smart agriculture solutions, encompassing hardware, software, and services, offer a comprehensive set of tools to address these challenges and drive improved productivity and resource management in the agriculture sector.

In the hardware segment, the adoption of devices such as sensors, drones, GPS systems, and automated farming tools is revolutionizing how farmers collect data, monitor crops, and automate tasks on their farms. These technologies enable real-time monitoring of crop conditions, soil health, weather patterns, and other environmental factors, allowing farmers to make data-driven decisions to optimize their operations. Furthermore, the integration of hardware components with software solutions enhances the efficiency and accuracy of data collection and analysis, leading to improved crop yields and reduced input costs for farmers.

On the software front, smart agriculture solutions are empowering farmers with advanced data analytics, predictive modeling, and farm management systems. These tools enable farmers to gain valuable insights into their operations, identify trends and patterns in their data, and make informed decisions to maximize productivity and profitability. The use of precision agriculture software not only streamlines farming practices but also helps in resource allocation, risk management, and overall operational efficiency on the farm.

The services segment of the smart agriculture market is also gaining traction as service providers offer consulting, managed services, and support to assist farmers in implementing and leveraging smart agriculture technologies effectively. These services play a crucial role in guiding farmers through the adoption process, providing training and technical assistance, and ensuring the seamless integration of hardware and software solutions into their existing operations. By partnering with experienced service providers, farmers can accelerate their digital transformation journey and unlock the full potential of smart agriculture technologies.

Overall, the smart agriculture market is poised for continuous growth and innovation as advancements in technologies such as AI, IoT, and data analytics drive further enhancements in agricultural practices.**Global Smart Agriculture Market, By Agriculture Type** - Precision Farming - Precision Forestry - Livestock Monitoring - Smart Greenhouse - Precision Aquaculture - Others

**Solution** - Network Management - Agriculture Asset Management - Supervisory Control and Data Acquisition - Logistics and Supply Chain Management - Smart Water Management - Others

**Offering** - Hardware - Software - Services

**Application** - Yield Monitoring - Field Mapping - Crop Scouting - Weather Tracking and Forecasting - Irrigation Management - Farm Labor Management - Financial Management - Feeding Management - Milk Harvesting - Breeding Management - Fish Tracking and Fleet Navigation - Water Quality Management - HVAC Management - Others

The global smart agriculture market is witnessing substantial growth with the increasing adoption of advanced technologies across various agriculture types such as precision farming, livestock monitoring, and smart greenhouse solutions. The market is driven by the growing need for efficient and sustainable agricultural practices globally to meet the rising demand for food. Solutions like network management, agriculture asset management, and smart water management are enabling farmers to optimize their resource allocation and enhance overall productivity in their operations.

In terms of offerings, hardware components such as sensors, drones, and automated farming tools continue to revolutionize data collection and monitoring practices on farms, leading to improved decision-making for farmers. Software solutions are empowering farmers with advanced analytics and predictive modeling capabilities, enabling them to make informed decisions

TABLE OF CONTENTS

Part 01: Executive Summary

Part 02: Scope of the Report

Part 03: Research Methodology

Part 04: Market Landscape

Part 05: Pipeline Analysis

Part 06: Market Sizing

Part 07: Five Forces Analysis

Part 08: Market Segmentation

Part 09: Customer Landscape

Part 10: Regional Landscape

Part 11: Decision Framework

Part 12: Drivers and Challenges

Part 13: Market Trends

Part 14: Vendor Landscape

Part 15: Vendor Analysis

Part 16: Appendix

Key Questions Answered with this Study

1) What makes Smart Agriculture Market feasible for long term investment?

2) Know value chain areas where players can create value?

3) Teritorry that may see steep rise in CAGR & Y-O-Y growth?

4) What geographic region would have better demand for product/services?

5) What opportunity emerging territory would offer to established and new entrants in Smart Agriculture Market?

6) Risk side analysis connected with service providers?

7) How influencing factors driving the demand of Smart Agriculturein next few years?

8) What is the impact analysis of various factors in the Global Smart Agriculture Market growth?

9) What strategies of big players help them acquire share in mature market?

10) How Technology and Customer-Centric Innovation is bringing big Change in Smart Agriculture Market?

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About Data Bridge Market Research:

Data Bridge set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market. Data Bridge endeavors to provide appropriate solutions to the complex business challenges and initiates an effortless decision-making process.

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Email: [email protected]"

#Smart Agriculture Market

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tamanna31 · 5 months ago

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Smart Agriculture Market Dynamics, Top Manufacturers Analysis, Trend And Demand, Forecast To 2030

Smart Agriculture Industry Overview

The global smart agriculture market size was valued at USD 22.65 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 13.7% from 2024 to 2030.

Increasing automation of commercial greenhouses and growing implementation of the controlled environment agriculture (CEA) concept in greenhouses, in a bid to obtain a higher yield and maintain optimum growing conditions, are the key factors driving demand during the forecast period. Cultivators realize the potential benefits of growing plants inside a greenhouse, which has led to the development of commercial greenhouses. Cultivators have shifted from the conventional lighting systems to LED grow lights as the latter can easily be integrated into a CEA setup. Although LED grows lights are high in cost, they are an ideal option for indoor farming, owing to their long-term benefits in terms of energy efficiency.

Gather more insights about the market drivers, restrains and growth of the Smart Agriculture Market

Smart agriculture companies are shifting their focus toward the development of equipment that is integrated with advanced sensors and cameras. Key technologies driving the market demand include livestock biometrics, such as RFID, biometrics, and GPS to help cultivators automatically obtain information regarding livestock in real-time. Furthermore, infrastructural health sensors are used for monitoring material conditions and vibrations in buildings, factories, bridges, farms, and other infrastructure. Coupled with an intelligent network, infrastructural health sensors help provide information to the maintenance team in real-time. In addition, agricultural robots are being used to automate farming processes, such as soil maintenance, weeding, fruit picking, harvesting, planting, plowing, and irrigation, among others.

To sustain profits, farmers are increasingly adopting smarter and more efficient agriculture technologies to deliver high-quality products to the smart agriculture market in sufficient quantities. Mobile technology aids in offering innovative types and applications that are used across the agricultural value chain.

Machine-to-Machine (M2M) applications are particularly suited for the agricultural sector, enabling farmers to monitor equipment, assess the environmental impact on production, precisely manage livestock and crops, and keep track of tractors and other agricultural equipment. M2M is an integral part of IoT, which describes the coordination of multiple devices, appliances, and machines connected to the internet through multiple networks.

The COVID-19 pandemic has brought widespread disruption to the global supply chain, resulting in food shortages and inflation. Necessary measures are required to strengthen the food supply chain and prepare for any future crisis. The ongoing pandemic has highlighted the significance of being able to carry out agricultural operations remotely. The ability of smart agricultural practices to help farmers recoup losses in a relatively shorter lead time is expected to drive future market growth.

Browse through Grand View Research's Next Generation Technologies Industry Research Reports.

The global agriculture 4.0 market was estimated at USD 67.73 billion in 2023 and is projected to grow at a CAGR of 11.6% from 2024 to 2030.

The global AI in food & beverages market size was valued at USD 8.45 billion in 2023 and is projected to grow at a CAGR of 39.1% from 2024 to 2030.

Key Companies & Market Share Insights

Some of the key players operating in the market include Ag Leader Technology, AGCO Corporation, AgJunction, Inc., AgEagle Aerial Systems Inc., Autonomous Solutions, Inc., Argus Control Systems Ltd, BouMatic Robotic B.V., CropMetrics, CLAAS KGaA mbH, CropZilla, Deere & Company, DICKEY-john, DroneDeploy, DeLaval Inc, Farmers Edge Inc, Grownetics, Inc., Granular, Inc., Gamaya, GEA Group Aktiengesellschaft, Raven Industries, Trimble Inc., Topcon Positioning System among others.

AGCO Corporation is a U.S.-based agriculture equipment manufacturer. The company develops and sells products and solutions such as tractors, combines, foragers, hay tools, self-propelled sprayers, smart farming technologies, seeding equipment, and tillage equipment.

Deere & Company is engaged in the manufacturing & construction of agricultural and forestry machinery; drivetrains and diesel engines for heavy equipment; and lawn care machinery. Additionally, the company also manufactures and provides other heavy manufacturing equipment. The company serves diverse industries such as agriculture, forestry, construction, landscaping & grounds care, engines & drivetrain, government and military, and sports turf.

Prospera Technologies and Agrible, Inc. are some of the emerging market participants in the target market.

Prospera Technologies is a global service provider of agriculture technology for managing and optimizing irrigation and crop health. The company provides AI-based sensors and cameras that aid farmers in crop monitoring.

Agrible is a U.S.-based agriculture solution provider. The company helps customers in more than 30 countries optimize water use, crop protection, fertilization, fieldwork, research trials, food supply chains, and sustainability initiatives

Key Smart Agriculture Companies:

Ag Leader Technology

AGCO Corporation

AgJunction, Inc.

AgEagle Aerial Systems Inc.

Autonomous Solutions, Inc.

Argus Control Systems Ltd

BouMatic Robotic B.V.

CropMetrics

CLAAS KGaA mbH

CropZilla

Deere & Company

DICKEY-john

DroneDeploy

DeLaval Inc

Farmers Edge Inc

Grownetics, Inc.

Granular, Inc.

Gamaya

GEA Group Aktiengesellschaft

Raven Industries

Trimble Inc.

Topcon Positioning System

Recent Developments

In July 2023, Deere & Company announced the acquisition of Smart Apply, Inc. The company planned to leverage Smart Apply’s precision spraying to assist growers in addressing the challenges associated with input costs, labor, regulatory requirements, and environmental goals.

In May 2023, AgEagle Aerial Systems Inc. announced that it had entered into a 2-year supply agreement with Wingtra AG. This agreement is purposed to secure the supply of RedEdge-P sensor kits for incorporation with WingtraOne VTOL drones. This is specifically resourceful for those seeking to benefit materially from unparalleled, high precision, and plant-level detail in commercial agriculture, environmental research, forestry, and water management applications.

In April 2023, AGCO Corporation announced a strategic collaboration with Hexagon, for the expansion of AGCO’s factory-fit and aftermarket guidance offerings. The new guidance system was planned to be commercialized as Fuse Guide on Valtra and Massey Ferguson tractors.

In February 2023, Topcon Agriculture unveiled the launch of Transplanting Control, an exceptional guidance control solution for specialty farmers. This turnkey solution was designed to boost efficiency, reduce labor, and proliferate production. Further, it delivers GNSS-driven guidance, autosteering & control, thereby proving advantageous for the growers of perennial trees, vegetables, and fruits.

In January 2023, ASI Logistics in collaboration with SICK, Inc. announced the successful implementation of autonomous yard truck operations. In this collaboration, ASI Logistics leveraged its groundbreaking Vehicle Automation Kit (VAK) along with the industry-leading LiDAR systems of SICK.

In March 2022, Raven announced its business expansion in South Dakota and Arizona to enhance the development of AI-driven technologies for tailoring cutting-edge solutions. The strategy was also aimed at allowing access to a nearby test farm for same-day testing.

In October 2021, BouMatic announced the acquisition of SAC Group to leverage automatic and conventional milking systems. The transaction demonstrated the company’s incessant commitment to delivering best-in-class dairy farm solutions to consumers across the world.

In May 2021, AGCO announced a targeted spraying solutions strategic collaboration with Raven Industries Inc., BASF Digital, and Robert Bosch GmbH. The objective of this deal was to assess the targeted spraying technology for enhancing crop protection product applications by limiting crop input costs and addressing environmental sustainability.

Order a free sample PDF of the Smart Agriculture Market Intelligence Study, published by Grand View Research.

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industrynewsupdates · 5 months ago

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Smart Agriculture Market 2024-2030: Growth Share and Future Trends

The global smart agriculture market size was valued at USD 22.65 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 13.7% from 2024 to 2030.

Gather more insights about the market drivers, restrains and growth of the Smart Agriculture Market

Smart Agriculture Market Segmentation

Grand View Research has segmented the global smart agriculture market report based on type, offering, application, and region.

Type Outlook (Revenue, USD Million, 2017 - 2030)

• Precision farming

• Livestock monitoring

• Smart greenhouse

• Others

Offering Outlook (Revenue, USD Million, 2017 - 2030)

• Hardware

o Automation & control systems

o Drones

o Application control devices

o Guidance system

o GPS

o GIS

o Remote sensing

o Handheld

o Satellite sensing

o Driverless tractors

o Mobile devices

o VRT

o Map-based

o Sensor-based

o Wireless modules

o Bluetooth technology

o Wi-Fi technology

o Zigbee technology

o RF technology

o Milking robots

o Sensing devices

o Soil sensor

o Nutrient sensor

o Moisture sensor

o Temperature sensor

o Water sensors

o Climate sensors

o Others

o HVAC system

o LED grow light

o RFID tags & readers

• Software

o Web-based

o Cloud-based

• Types

o System integration & consulting

o Maintenance & support

o Managed types

o Data types

o Analytics types

o Farm operation types

o Assisted professional types

o Supply chain management types

o Climate information types

Application Outlook (Revenue, USD Million; 2017 - 2030)

• Precision farming application

o Yield monitoring

o On-farm

o Off-farm

o Field mapping

o Crop scouting

o Weather tracking & forecasting

o Irrigation management

o Inventory management

o Farm labor management

• Livestock monitoring application

o Milk harvesting

o Breeding management

o Feeding management

o Animal comfort management

o Others

• Smart greenhouse application

o Water & fertilizer management

o HVAC management

o Yield monitoring

o Others

• Others

Regional Outlook (Revenue, USD Billion, 2017 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o U.K.

o Germany

o France

o Russia

o Netherland

• Asia Pacific

o China

o Japan

o India

o Australia

o Singapore

• South America

o Brazil

• Middle East and Africa (MEA)

o Turkey

Browse through Grand View Research's Next Generation Technologies Industry Research Reports.

• The global agriculture 4.0 market was estimated at USD 67.73 billion in 2023 and is projected to grow at a CAGR of 11.6% from 2024 to 2030.

• The global AI in food & beverages market size was valued at USD 8.45 billion in 2023 and is projected to grow at a CAGR of 39.1% from 2024 to 2030.

Key Companies & Market Share Insights

• AGCO Corporation is a U.S.-based agriculture equipment manufacturer. The company develops and sells products and solutions such as tractors, combines, foragers, hay tools, self-propelled sprayers, smart farming technologies, seeding equipment, and tillage equipment.

• Deere & Company is engaged in the manufacturing & construction of agricultural and forestry machinery; drivetrains and diesel engines for heavy equipment; and lawn care machinery. Additionally, the company also manufactures and provides other heavy manufacturing equipment. The company serves diverse industries such as agriculture, forestry, construction, landscaping & grounds care, engines & drivetrain, government and military, and sports turf.

Prospera Technologies and Agrible, Inc. are some of the emerging market participants in the target market.

• Prospera Technologies is a global service provider of agriculture technology for managing and optimizing irrigation and crop health. The company provides AI-based sensors and cameras that aid farmers in crop monitoring.

• Agrible is a U.S.-based agriculture solution provider. The company helps customers in more than 30 countries optimize water use, crop protection, fertilization, fieldwork, research trials, food supply chains, and sustainability initiatives

Key Smart Agriculture Companies:

• Ag Leader Technology

• AGCO Corporation

• AgJunction, Inc.

• AgEagle Aerial Systems Inc.

• Autonomous Solutions, Inc.

• Argus Control Systems Ltd

• BouMatic Robotic B.V.

• CropMetrics

• CLAAS KGaA mbH

• CropZilla

• Deere & Company

• DICKEY-john

• DroneDeploy

• DeLaval Inc

• Farmers Edge Inc

• Grownetics, Inc.

• Granular, Inc.

• Gamaya

• GEA Group Aktiengesellschaft

• Raven Industries

• Trimble Inc.

• Topcon Positioning System

Recent Developments

• In July 2023, Deere & Company announced the acquisition of Smart Apply, Inc. The company planned to leverage Smart Apply’s precision spraying to assist growers in addressing the challenges associated with input costs, labor, regulatory requirements, and environmental goals.

• In May 2023, AgEagle Aerial Systems Inc. announced that it had entered into a 2-year supply agreement with Wingtra AG. This agreement is purposed to secure the supply of RedEdge-P sensor kits for incorporation with WingtraOne VTOL drones. This is specifically resourceful for those seeking to benefit materially from unparalleled, high precision, and plant-level detail in commercial agriculture, environmental research, forestry, and water management applications.

• In April 2023, AGCO Corporation announced a strategic collaboration with Hexagon, for the expansion of AGCO’s factory-fit and aftermarket guidance offerings. The new guidance system was planned to be commercialized as Fuse Guide on Valtra and Massey Ferguson tractors.

• In February 2023, Topcon Agriculture unveiled the launch of Transplanting Control, an exceptional guidance control solution for specialty farmers. This turnkey solution was designed to boost efficiency, reduce labor, and proliferate production. Further, it delivers GNSS-driven guidance, autosteering & control, thereby proving advantageous for the growers of perennial trees, vegetables, and fruits.

• In January 2023, ASI Logistics in collaboration with SICK, Inc. announced the successful implementation of autonomous yard truck operations. In this collaboration, ASI Logistics leveraged its groundbreaking Vehicle Automation Kit (VAK) along with the industry-leading LiDAR systems of SICK.

• In March 2022, Raven announced its business expansion in South Dakota and Arizona to enhance the development of AI-driven technologies for tailoring cutting-edge solutions. The strategy was also aimed at allowing access to a nearby test farm for same-day testing.

• In October 2021, BouMatic announced the acquisition of SAC Group to leverage automatic and conventional milking systems. The transaction demonstrated the company’s incessant commitment to delivering best-in-class dairy farm solutions to consumers across the world.

• In May 2021, AGCO announced a targeted spraying solutions strategic collaboration with Raven Industries Inc., BASF Digital, and Robert Bosch GmbH. The objective of this deal was to assess the targeted spraying technology for enhancing crop protection product applications by limiting crop input costs and addressing environmental sustainability.

Order a free sample PDF of the Smart Agriculture Market Intelligence Study, published by Grand View Research.

#Smart Agriculture Market #Smart Agriculture Industry #Smart Agriculture Market size #Smart Agriculture Market share #Smart Agriculture Market analysis

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sunalimerchant · 7 months ago

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Revolutionizing Industries: The Impact of IoT Product Design in India

The Internet of Things (IoT) has ushered in a new era of connectivity and automation, transforming industries across the globe. In India, the impact of IoT product design is particularly profound, driving innovation and efficiency in various sectors. From agriculture to healthcare, manufacturing to smart cities, IoT is revolutionizing the way businesses operate and improving the quality of life for millions. This blog explores the significant impact of IoT product design in India.

Agriculture: Smart Farming for Higher Yields

Agriculture is the backbone of the Indian economy, employing a large portion of the population. Traditional farming methods often face challenges such as unpredictable weather, pest infestations, and inefficient resource usage. IoT product design is addressing these challenges through smart farming solutions.

Precision Agriculture: IoT devices like soil moisture sensors, weather stations, and GPS-enabled tractors are enabling precision agriculture. These devices collect data on soil health, weather conditions, and crop growth, allowing farmers to make informed decisions about planting, irrigation, and fertilization. This leads to higher yields and more efficient resource use.

Automated Irrigation Systems: IoT-based automated irrigation systems help optimize water usage, a critical concern in many parts of India. These systems use real-time data to control water delivery, ensuring crops receive the right amount of water at the right time, reducing waste and improving crop health.

Livestock Monitoring: IoT devices are also being used for livestock monitoring, tracking the health and location of animals. This helps farmers manage their herds more efficiently, preventing disease outbreaks and improving overall productivity.

Healthcare: Enhancing Patient Care and Management

The healthcare industry in India is undergoing a transformation with the integration of IoT technologies. IoT product design is enhancing patient care, improving medical management, and making healthcare services more accessible.

Remote Patient Monitoring: IoT-enabled devices such as wearable health monitors and connected medical equipment allow for continuous monitoring of patients' vital signs. This is particularly beneficial for managing chronic diseases and providing care to patients in remote areas, reducing the need for frequent hospital visits.

Smart Medical Devices: Smart medical devices, like connected inhalers and glucose monitors, provide real-time data to healthcare providers, enabling timely interventions and personalized treatment plans. This improves patient outcomes and reduces the burden on healthcare facilities.

Inventory and Asset Management: IoT solutions are streamlining inventory and asset management in hospitals. Connected systems track the availability and usage of medical supplies and equipment, ensuring timely restocking and reducing wastage.

Manufacturing: Driving Efficiency and Productivity

The manufacturing sector in India is leveraging IoT to enhance operational efficiency, reduce costs, and improve product quality. IoT product design is driving the adoption of smart manufacturing practices.

Predictive Maintenance: IoT sensors monitor the condition of machinery and equipment in real-time, predicting potential failures before they occur. This reduces downtime, extends the lifespan of assets, and lowers maintenance costs.

Quality Control: IoT devices provide real-time data on production processes, enabling manufacturers to detect defects early and maintain high-quality standards. This reduces waste and improves customer satisfaction.

Supply Chain Optimization: IoT technologies are optimizing supply chains by providing visibility into inventory levels, shipment tracking, and demand forecasting. This improves inventory management, reduces lead times, and enhances overall supply chain efficiency.

Smart Cities: Building Sustainable Urban Environments

India's rapid urbanization poses significant challenges in terms of infrastructure, resource management, and quality of life. IoT product design is playing a crucial role in developing smart cities that are sustainable and efficient.

Smart Transportation: IoT-enabled traffic management systems monitor and control traffic flow in real-time, reducing congestion and improving road safety. Smart parking solutions guide drivers to available spots, minimizing the time spent searching for parking.

Energy Management: Smart grids and IoT-based energy management systems optimize energy usage, reducing wastage and lowering costs. Smart meters provide consumers with real-time data on their energy consumption, encouraging more sustainable practices.

Waste Management: IoT solutions are transforming waste management through smart bins that monitor waste levels and optimize collection routes. This reduces operational costs and minimizes environmental impact.

Conclusion

The impact of IoT product design on industries in India is transformative, driving innovation and efficiency across agriculture, healthcare, manufacturing, and urban development. By leveraging IoT technologies, India is addressing critical challenges and improving the quality of life for its citizens. As IoT continues to evolve, its role in revolutionizing industries and shaping the future of the country will only grow stronger. Embracing these innovations is key to building a more connected, efficient, and sustainable India.

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twbcx · 9 months ago

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Vet2Trade Business Report: Comparison of the key trends and players in India and the US – by Rakesh Shukla, vet2trade.market

Executive Summary

The veterinary market is segmented into several primary categories, including companion animals, livestock, and various services like diagnostics, therapeutics, and pet food. This report details these segments and examines the differences in the Indian and US markets in terms of segmentation, relative size, growth, and trends. Key trends such as technological advancements, drug developments, and healthcare improvements are highlighted. This report also provides a granular analysis of urban vs. rural areas within each country and identifies major players in the industry, especially those operating in both India and the US.

Primary Segments in the Veterinary Market

1. Companion Animals

● Diagnostics: Includes diagnostic imaging, blood tests, and genetic testing.

● Therapeutics: Encompasses medications and treatments for diseases and conditions.

● Pet Food: Nutritional products tailored for various breeds and health conditions.

● Services: Routine check-ups, vaccinations, and emergency care.

2. Livestock

● Diagnostics: Disease testing and monitoring.

● Therapeutics: Veterinary drugs and vaccines for disease prevention and treatment.

● Nutrition: Feed supplements and nutritional products to enhance productivity and health.

● Services: Breeding, health monitoring, and surgical procedures.

Comparison of Veterinary Markets: India vs. US

Market Size and Growth

● US Market:

● The US veterinary market is one of the largest globally, with a market size of approximately $45 billion in 2023, growing at a CAGR of 5% over the past five years.

● The companion animal segment dominates, driven by high pet ownership rates and significant spending on pet healthcare and wellness.

● Indian Market:

● The Indian veterinary market is smaller but rapidly growing, with a market size of about $1.4 billion in 2023, and a higher CAGR of 8% over the past five years.

● The livestock segment is more prominent due to the agrarian economy and reliance on livestock for income.

Granular Analysis

● Urban vs. Rural:

● US: Urban areas show higher expenditure on companion animals with a focus on advanced diagnostics and therapeutics. Rural areas focus more on livestock services.

● India: Urban regions are seeing increasing pet ownership and related services, but rural areas still largely depend on livestock veterinary services for economic reasons.

Trends

1. Technological Advancements:

● US:

● Telemedicine: Companies like Fuzzy Pet Health and PetDesk are providing telehealth services, enabling pet owners to consult veterinarians remotely, enhancing access to veterinary care.

● AI-driven Diagnostics: Firms like SignalPET use artificial intelligence to interpret radiographs, improving diagnostic accuracy and speed.

● Wearable Health Monitoring Devices: Products like the Whistle GPS Pet Tracker and FitBark monitor pet activity and health metrics, providing real-time data to veterinarians and pet owners.

● India:

● Telemedicine: Platforms such as Practo and VetnCare offer teleconsultation services, particularly beneficial in remote areas where veterinary facilities are scarce.

● Mobile Apps: PetKonnect and Woofwoofnow provide veterinary consultation, health tracking, and service bookings, making veterinary care more accessible to urban pet owners.

2. Drug Developments:

● US:

● Biologics: Zoetis’ Cytopoint, a monoclonal antibody therapy, provides targeted treatment for canine atopic dermatitis, representing a shift towards precision medicine in veterinary care.

● Novel Therapies: Elanco’s Galliprant, a non-steroidal anti-inflammatory drug (NSAID), offers an innovative approach to managing canine osteoarthritis with fewer side effects compared to traditional NSAIDs.

● India:

● Affordable Generics: Companies like Hester Biosciences focus on producing cost-effective generic vaccines and medications for livestock, such as Hester’s ND+IB vaccine for poultry.

● Veterinary Vaccines: Indian Immunologicals Limited (IIL) has developed Raksha Ovac, a vaccine for ovine footrot, addressing a significant health issue in sheep farming.

3. Healthcare Improvements:

● US:

● Specialized Veterinary Practices: The rise of specialty clinics like VCA Animal Hospitals and BluePearl Veterinary Partners, which offer advanced services such as oncology, cardiology, and neurology, reflects a trend towards specialized and comprehensive pet healthcare.

● Wellness Programs: Companies like Banfield Pet Hospital offer Optimum Wellness Plans, which include preventive care, vaccinations, and routine health checks, promoting proactive health management for pets.

● India:

● Advanced Treatments: Veterinary hospitals like Cessna Lifeline in Bangalore provide state-of-the-art treatments including endoscopy, orthopedic surgeries, and critical care, bringing advanced veterinary services to urban pet owners.

● Preventive Care: NGOs and veterinary organizations are increasingly focusing on preventive care programs, such as regular vaccination drives and health camps for livestock in rural areas, improving overall animal health and productivity.

Key Players in the Veterinary Market

Zoetis Inc.

● Market Share: Zoetis is the largest global player in animal health with a significant market share.

● Technical Differentiators: Leading in research and development with innovative vaccines, parasiticides, and diagnostic products.

● Key Market Segments: Companion animals and livestock.

● Product Brands:

● Companion Animals: Simparica Trio (parasiticide), Cytopoint (atopic dermatitis treatment).

● Livestock: Draxxin (antibiotic), Excede (antibiotic).

2. IDEXX Laboratories

● Market Share: A major player in veterinary diagnostics.

● Technical Differentiators: Cutting-edge diagnostic technology and software solutions.

● Key Market Segments: Companion animals.

● Product Brands:

● Diagnostics: Catalyst One (chemistry analyzer), SNAP tests (rapid diagnostic tests).

3. Boehringer Ingelheim

● Market Share: Significant global presence in animal health.

● Technical Differentiators: Strong focus on vaccines and therapeutics, innovative R&D.

● Key Market Segments: Companion animals, livestock, poultry.

● Product Brands:

● Companion Animals: NexGard (parasiticide), Heartgard (heartworm prevention).

● Livestock: Ingelvac (swine vaccines), Bovikalc (cattle supplement).

India

1. Hester Biosciences

● Market Share: Leading in the poultry vaccine market in India.

● Technical Differentiators: Extensive vaccine production capabilities, focus on affordability.

● Key Market Segments: Poultry, livestock.

● Product Brands:

● Poultry: Hester ND+IB (Newcastle and Infectious Bronchitis vaccine), Hester Coryza (fowl coryza vaccine).

2. Venkys India

● Market Share: Major player in the poultry segment.

● Technical Differentiators: Comprehensive product portfolio for poultry health and nutrition.

● Key Market Segments: Poultry.

● Product Brands:

● Nutrition: Venky’s India feed supplements.

● Health Products: Vetcom (medications for poultry).

Companies Operating in Both Markets

1. Boehringer Ingelheim

● Market Share: Substantial presence in both India and the US.

● Technical Differentiators: Advanced R&D, extensive portfolio in vaccines and therapeutics.

● Key Market Segments: Companion animals, livestock, poultry.

● Product Brands: (See above)

2. Elanco Animal Health

● Market Share: Strong market position globally, including India and the US.

● Technical Differentiators: Focus on innovation, broad portfolio across species.

● Key Market Segments: Companion animals, livestock.

● Product Brands:

● Companion Animals: Trifexis (parasiticide), Galliprant (arthritis treatment).

● Livestock: Rumensin (feed additive), Imrestor (immunostimulant).

3. Merck Animal Health

● Market Share: Leading player in animal health with operations in both countries.

● Technical Differentiators: Comprehensive solutions, advanced biologics.

● Key Market Segments: Companion animals, livestock, poultry.

● Product Brands:

● Companion Animals: Bravecto (flea and tick treatment), Nobivac (vaccines).

● Livestock: Zilmax (beef cattle feed additive), Safe-Guard (anthelmintic).

Conclusion

The veterinary markets in India and the US show significant differences in size, growth, and focus. The US market is more developed with a strong emphasis on companion animals, advanced diagnostics, and therapeutic services. In contrast, the Indian market, while smaller, is growing rapidly with a primary focus on livestock health. Both markets are experiencing trends driven by technological advancements and healthcare improvements, though the pace and focus of these trends vary. Key players like Boehringer Ingelheim, Elanco, and Merck are instrumental in shaping the veterinary landscape in both countries.

About Vet2Trade™

Vet2Trade™ is part of Rakesh Shukla-led VOSD Corporation. Vet2Trade™ is India’s largest B2B platform for the veterinary industry, bringing together Medical Equipment and Instruments, Medical Supplies and Accessories, Pharmaceuticals and Medications, Pet Services, and Pet Care in a single marketplace. Vet2Trade™ brings together various players in the veterinary industry and operates as a reliable, quality-driven platform ensuring convenience and competitive pricing for all its users.

VOSD Corporation™ is a holding company that creates and delivers India’s most beloved pet brands & businesses to pet parents across veterinary care, pet transport, lifestyle, vet pharma, and pet food. These include Vet2Trade™, VOSD AI™, VOSD Advance Vet Care™, VOSD Brands™ and VOSD-on-Wheels™. Together these companies fund the VOSD Trust™ — the world’s largest dog rescue.

About Rakesh Shukla

Rakesh Shukla is the foremost expert on dogs in India & the founder of the VOSD Trust™ — the world’s largest dog rescue. Rakesh has spent 30 years creating several multimillion-dollar world-class software products & businesses. Rakesh manages a portfolio of successful startups – in IT, PetTech, and RetailTech including VOSD™ Vet & Pet Corporation, TWBcx™, The Better Company™ & inStore™ Retail. The VOSD Trust™ is the sole financial survivor of Rakesh Shukla and all his investments and companies.

#customerexperience #digitalcx #instore #rakeshshukla #twbcx #retail #Vet2Trade

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agrieyes · 9 months ago

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AgriEyes Launches Revolutionary Wireless Beacon Lights for Agricultural and Emergency Applications

AgriEyes, a leading innovator in agricultural technology, has announced the release of their new line of wireless beacon lights. These cutting-edge devices are designed to enhance safety and operational efficiency in both agricultural settings and emergency response scenarios. The new wireless beacon lights from AgriEyes leverage advanced wireless communication technologies, providing a versatile and robust solution for various industries.

Innovative Features of AgriEyes Wireless Beacon Lights

AgriEyes' wireless beacon lights are packed with features that set them apart from traditional signaling devices. Here are some key aspects of their latest offering:

Advanced Wireless Communication: These beacon lights are equipped with Bluetooth and Wi-Fi capabilities, allowing for seamless integration with smartphones and control systems. Users can adjust light patterns, intensity, and operational modes remotely through a dedicated mobile app.

High-Intensity LEDs: The lights use high-intensity LEDs to ensure maximum visibility even in adverse weather conditions such as fog, rain, or dust storms. This feature is crucial for both agricultural safety and emergency response.

Long Battery Life: Powered by the latest in battery technology, AgriEyes’ beacon lights can operate for up to 72 hours on a single charge. The rechargeable batteries are designed for quick swapping, ensuring minimal downtime.

Durability and Weather Resistance: Built to withstand harsh environments, these wireless beacon lights are water-resistant, dust-proof, and shock-resistant. This durability makes them suitable for rugged agricultural fields and demanding emergency situations.

Applications in Agriculture

Machinery and Vehicle Safety: AgriEyes' wireless beacon lights can be installed on tractors, combines, and other agricultural machinery to enhance visibility, especially during night operations or in large fields. This reduces the risk of accidents and improves worker safety.

Field Marking: The lights can be used to mark specific areas in fields, such as boundaries, hazards, or irrigation zones. This helps in efficient navigation and management of large farming areas.

Livestock Management: In livestock farming, these lights can be used to mark areas for feeding, watering, or herding, ensuring better organization and safety for both animals and workers.

Applications in Emergency Response

Ambulances and Fire Trucks: The quick installation and remote control features of AgriEyes' wireless beacon lights make them ideal for emergency vehicles. They enhance visibility and allow responders to adjust light settings based on the situation.

Search and Rescue Operations: In remote or challenging terrains, the portability and durability of these lights are invaluable. They can be used to mark search areas, signal for help, and improve overall visibility during night-time operations.

Disaster Management: During natural disasters, these lights can be deployed quickly to mark safe zones, guide evacuations, and coordinate rescue efforts.

Market Reception and Future Prospects

The introduction of AgriEyes' wireless beacon lights has been met with enthusiasm from both the agricultural sector and emergency response communities. Farmers appreciate the enhanced safety and efficiency these lights bring to their operations, while emergency responders highlight the improved coordination and visibility.

John Peterson, a farmer from Iowa, stated, "The AgriEyes wireless beacon lights have significantly improved our night operations. They are easy to install and provide excellent visibility, which is essential for safety."

Looking forward, AgriEyes plans to expand their product line to include solar-powered beacon lights, offering a sustainable solution for remote and off-grid areas. Additionally, the company is exploring the integration of GPS technology to provide real-time location tracking and geo-fencing capabilities, further enhancing the functionality of their beacon lights. Conclusion

AgriEyes' new wireless beacon lights represent a significant advancement in both agricultural safety and emergency response efficiency. With their high-intensity LEDs, advanced wireless features, and robust design, these beacon lights are set to become an essential tool across various industries. As AgriEyes continues to innovate, we can expect even more groundbreaking developments that will further enhance operational safety and efficiency.

#beacon light #wireless beacon light

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agriculturenewsinfo · 11 months ago

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Sustainable Livestock Management: Bridging Tradition and Technology

In the realm of agriculture, sustainable livestock management represents a crucial intersection of tradition and technological advancement, aiming to harmonize productivity with environmental stewardship and animal welfare. As a confluence of ethical farming practices and cutting-edge innovations, this approach is redefining the landscape of animal husbandry, ensuring that it contributes positively to global food security, ecological balance, and social equity. This article explores the pillars of sustainable livestock management and the transformative impact these practices have on the agricultural sector and beyond.

Embracing Technological Innovations for Enhanced Efficiency

The advent of technology in livestock management has ushered in an era of unprecedented efficiency and precision. Digital tools and data analytics are at the forefront, enabling farmers to monitor livestock health, optimize feeding strategies, and improve breeding outcomes with remarkable accuracy. Technologies such as RFID tags and GPS tracking devices allow for real-time monitoring of animal location and behavior, facilitating proactive health management and efficient resource allocation.

Artificial intelligence (AI) and machine learning algorithms are further refining the capabilities of livestock management systems, analyzing vast amounts of data to predict health issues, enhance genetic selection, and optimize production systems. These technological interventions not only elevate farm productivity but also minimize environmental impacts by reducing waste and optimizing the use of natural resources.

Prioritizing Animal Welfare for Ethical and Sustainable Outcomes

Central to the concept of sustainable livestock management is a profound respect for animal welfare. Ethical treatment of animals is increasingly recognized not just as a moral imperative but as a cornerstone of sustainable agriculture. Practices that ensure adequate living conditions, humane handling, and access to natural behaviors are integral to this approach. Enhanced animal welfare leads to improved health and productivity, reducing the need for medical interventions and promoting longevity and quality of life for livestock.

The integration of natural systems and practices, such as rotational grazing and mixed-species pasturing, underscores a commitment to replicating as closely as possible the native habitats and social structures of animals. Such practices not only support animal welfare but also enhance soil health, biodiversity, and ecological resilience, creating a virtuous cycle of sustainability.

Integrating Sustainable Grazing Practices and Feed Management

Sustainable grazing management is a pivotal aspect of eco-friendly livestock farming, ensuring that land use supports biodiversity, soil regeneration, and carbon sequestration. Techniques like rotational and mob grazing are designed to mimic natural grazing patterns, promoting the health of both the land and the livestock. These practices optimize pasture productivity, enhance ground cover, and contribute to the sequestration of carbon in soil, mitigating the impacts of climate change.

Sustainable feed management also plays a critical role, focusing on the efficient use of resources and minimizing environmental footprints. The exploration of alternative feed sources, such as insect protein and agricultural by-products, offers promising avenues for reducing reliance on conventional grain feeds, thereby diminishing water usage and deforestation pressures.

Cultivating Resilience Through Diversity and Adaptation

Sustainable livestock management inherently promotes resilience through the cultivation of genetic diversity and the adaptation of practices to local environments and climate conditions. By preserving and utilizing a broad range of genetic resources, farms can enhance disease resistance, adaptability to climate stressors, and overall ecosystem health. Tailoring practices to specific environmental contexts ensures that livestock management contributes to local ecosystems' sustainability rather than detracting from it.

Conclusion

Sustainable livestock management stands as a testament to the synergies between traditional wisdom and technological innovation. By prioritizing animal welfare, embracing efficient technologies, and adhering to principles of environmental stewardship, this approach offers a blueprint for the future of agriculture. It embodies a commitment to not only meeting the immediate needs of global food systems but also ensuring the health of our planet and the well-being of future generations. As we move forward, the continued evolution and adoption of sustainable livestock practices will be crucial in addressing the complex challenges of the 21st century.

#agriculture #farm #livestock

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nintetenths · 1 year ago

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Drones: A Quick Overview

Drones have become an essential part of many industries, particularly the construction industry.

What Is A Drone?

A drone is a type of unmanned aircraft. Drones are also referred to as unmanned aircraft (UAVs) or unmanned aircraft systems (UAS). A drone is essentially a flying robot that can be controlled remotely or autonomously by software-controlled flight in its integrated systems, which work in tandem with sensing devices and a global positioning system (GPS).

Drones, which were initially designed for the military and aerospace industries, have found their way into the mainstream due to the increased levels of safety and efficiency they provide. These robotic UAVs operate without a pilot and with varying degrees of autonomy. The level of autonomy of a drone can range from remote location piloted (a human controls its movements) to high-tech autonomy (a system of sensors and LIDAR detectors calculates its movement).

Drones can travel at different heights and as well different ranges. Close-range drones can typically travel up to three miles and are mostly used by hobbyists. The Close-range drone has a range of approx 30 miles. Short-range drones, which can travel up to 90 miles, are primarily used for covert operations and intelligence gathering. Mid-range unmanned aerial vehicles (UAVs) have a 400-mile range and can be used for intelligence gathering, scientific studies, and meteorological research. The longest-range drones are known as "endurance" UAVs, and they can travel beyond 400 miles and up to 3,000 feet in the air.

Where Can Be Drone Used?

For Military Use

The military is probably the oldest, most well-known, and most contentious application of drones. In the early 1940s, the British and American militaries began using primitive forms of drones to spy on the Axis powers. Drones today are far more advanced than UAVs of yesteryear, with thermal imaging, laser range finders, and even airstrike tools. The MQ-9 Reaper is the most visible military drone in use today. The aircraft is 36 feet long, can fly undetected for 50,000 feet, and is outfitted with a variety of missiles and intelligence-gathering tools.

For Delivery Purpose

Delivery drones are typically unmanned aerial vehicles (UAVs) that transport food, packages, or goods to your front door. These flying drones are known as "last mile" delivery drones because they make deliveries from nearby stores or warehouses. Instead of relying on delivery people with inefficient trucks, retailers and grocery chains across the country are starting to turn to drones as a more efficient delivery alternative. These drones can deliver an impressive 55 pounds of goods outside your front door without requiring you to leave your house. Amazon, Walmart, Google, FedEx, UPS, and many other major corporations are all currently testing various versions of delivery drones.

For Emergency Rescue

Because of the scope or severity of the disaster, it is not always safe to send humans into a rescue situation. This is where drones come into play. In the event of a capsized boat or a drowning person, officials can deploy an Autonomous Underwater Vehicle (AUV) to assist in the rescue. Drones are used to search for people who are trapped in an avalanche. Kaman has even developed a pilotless helicopter called the K-MAX that can carry more than 6,000 pounds of cargo. The K-MAX has already been used to fight fires in China and Australia.

For Agriculture Use

Yes, drone plays a very important role in agriculture. Drones have also proven to be beneficial to the agriculture industry, providing farmers with a variety of options for optimizing their farms to maximize efficiency and reduce physical strain. UAVs make field surveys, seeding over fields, tracking livestock, and estimating crop yields easier while saving agriculture professionals valuable time.

For Wildlife Use

Drones are a less expensive and more efficient way to conserve wildlife. With humans on the ground, tracking wildlife populations is nearly impossible. The ability to track roaming types of animals, varying from Orangutans in Borneo to Bison on the Great Plains, allows wildlife conservationists to gain a better understanding of the health of their species and ecosystems.

Conservation drones are also useful in the fight against poaching in Asia and Africa.

For Medicine

Instead of relying on dog sleds, snowmobiles, or ambulances that can't handle the snow, Alaskans are turning to drones to get life-saving medical supplies delivered quickly.

Drones are also being used to transport donated organs to transplant recipients. A kidney was recently transported from one hospital in Maryland to another in under five minutes using a specially designed drone.

For Photography

Drones have been a boon to aerial photographers who use UAVs to capture expansive shots.

Have you ever wanted to get a bird's-eye view of your favourite city, beach, or building? There are drones designed specifically for photography that offer a new perspective on some of your favourite locations.

Do you need a license to fly a drone ?

Until 2016, commercial businesses that used drone technology, regardless of industry, were required to have a pilot's license. However, new government regulations require those piloting commercial drones to obtain a Remote Pilot Certificate by passing an aeronautical knowledge test. The exam has 60 multiple-choice questions, regulations to Unmanned Aerial System (UAS) rating privileges, limitations, and flight operation, effects of weather on UAS performance, emergency plans, airport regulations, decision making, maintenance, and more are among the topics covered. To take the exam, you should be at least 16 years old, be able to read, understand, speak, and write English, and be physically and mentally fit enough to fly a drone.

Summing Up

Drones and unmanned aircraft will be used by many businesses and government agencies. Complementary technologies such as 5G, augmented reality, and computer vision is supposed to propel drone market growth and improve drone communication and intelligence. As the use of personal and commercial drones grows, government agencies will refine their rules and regulations.

#dji drone #drone #drone photography #uav #drones #dronepilot #ninetenths

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apexsalaesarena · 4 months ago

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john9028 · 1 year ago

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Livestock Monitoring Market Industry Trends, Share, Size, Growth, Opportunity and Forecast 2023-2030

The livestock industry is widely spread, and therefore it is important to keep track of livestock and other farm animals. A Livestock monitoring system is a thorough solution designed and developed using sensors, GPS, etc. and coalescing all these with a network protocol for communication. This monitoring system helps the farmers to keep a check on their farm animals remotely. The tracker device can be hitched to collars and can keep track of animal health, chewing patterns, location details, pasture management, etc. The Livestock monitoring system not only helps in managing farm animals but also other farm equipment. The use of sensors on livestock, where the data is sent to a central unit for monitoring, is an implementation known as Wireless Sensor Network.

Read More: https://wemarketresearch.com/reports/livestock-monitoring-market/120

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lvwahhhh · 1 year ago

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From Fields to Skies: Exploring the Promise of Crop Drones in Sustainable Farming

Intelligent machinery is transforming agriculture by offering smart solutions to numerous challenges faced by modern farming. These technologies leverage connectivity, artificial intelligence, and automation to optimize various aspects of the farming process, improving productivity and sustainability. Here are some of the ways intelligent machinery is revolutionizing agriculture. Huida Tech's HD540pro Agricultural Drone crop drone has continuously innovated and made breakthroughs at the technical level, and Huida Tech's HD408 Autopilot Navigation also plays a big role in the agricultural industry.

Precision Farming: Intelligent machinery enables precision agriculture, which involves using data-driven insights to manage crops and livestock more efficiently. With the help of sensors, drones, and GPS technology, farmers can monitor and analyze soil conditions, weather patterns, and crop health in real-time. This information allows for precise application of water, fertilizers, and pesticides, reducing waste and increasing yields.

Autonomous Equipment: Self-driving tractors, harvesters, and drones are becoming increasingly prevalent on farms. Autonomous machines can perform repetitive tasks with precision and consistency, reducing human labor and improving efficiency. These machines can be programmed to navigate fields, apply treatments, harvest crops, and even perform selective weeding. By automating routine tasks, farmers can focus on more strategic activities and make better decisions based on real-time data.

Livestock Monitoring: Intelligent machinery is revolutionizing livestock management by enabling continuous monitoring of animals in real-time. Wearable sensors and tracking devices can collect information about an animal's behavior, health, and feed intake. This data helps farmers identify signs of illness, optimize feeding regimes, and improve overall animal welfare. By promptly detecting health issues, farmers can implement targeted interventions, reducing the risk of disease transmission and improving productivity.

Data-Driven Insights: Intelligent machinery generates vast amounts of data that can be analyzed to gain valuable insights. By using advanced analytics and machine learning algorithms, farmers can make more informed decisions about resource allocation, planting schedules, and production forecasts. By understanding patterns and trends in the data, farmers can optimize their operations, minimize risks, and increase profitability.

Remote Monitoring and Control: Intelligent farm management systems allow farmers to remotely monitor and control various operations. These systems integrate data from different sources, such as weather stations and soil sensors, to provide real-time information about crop and soil conditions. Farmers can remotely adjust irrigation levels, control temperature and humidity in greenhouses, and deploy autonomous machinery, all from a centralized platform. This capability enables farmers to make timely decisions and respond quickly to changing conditions.

Resource Optimization: Intelligent machinery helps farmers optimize the use of resources such as water, energy, and fertilizers. By precisely applying these resources based on real-time data and automation, farmers can reduce waste, lower costs, and minimize environmental impact. For example, with smart irrigation systems, water usage can be tailored to the specific needs of crops and only delivered when necessary, saving water and energy.

In conclusion, intelligent machinery is revolutionizing agriculture by offering smart solutions to modern farming challenges. These technologies enable precision farming, automate tasks, improve livestock monitoring, provide data-driven insights, facilitate remote monitoring and control, and optimize resource usage. Implementing intelligent machinery can help farmers increase productivity, sustainability, and profitability while reducing labor requirements and environmental impact.

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