Unearthing the Future: Emerging Trends in the Digital Soil Mapping Platforms and Applications Market | BIS Research

In the era of precision agriculture, understanding soil health and composition has become paramount for optimizing crop yields and ensuring sustainable farming practices. Digital soil mapping platforms and applications are at the forefront of this agricultural revolution, providing detailed insights that empower farmers and agribusinesses to make informed decisions. This article delves into the burgeoning digital soil mapping market, highlighting key trends, market segmentation, growth projections, and how various industries are leveraging these advancements to stay competitive.

Market Overview: Robust Growth Trajectory

The global digital soil mapping platforms and applications market is experiencing significant growth. Valued at $228.2 million in 2023, it is projected to reach $798.5 million by 2034, registering a compound annual growth rate (CAGR) of 12.16% during the forecast period of 2024-2034. This upward trend is driven by the increasing adoption of precision agriculture, advancements in geospatial technologies, and a heightened focus on sustainable farming practices.

Key Trends Shaping the Market

Integration of IoT and Advanced Sensors:

IoT devices and sensors enable real-time monitoring of soil moisture, temperature, and nutrients.

Helps in precision irrigation and fertilization, improving crop yields.

Adoption of AI and Machine Learning:

AI-driven analytics predict soil health trends and pest infestations.

Machine learning enhances decision-making for farm management.

Focus on Sustainable Agriculture:

Soil mapping tools aid in regenerative farming by tracking organic matter and erosion risks.

Supports biodiversity and long-term soil health.

Government Initiatives and Support:

Subsidies and policies encourage farmers to adopt digital agriculture solutions.

Helps boost food security, especially in developing regions.

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Key Market Segmentation

Segmentation 1: by Application

Agriculture Cooperatives

Government and Private Research Institutes

Agribusiness Companies

Others

Segmentation 2: by Product Type

Drone Scouting

Mobile Scouting

Satellite Imagery

Segmentation 3: by Region

North America

Europe

Asia-Pacific

Rest-of-the-World

The North America region dominated the global digital soil mapping platforms and applications market and is expected to maintain its dominance over the forecast period from 2024 to 2034. The region is home to multiple leading companies, including Trimble Inc., Deere & Company, and Ag Leader Technology.

Industries Leveraging Digital Soil Mapping

Various sectors are capitalizing on digital soil mapping technologies to enhance their operations and maintain a competitive edge:

Agriculture: Farmers and agronomists use soil mapping to tailor crop management practices, leading to improved yields and resource efficiency.

Environmental Management: Organizations involved in land conservation and environmental monitoring employ soil mapping to assess soil degradation and plan remediation efforts.

Urban Planning and Construction: Urban planners and construction firms utilize soil data to inform land use decisions, ensuring infrastructure stability and sustainability.

Recent Developments in the Global Digital Soil Mapping Platforms and Applications Industry

In February 2024, EOS Data Analytics (EOSDA) announced a collaboration with AgriProve, Australia’s leading soiltech carbon developer, to enhance soil organic carbon (SOC) monitoring using AI-powered satellite imagery. This collaboration is supported by the Australian government with a $6.0 million grant. The collaboration aims to create detailed soil carbon maps and predictive models, offering farmers invaluable insights for optimizing land management practices and improving soil and climate resilience.

In January 2024, EarthOptics surpassed one million acres of physically mapped farmland and ranch land, positioning its SoilMapper platform as a market leader in comprehensive soil intelligence. Since 2021, the company has mapped land across four continents and 45 U.S. states, utilizing advanced technologies such as ground penetrating radar and electromagnetic induction scanning.

Get more insights on the agriculture market research reports.

Future Market Outlook

The digital soil mapping market is poised for continued expansion, driven by technological advancements and increasing awareness of sustainable agriculture. Key factors influencing future growth include:

Technological Innovations: Advancements in remote sensing, data analytics, and machine learning will enhance the accuracy and usability of soil mapping platforms.

Regulatory Support: Policies promoting sustainable agriculture and environmental conservation will encourage the adoption of digital soil mapping tools.

Global Food Security Concerns: As the global population grows, optimizing agricultural productivity through precision farming practices will become increasingly critical.

Conclusion

Digital soil mapping platforms and applications are revolutionizing agriculture by providing detailed, actionable insights into soil health and composition. The market's robust growth trajectory reflects the increasing recognition of these tools' value across various sectors. As industries continue to prioritize sustainability and efficiency, integrating digital soil mapping into operational strategies will be essential for maintaining competitiveness and ensuring long-term success.

AR in Agriculture Market Valued at $ 14.97 Billion with a 30.95% CAGR Expected Through 2030

Augmented Reality (AR) is poised to revolutionize the agriculture industry, offering innovative solutions to enhance productivity, efficiency, and sustainability. The "Global AR in Agriculture Market" report by Infinium Global Research provides a comprehensive analysis of this emerging market, highlighting key trends, opportunities, and challenges. 

Market Overview 

The integration of AR in agriculture represents a significant technological advancement, combining real-world farming activities with digital overlays that provide critical information in real-time. This technology is enhancing various agricultural processes, from crop monitoring and pest control to machinery maintenance and training. 

The global AR in agriculture market is projected to grow at a robust CAGR during the forecast period from 2023 to 2030. This growth is driven by the increasing demand for precision agriculture, the need for efficient resource management, and the rising adoption of smart farming technologies. 

Key Drivers 

Precision Agriculture: AR technology facilitates precision agriculture by providing farmers with detailed information about soil conditions, crop health, and weather patterns. This allows for more accurate planting, fertilizing, and irrigation, leading to higher yields and reduced resource wastage. 

Resource Management: Efficient resource management is critical in modern agriculture. AR applications help in optimizing the use of water, fertilizers, and pesticides by providing precise data and real-time monitoring. This not only improves crop productivity but also minimizes environmental impact. 

Smart Farming: The adoption of smart farming techniques is on the rise, with AR playing a crucial role. AR-powered devices and applications enable farmers to visualize data from IoT sensors, drones, and satellite imagery directly on their fields, enhancing decision-making and operational efficiency. 

Training and Education: AR is transforming agricultural education and training by providing immersive learning experiences. Farmers and agricultural workers can access virtual simulations and interactive tutorials that enhance their skills and knowledge, leading to better farm management practices. 

Market Segmentation 

The AR in agriculture market can be segmented based on application, component, and region. 

By Application: 

Crop Monitoring: AR applications provide real-time data on crop health, pest infestation, and growth patterns, allowing for timely interventions. 

Field Mapping: AR-enabled devices help in creating detailed field maps, aiding in precision farming and efficient land management. 

Equipment Maintenance: AR guides and tutorials assist farmers in maintaining and repairing agricultural machinery, reducing downtime and maintenance costs. 

Training and Education: AR provides interactive training modules for farmers, improving their skills and knowledge. 

By Component: 

Hardware: Includes AR glasses, headsets, and handheld devices used for displaying augmented content. 

Software: Comprises AR applications and platforms that provide various functionalities such as data visualization, simulation, and analytics. 

Services: Encompass installation, maintenance, and training services provided by AR solution vendors. 

By Region: 

North America: Leading the market with extensive adoption of precision agriculture technologies and significant investments in agricultural research. 

Europe: Witnessing substantial growth due to government initiatives promoting sustainable farming practices and technological advancements. 

Asia-Pacific: Expected to grow at the highest CAGR, driven by increasing population, rising food demand, and growing awareness about advanced farming techniques. 

Rest of the World: Regions like Latin America and Africa are gradually adopting AR technologies to enhance agricultural productivity and sustainability. 

Key Players 

Several key players are driving innovation and competition in the AR in agriculture market. These include: 

Deere & Company: Known for integrating AR into its precision agriculture solutions, offering farmers enhanced data visualization and operational efficiency. 

AGCO Corporation: Developing AR-based applications for machinery maintenance and real-time field monitoring. 

Trimble Inc.: Providing AR-enabled solutions for crop monitoring, field mapping, and resource management. 

AG Leader Technology: Offering AR-powered precision farming tools that help farmers optimize their operations. 

Topcon Corporation: Specializing in AR applications for precision agriculture and smart farming. 

Read More: https://www.infiniumglobalresearch.com/market-reports/global-ar-in-agriculture-market  

Opportunities and Challenges 

Opportunities: 

Technological Advancements: Continuous advancements in AR technology, coupled with the integration of AI and IoT, present significant growth opportunities. Enhanced data analytics and real-time monitoring capabilities will further drive the adoption of AR in agriculture. 

Government Initiatives: Government programs promoting sustainable farming practices and technological adoption in agriculture provide a favorable environment for market growth. Subsidies and grants for precision farming tools and technologies encourage farmers to invest in AR solutions. 

Collaborations and Partnerships: Collaborations between AR technology providers and agricultural companies can lead to the development of innovative solutions tailored to specific farming needs. Partnerships with research institutions can also drive technological advancements and market penetration. 

Challenges: 

High Initial Costs: The high cost of AR hardware and software can be a barrier to adoption, especially for small-scale farmers. Reducing costs through technological advancements and economies of scale will be crucial for widespread adoption. 

Lack of Awareness and Training: Limited awareness and understanding of AR technology among farmers can hinder market growth. Providing adequate training and educational resources is essential to overcome this challenge. 

Data Privacy and Security: The use of AR in agriculture involves the collection and analysis of vast amounts of data. Ensuring data privacy and security is critical to gaining farmers' trust and driving adoption. 

Future Outlook 

The future of AR in agriculture looks promising, with several trends shaping the market landscape: 

Integration with AI and IoT: The convergence of AR with AI and IoT will enhance data analytics, real-time monitoring, and decision-making capabilities, driving further adoption in agriculture. 

Development of Affordable Solutions: Technological advancements and increased competition will lead to the development of more affordable AR solutions, making them accessible to a broader range of farmers. 

Expansion of Use Cases: As AR technology evolves, new applications and use cases in agriculture will emerge, ranging from livestock management to automated harvesting. 

Sustainability Focus: The emphasis on sustainable farming practices will drive the adoption of AR technologies that optimize resource use and reduce environmental impact. 

Conclusion 

The global AR in agriculture market is set for substantial growth, driven by the increasing demand for precision agriculture, efficient resource management, and smart farming technologies. While challenges such as high initial costs and lack of awareness remain, the opportunities presented by technological advancements, government initiatives, and industry collaborations are significant. 

As AR technology continues to evolve, its integration into agriculture will transform farming practices, enhancing productivity, efficiency, and sustainability. Stakeholders in the agriculture industry, including farmers, technology providers, and policymakers, must work together to harness the potential of AR and drive the future of smart farming. 

Agritech Platform Market May Set New Growth Story

Advance Market Analytics published a new research publication on "Agritech Platform Market Insights, to 2028" with 232 pages and enriched with self-explained Tables and charts in presentable format. In the Study you will find new evolving Trends, Drivers, Restraints, Opportunities generated by targeting market associated stakeholders. The growth of the Agritech Platform market was mainly driven by the increasing R&D spending across the world.

Get Free Exclusive PDF Sample Copy of This Research @ https://www.advancemarketanalytics.com/sample-report/183865-global-agritech-platform-market Some of the key players profiled in the study are: CropX (Israel), Arable (United States), Gamaya (Switzerland), Agro-star (India), Waycool (India), Ninja Cart (India), Cropsafe (United Kingdom), Farmlink (India), Machine Eye (United Kingdom), CropIn (India), Intello Labs (India). Scope of the Report of Agritech Platform Agritech Platforms provide farmers with smart agricultural solutions using a variety of current technology. The agritech platform assists farmers in determining the best sowing times, tracking the health of their crops throughout their cycle, identifying moisture patterns in crops, identifying nutrient movement and behaviour, and predicting when and where crops require protection products, all while operating in a variety of field conditions. Farmers can also use the agritech platform to market their produce at a profit. Crop identification and estimation utilizing remote sensing technologies, advising services for farmers, post-harvest intelligence for farmers, connecting farmers to the market, and giving financial access to farmers are all part of the digital agricultural platform. The titled segments and sub-section of the market are illuminated below: by Type (Bio tech and Chemicals, Analytics, Sensors, Mobility, Others), Application (Yield Monitoring, Variable Rate Application, Field Mapping, Soil Monitoring, Crop Scouting, Other), Agricultural Technology (Agricultural Drone, Satellite Photography And Sensors, Iot-Based Sensor Networks, Phase Tracking, Weather Forecasting, Other), Component (Solution, Services) Market Trends: Increasing Popularity About Digital Agritech Platform

Opportunities: Higher Investment In Sophisticated Agriculture Technology

Government Favorable Incentives For Development Of Agriculture Sector

Market Drivers: Increasing Agriculture Sector In Develop Regions Region Included are: North America, Europe, Asia Pacific, Oceania, South America, Middle East & Africa Country Level Break-Up: United States, Canada, Mexico, Brazil, Argentina, Colombia, Chile, South Africa, Nigeria, Tunisia, Morocco, Germany, United Kingdom (UK), the Netherlands, Spain, Italy, Belgium, Austria, Turkey, Russia, France, Poland, Israel, United Arab Emirates, Qatar, Saudi Arabia, China, Japan, Taiwan, South Korea, Singapore, India, Australia and New Zealand etc. Have Any Questions Regarding Global Agritech Platform Market Report, Ask Our Experts@ https://www.advancemarketanalytics.com/enquiry-before-buy/183865-global-agritech-platform-market Strategic Points Covered in Table of Content of Global Agritech Platform Market:

Chapter 1: Introduction, market driving force product Objective of Study and Research Scope the Agritech Platform market

Chapter 2: Exclusive Summary – the basic information of the Agritech Platform Market.

Chapter 3: Displayingthe Market Dynamics- Drivers, Trends and Challenges & Opportunities of the Agritech Platform

Chapter 4: Presenting the Agritech Platform Market Factor Analysis, Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis.

Chapter 5: Displaying the by Type, End User and Region/Country 2015-2020

Chapter 6: Evaluating the leading manufacturers of the Agritech Platform market which consists of its Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile

Chapter 7: To evaluate the market by segments, by countries and by Manufacturers/Company with revenue share and sales by key countries in these various regions (2023-2028)

Chapter 8 & 9: Displaying the Appendix, Methodology and Data Source finally, Agritech Platform Market is a valuable source of guidance for individuals and companies. Read Detailed Index of full Research Study at @ https://www.advancemarketanalytics.com/reports/183865-global-agritech-platform-market Thanks for reading this article; you can also get individual chapter wise section or region wise report version like North America, Middle East, Africa, Europe or LATAM, Southeast Asia. Contact US : Craig Francis (PR & Marketing Manager) AMA Research & Media LLP Unit No. 429, Parsonage Road Edison, NJ New Jersey USA – 08837 Phone: +1 201 565 3262, +44 161 818 8166 [email protected]

Rise of a Digital Agriculture Platform-Agrojay Innovations Pvt Ltd.

Digital agriculture alludes to tools that carefully gather, store, examine and share electronic information as well as data along the farming value chain.

Now and then known as “smart farming” or “e-agriculture, digital farming incorporates exactness agribusiness. In contrast to exactness agriculture, advanced agribusiness impacts the whole agri-food value chain — previously, during, and after on-farm creation. Therefore, on-farm advancements, similar to yield mapping, GPS direction frameworks, and variable-rate application, fall under the space of exactness agriculture and digital agriculture. Then again, digital innovations engaged with e-commerce business stages, e-extension administrations, stockroom receipt frameworks, blockchain-empowered food traceability frameworks, tractor rental applications, etc. fall under the umbrella of digital agriculture however not accurate agriculture.

Digital agriculture encompasses a wide range of technologies, most of which have multiple applications along the agricultural value chain. These technologies include, but are not limited to:

· Cloud computing/big data analysis tools

· Artificial intelligence (AI)

· Machine learning

· Distributed ledger technologies, including blockchain and smart contracts

· Digital communications technologies, like mobile phones

· Digital platforms, such as e-commerce platforms, agro-advisory apps, or e-extension websites

· Precision agriculture technologies, including

o Sensors, including food sensors and soil sensors

o Guidance and tracking systems (often enabled by GPS, GNSS, RFID, IoT)

o Variable-rate input technologies

o Automatic section control

o Advanced imaging technologies, including satellite and drone imagery, to look at temperature gradients, fertility gradients, moisture gradients, and anomalies in a field

o Automated machinery and agricultural robots

On-farm efficiency

On-farm, accuracy agriculture innovations can limit inputs required for a given yield. For example, variables rate application (VRA) innovations can apply exact measures of water, fertilizer, pesticide, herbicide, etc. Various exact examinations find that VRA improves input use proficiency. Utilizing VRA nearby geo-spatial mapping, ranchers can apply contributions to hyper-confined areas of their homestead — here and there down to the individual plant level. Diminishing info use brings down expenses and decreases negative ecological effects. Besides, observational proof shows accuracy agriculture innovations can build yields.

Digital agriculture improves work profitability through improved farmer knowledge. E-extension takes into account cultivating information and abilities to diffuse requiring little to no effort. E-extension administrations can likewise improve farm profitability by means of choice to help benefits on portable applications or other advanced stages. Utilizing numerous wellsprings of data — climate information, GIS spatial mapping, soil sensor information, satellite/drone pictures, etc — e-extension stages can give ongoing proposals to farmers.

At long last, advanced farming improves work profitability through reduced work requirements. Robotization innate inaccuracy agribusiness — from “milking robots on dairy farms to greenhouses with automated climate control — can make yield and domesticated animals the executives increasingly proficient by lessening required labor.

Off-farm/market efficiency

Reducing information asymmetry

Value data influence serious markets’ productivity since it impacts price scattering, exchange, and farmers and customer welfare. Since the negligible expense of carefully conveying data approaches zero, digital agriculture can possibly spread value data. Likewise, cost data gave by Internet booths (“e-choupals”) in India prompted an expansion in farmers’ net benefits as profits lost monopsony power.

Matching buyers and sellers

Online business brings down the inquiry expenses of coordinating purchasers and sellers, possibly shortening the worth chain. Instead of experience many delegates, farmers can sell straightforwardly to consumers. Market get to administrations can likewise take care of the coordinating issue without fundamentally facilitating online transactions. These coordinating stages assist smallholders with organizing with purchasers and enter both local and worldwide worth chains. At last, it’s critical to take note of digital technologies that can likewise encourage coordination in financial and input markets, not only producer to-consumer output sales.

Lowering transaction costs in commercial markets:

Digital payments — whether integrated into e-commerce platforms or in mobile money accounts, e-wallets, etc. — reduce transaction costs inside rural markets. The requirement for sheltered, fast money related exchanges is especially evident in rustic territories. In addition, Digital payments can give passage to financial balances, protection, and credit. Utilizing conveyed record advances or brilliant agreements is another approach to lessen trust-related exchange costs in business markets. Numerous retail and food organizations have collaborated with IBM to create blockchain pilots related to food safety and traceability.

Agrojay is one of the best platforms for Digital agriculture

Agrojay Digital Agricultural platform will help the farmers for the following: 1. Farmers can directly connect with labs and research institutes.

2. Farmers can find agronomist for his crop, also he can give ratings and feedback to him.

3. Farmers can get pre harvesting predictions.

4. Farmers can directly connect with buyers and before harvesting, they can sell.

5. Farmers can easily connect with manufacturers of pesticides, fertilizer, Agri equipment.

6. Farmers can discuss their problems and solution with each other.

Download the app: https://play.google.com/store/apps/details?id=com.wowinfotech.agrojay

Agrojay Innovations Pvt. Ltd.

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Top 6 Technologies in Agriculture for Yield Enhancements

In recent years, the adoption of technologies in Agriculture has been enabling the farmers to treat crops and manage fields more efficiently for a better yield. Agriculture technology has changed the way of farming and made it more profitable, efficient, safer, and simple. Among other popular new agriculture technologies, farmers have picked the following 6 farming technologies as the efficient systems:

Remote Sensing Technologies

Software Applications

Communication Systems using ICT

Telemetrics positioning technologies

Hardware & Support System

Data Analytics Solution for Agriculture

As a result of adopting the technologies in Agriculture, along with the large scale commercial farms the small, medium and marginal farm producers also get significant benefits from the ever-evolving digital agriculture systems.

These benefits include

Reduced consumption of water, nutrients, fertilizer.

Reduced negative impact on the ecosystem & better efficiency.

Reduced chemical runoff into the natural water resources.

Reduced production cost and many more.

Thereby, Agriculture tech makes the farming business cost-effective, smart, and sustainable.

Let’s discuss the,

Top 6 Technologies in Agriculture:

Remote Sensing Technologies for Agriculture:

📷

Remote Sensing Technologies for Agriculture involves multiple Sensors, Tools, gadgets and systems for various applications.

Yield Monitoring Sensors – like the “GPS sensors” mounted on harvesting equipment that fetches spatial coordinate data. Yield monitoring data is combined with the coordinates to create yield maps. Yield Monitoring systems are placed on crop harvesting vehicles such as Wheat or corn harvesters. They provide the essential crop data such as crop weight yield by time, distance, or GPS location measured and recorded to within 30cm.

Variable Rate Fertilizer application tools – Automatic Fertilizer Application tool uses yield maps to determine plant health by colouration to control the crop input – granular, liquid, and gaseous fertilizer materials. Variable-rate controllers can either be manually controlled or automatically controlled using an onboard computer guided by a real GPS location.

Weed Mapping –  Weed Mapping device currently uses operator interpretation and input to generate maps by quickly marking the location with a GPS receiver and data logger. The weed occurrences can then be overlapped with yield maps, fertilizer maps, and spray maps. As visual recognition systems improve, the manual entry will soon be replaced by automated, visual systems mounted to working equipment.

Variable Spraying controllers – Automatic variable spraying controllers turn herbicide spray units on and off and customize the amount of the spray applied. Once weed locations are identified and mapped, the volume and mix of the spray can be determined.

Topography and Boundaries maps – can be recorded using high-precision GPS, which allows for a very precise topographic representation to be made of any field. These precision maps are useful when interpreting yield maps and weed maps. Field boundaries, existing roads, and wetlands can be accurately located to aid in farm planning.

Salinity Mapping – is done with a Salinity Meter on a sledge towed across fields affected by salinity. Salinity mapping interprets emergent issues as well as changes in salinity over time.

Guidance Systems – can accurately position a moving vehicle within 30cm or less using GPS. Guidance systems replace conventional equipment for spraying or seeding. Autonomous vehicles are currently under development and will likely be put into use in the very near future.

Software Applications:

The Role of Smartphone Apps in Agriculture Technologies:

📷

Many smartphone applications have begun to incorporate the Internet of Things (IoT), data aggregation, and bring up-to-date actionable information to small farmers regarding seeding, weeding, fertilizing, and watering. These applications gather data from handheld sensors, remote sensors, and weather stations, creating in-depth analyses and valuable recommendations. Farmsio has developed several Digital Applications related to Technologies for agriculture specifically targeting small-scale farmers.

Disease Detection and Diagnosis: Photos taken of suspect plants can be forwarded to experts for analysis.

Fertilizer Calculator: Soil sensors and leaf colour can determine what nutrients are needed.

Soil Study: Capturing soil images, as well as pH and chemical data from sensors, allows farmers to monitor and adjust to changing soil conditions.

Water Study: Determining Leaf Area Index from photos and brightness logging can help farmers determine water needs.

Crop Harvest Readiness: Camera photos with UV and white lights accurately predict ripeness.

The application of Modern Technologies in Agriculture can significantly improve farm productivity by analyzing soil, crop, weed, and pest variables, as well as offer valuable feedback for agricultural decisions, the small farmer’s quality of life, can noticeably improve.

Communication Systems: ICT

📷

ICT in Agriculture helps in the growing demand for new approaches. It also helps in empowering the rural people by providing better access to natural resources, improved agricultural technologies, effective production strategies, markets, banking and financial services etc.

📷

Widen Market Access

Strengthen and empower the farming community

ICT Initiatives For Agricultural In India:

Agrisnet

Digital green

Digital Mandi

Telemetrics positioning technologies:

📷

Telematics – the new technology in agriculture is a method of monitoring tractors, trucks, equipment and other assets by using GPS technology and onboard diagnostics (OBD) to plot the asset’s movements on a computerized map.

Components of Telemetric System:

GPS location

Speed

Mileage

Trip recordings

Drive times

Time on location

Fuel usage

Driving related behaviour (in case of harsh driving)

Other data related to vehicle utility

Driver-related details

Telematics systems improve productivity and overall operational efficiency.

When coupled with another telematics-related tech, the black box can track fuel consumption and engine performance. Such features enable companies to track and minimize instances of engine idling which is the leading cause of unnecessary fuel consumption.

In addition to that, FPO’s can follow up with timely vehicle maintenance, which improves vehicle longevity and prevents expensive maintenance costs by tracking performance in real-time. Such vehicle telematics features cut operational costs by cutting unwanted expenses and enhancing the productivity of vehicles and overall operation.

Hardware & Support System

📷

The IoT in Agriculture is developing and being popular day by day. It has been estimated that there will be an interconnection between billions of objects in the world. Therefore, a smart Farming embedded with an IoT system could deliver more Agricultural service based on an expert‟s skill or understanding. The expert system helps the farmer by providing an efficient crop management system.

The (IoT) Internet of things is transforming the agriculture industry like never before by helping the farmers in different ways.

The IoT based expert system makes use of the input gathered in real-time.

It allows the farmers to take prior measures to reduce the loss caused by insects/pests and climate change.

This increases the productivity of crops.

The sensors are deployed inside the agricultural area to collect data regarding the environment.

The data collected by different sensors are sent to a server, where the expert system is deployed, which processes the data and analyses the data and gives suggestions about the crop to the farmers.

The overall Decision Support System comprises hardware and software elements. ICT equipment is employed for gathering the data, a platform was utilized for storing the information and an Android application was developed for formulating and presenting the most crucial results back to the user.

Additionally, as far as the outcomes are concerned, the Decision Support System has been fully developed and formed, according to the comprehensive and detailed system design, composition and arrangement of the various components. Complete testing of the system in actual farmlands and with farmers or farming consultants

Data analytics Solution for Agriculture:

Smart farming using data analytics solutions :

📷

Smart farming uses data analytics solutions to gather information from multiple farming practices to create algorithms that can be utilised by different farms to create a crop yield that is both fruitful and sustainable.

Farmers are using data to calculate harvest yields, fertiliser demand, cost savings, and even identifying optimisation strategies for future crops. Smart farming uses data analytics solutions to gather information from multiple farming practices to create algorithms that can be utilised by different farms to create a crop yield that is both fruitful and sustainable.

With this knowledge, farmers will be able to better predict activity on the farm and utilise methods that are not only better for their crops but more environmentally sound.

Conclusion:

In today’s growing world, the Small, Medium to Micro or Marginal farmers is not much aware of technologies in agricultural practices. The proposed system can help the farmers to take preventive measures to reduce the losses in agriculture and increase productivity in crops.

Today’s farmers can predict crop yields with surprising accuracy, before planting a single seed. The insight provided by Farmsio’s data analytics in the technology for agriculture allows farmers to start and harvest their crops at an optimum time, which maximises crop yields, minimises stress and maximises profitability.

To know more about the trending or the upcoming new technologies in agriculture please Contact Farmsio.

Illustration Photo: Alexander Frick, Jr. uses a smart device to review data and plans his customized seed application for the day (credits: USDA Photo Media by Lance Cheung / Public domain)

GIZ-SAIS Investment Readiness Programme 2022 for African AgriTech and FoodTech Startups

‘Scaling Digital Agriculture Innovations through Startups’ (SAIS) is a project implemented by the Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH on behalf of the German Federal Ministry for Economic Cooperation and Development (BMZ). The overall goal of the project is to support African startups in scaling their digital innovations; these innovations should enable users in the agriculture or food sectors to increase their income. Up to 18 startups are selected annually to participate in a nine-month Investment Readiness Programme fully funded by the German Federal Ministry for Economic Cooperation and Development (BMZ). The aim of the Investment Readiness Programme is to support more African startups in improving their business models, gaining access to investors and business partners, and achieving greater impact. Seven output indicators (also called investment readiness criteria or investment readiness output indicators) have been defined to assess and monitor the investment readiness level of selected startups.

You can apply if your innovation is listed in one of the following categories or technologies.

Categories Building digital expertise for farmers (eSkills, eLiteracy), eLearning, precision farming, access to market, access to finance, digital payment, supply chain management, food delivery, animal and crops health, soil fertility, logistics and transport, e-commerce, gamification, big data, data analysis, open data, data protection, data security, cybersecurity, crowdsourcing, digital storytelling.

Technologies Internet of things, precision farming (chipcards, sensors, drones, remote sensing system) artificial intelligence (AI), virtual/augmented reality, 3D-printer, robotics, digital learning software (eLearning system, MOOC platforms, open educational resources), database, blockchain, information-management systems (IMS), monitoring, controlling systems, GIS (Geo-Information Systems) /Mapping, SMS-services, web platforms, Apps, social media, big data analysis systems.

Who can apply for the Investment Readiness Program? SAIS is looking for innovative startups that are about to scale rapidly and apply digital solutions to the agriculture and food sector which enable their users to improve their income. In addition, digital products or services that help mitigate the impact of COVID-19 are a plus and will be taken into special consideration.

Please note that early-stage startups will not be considered for the program.

Application Deadline: August 31, 2021

Check more https://adalidda.com/posts/AEcxSoZxqEtQT943L/giz-sais-investment-readiness-programme-2022-for-african

Global Agrigenomics Market By Type, By Application, By Segmentation, By Region, and By Country 2020-2026

Market Overview Agriculture genomics is an application of genomics in agriculture to improve the productivity and sustainability in crop production. Genomics can reduce the trails associated with scientific research, which could in turn improve the quality and quantity in crop yield. Various agrigenomics processes adopted by the researchers and academia includes plant genotyping, genetic engineering, gene expression analysis, GMO testing and detection, and genome sequencing. Food Security is major threat and traditional methods of plant and animal production will not meet the demand from world’s population. Growing adoption of genomic driven breeding and through analysis through next generation sequencing technologies is revolutionizing the agriculture industry. The additional benefits associated with agrigenomics includes reduced breeding cycles, greater selection intensity, improved accuracy=y and increased rate of genetic gain in plants.

Also Read: https://www.openpr.com/news/2095435/agrigenomics-market-2020-global-industry-manufacturers

 The global agrigenomics market valued USD XX million in 2018 and expected to grow at a CAGR of XX% to reach a market value of USD XX million by 2026. Market Dynamics: Change in environmental & soil condition over the last few years has imposed unique challenges over agriculture industry. To address the global demand for food, agricultural researchers, farmers, breeders are adopting genomics or DNA science to optimize production. Genomics, bioinformatics and genome editing are the key technologies used by the research organizations. These research organizations are majorly focused on producing sustainable crop/seed technology suitable for future generations. Soil scientists are utilizing next generation sequencing for the development of complete characterization of soil microbial communities to allow better prediction of soil health. The seed lines produced through usage of gene modification possess unique ability to increase farm productivity through minimum input. The additional properties associated with these modified crops includes drought tolerance, and disease resistance. Furthermore, growing commercial production of agricultural crops and establishments of commercial farms is expected to increase the adoption rate of agrigenomics during the forecast period. However, stringent government regulation imposed over the production of genetically modified crops are hindering the growth of global Agrigenomics market.

Also Read: https://industrytoday.co.uk/electrical/image-sensor-and-color-sensor-market--global-industry-analysis-and-opportunity-and-forecast-2019-to-2024

 Global agrigenomics market is segmented on the basis of process into microarray analysis, sequencing, genotyping, bioinformatics and others. Next generation sequencing techniques has been growing at a stagnant pace owing to growing demand for sequencer possessing ability to sequence large number of samples at a lower cost. The next-generation sequencer is being used a tool for assembly of crop reference genomes, Transcriptome sequencing for the study of gene expression and whole genome molecular maker development. Typical plant breeding programs based on phenotyping and growing awareness among the communities regarding genetic background of agrotraits led to increased demand towards genotype-based selection. Agricultural researchers are increasingly adopting next-generation sequencing technology as an essential research and development tool in plant and animal genomics. Currently Illumina, Thermo Fisher Scientific, Pacific Biosciences, BGI and many other companies are currently providing Next-generation sequencing for agricultural practices. Geographical Presentation By region, the global agrigenomics market is segmented into North America, South America, Europe, Asia-Pacific, Middle-east and America. North America dominate the global agrigenomics market owing high presence of agricultural industries and growing investment by the key manufacturers in agrigenomics. However, Asia-Pacific is expected to grow at a higher pace owing to high presence of research and development institutes and growing initiates by major crop companies for the development of genetically modified crops. Increase in funding from the government organization for plant genome research in agricultural organizations and research institutes is further expected to boost the market during the forecast period. China public funding for agricultural research reached more than USD 10 billion supporting more than 1100 agricultural research institutes.

Also Read: http://www.marketwatch.com/story/planar-solid-oxide-fuel-cell-market-2021-industry-size-share-price-trend-and-forecast-to-2026-2021-01-21

Competitive Analysis This market is predicted to foresee technological advancements in sequencing and gene mutations owing to ongoing research activities and it is expected to boost growth of agrogenomics during the forecast period. Some of the key players in the global agrigenomics market includes LC Sciences, LLC., AgriGenome Labs Pvt. Ltd, and ArrayGen Technologies Pvt. Ltd. Agrigenomics market is witnessing significant investments form venture capitalists into startups. For instance, in March 2019, Spero ventures invested USD 3 million in Gencove, one of the leading player in low-pass genome sequencing platform for the development of new applications for agricultural markets. In January 2015, Affimetrix launched Axiom Porcine Genotyping Assay with more than 600,000 markers in plant and Genome Conference as part of agrigenomics portfolio expansion. Why Purchase the Report?

Also Read: http://www.marketwatch.com/story/digitaling-software-dms-market-by-service-provider-applications-delivery-model-and-regions---world-forecasts-to-2025-2021-01-22

 • Visualize the composition of the global agrigenomics market in terms of various processes and end users highlighting the key commercial assets and players. • Identify commercial opportunities in global agrigenomics market by analyzing trends and co-development deals. • Excel data sheet with thousands of data points of global agrigenomics market - level 4/5 segmentation. • PDF report with the most relevant analysis cogently put together after exhaustive qualitative interviews and in-depth market study. • Product mapping in excel for the key product of all major market players Target Audience • Industry Investors/Investment Bankers • Emerging Companies • Research Laboratories • Manufacturers

ALSO READ: http://www.marketwatch.com/story/power-rental-2021-market-global-industry-sizegrowthtrendsanalysisopportunities-and-forecasts-to-2025-2021-01-20

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Agriculture Soil Sampling and Testing Market: Thriving Research Methodology by  BIS Research

In modern agriculture, soil health plays a pivotal role in determining crop productivity, sustainability, and environmental stewardship. Agriculture Soil Sampling and Testing Market have emerged as essential practices for farmers and agronomists seeking to optimize soil fertility, nutrient management, and crop yields.

Importance of Soil Sampling and Testing

Soil serves as the foundation of agriculture, providing essential nutrients, water, and support for plant growth. However, soil properties can vary significantly within a field, necessitating precise assessment and management strategies. Soil sampling involves systematically collecting soil samples from different locations within a field, while soil testing entails analyzing these samples for key parameters such as pH, nutrient levels, organic matter content, and soil texture. The insights derived from soil testing inform farmers' decisions regarding fertilizer application, irrigation scheduling, and crop selection, enabling them to optimize resource use and enhance productivity while minimizing environmental impact.

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Market Growth Drivers

Several factors are driving the growth of the agriculture soil sampling and testing market:

Increasing Awareness of Soil Health: Growing recognition of the importance of soil health and its impact on crop productivity and sustainability is driving demand for soil testing services. Farmers are becoming increasingly aware of the need to assess and manage soil fertility, pH levels, and nutrient deficiencies to optimize yields and minimize input costs.

Adoption of Precision Agriculture Technologies: The advent of precision agriculture technologies, including GPS-guided soil sampling and variable rate application systems, has bolstered the demand for soil sampling and testing services. These technologies enable farmers to precisely target inputs based on site-specific soil conditions, leading to more efficient resource utilization and improved crop performance.

Regulatory Requirements and Environmental Concerns: Regulatory mandates related to nutrient management, water quality protection, and sustainable agriculture practices are driving the adoption of soil testing services. Government initiatives aimed at promoting soil conservation, reducing nutrient runoff, and mitigating environmental pollution are incentivizing farmers to prioritize soil health and adopt soil testing as a best management practice.

Technological Advancements in Testing Methods: Advancements in soil testing technologies, such as portable soil testing kits, rapid analysis techniques, and digital soil mapping tools, are expanding the capabilities and accessibility of soil testing services. These innovations enable real-time, on-site soil analysis, providing farmers with timely and actionable insights for decision-making.

Market Trends and Opportunities

Several trends are shaping the agriculture soil sampling and testing market:

Digitalization and Data Integration: The integration of soil testing data with digital farm management platforms and agronomic decision support systems is enabling farmers to make data-driven decisions and optimize input use efficiency. Data analytics tools are being leveraged to interpret soil test results, generate nutrient recommendations, and track soil health trends over time, facilitating precision nutrient management strategies.

Expansion of Soil Health Assessment Services: Beyond traditional nutrient analysis, soil testing laboratories are offering comprehensive soil health assessment services that encompass physical, chemical, and biological properties of soil. These holistic assessments provide a more nuanced understanding of soil quality, resilience, and sustainability, empowering farmers to adopt regenerative agriculture practices and improve long-term soil health.

Adoption of Remote Sensing and Geospatial Technologies: Remote sensing techniques, such as satellite imagery and aerial drones, are being integrated with soil sampling and testing practices to enhance spatial mapping and monitoring of soil properties at a landscape scale. Geospatial analysis tools enable farmers to identify soil variability patterns, delineate management zones, and prioritize areas for targeted soil sampling and intervention, optimizing resource allocation and management practices.

Emphasis on Soil Health Education and Outreach: Agricultural extension programs, soil conservation organizations, and industry stakeholders are actively promoting soil health education and outreach initiatives to raise awareness among farmers about the benefits of soil testing and sustainable soil management practices. Training workshops, field demonstrations, and online resources are being deployed to empower farmers with the knowledge and tools needed to assess and improve soil health on their farms.

Future Market Outlook

The Agriculture Soil Sampling and Testing Industry is poised for continued growth and innovation as the importance of soil health in sustainable agriculture becomes increasingly evident. Technological advancements, regulatory pressures, and shifting consumer preferences are expected to drive demand for soil testing services and solutions. By harnessing the power of soil data and adopting evidence-based soil management practices, farmers can enhance productivity, profitability, and environmental stewardship in the years to come.

Airborne Surveillance Market briefing, growth analysis and opportunities outlook 2018 to 2026

Market Overview

Airborne surveillance system aims to provide early airborne unusual activities warning. It consists of antenna, airborne data processor, and integrated navigation system, which are featured to provide high accuracy navigation system. These are responsible for tracking and scanning of required target. They receive signal from transmitting radar, analyze the signal and transmit the signal to the receiving radar and provide navigation of the target.

Major driving factor for the growth of global airborne surveillance market is increasing adoption of unmanned aerial vehicles (UAV) in commercial sector, which has applications in agriculture, government agencies, and other major industries. For instance, according to the Federal Aviation Administration (FAA), around 7 million drones are expected to ship to the U.S. by 2020, which includes sales of around 2.7 million commercial drone by 2020 from 600 thousands in 2016. These drones are available at affordable price and thus creating an opportunity to actively utilize these drones in commercial application. Increasing concern regarding safety and security along with digitization and advanced technologies used in mapping software and high resolution satellite imagery are prominent factors expected to accelerate the growth opportunity of the commercial drones market, which are expected to consequently fuel global airborne surveillance market growth. Drones are experiencing active adoption by agriculture sector. LiDAR, geographic information system (GIS) and high resolution satellite imagery system are highly being used in agriculture sector for crop health monitoring, production of crop measurement, and checking soil condition. Trimble Navigation Ltd. has a strong hold in the agriculture drones market. This company provides Trimble UX5 HP high-precision mapping solution in the agriculture drone market.

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Market Dynamics

The global airborne surveillance market has been segmented on the basis of regions into North America, Europe, Asia Pacific, Latin America, Middle East, and Africa. The market for North America is expected to account for largest share in the global airborne surveillance market. The U.S. is the prominent source for the regional market growth due to the presence of key players including Boeing, BAE Systems and Raytheon. High defense funding, increased focus on minimal troop casualties, minimum financial loss, and increased focus on the development of advanced airborne systems are key factors to have a positive impact in the U.S. market, which in turn is expected to fuel regional market growth. In July 2017, the U.S. Navy sent out proposals to four defense contractors to the General Atomics, Boeing, Lockheed Martin, and Northrop Grumman for modulated reconnaissance requirement while enhancing the proposed unmanned aircraft’s aerial tanking duties. UCAVs with long-ranged striking capabilities are incorporated with Command, Control, Communications, Computers, Intelligence, Surveillance, and Reconnaissance (C4ISR) systems into airborne platforms, which are capable of deploying precision-guided munitions, bombs, and missiles. These factors are expected to drive the growth of the market over the forecast period.

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Major players operating in the global airborne surveillance market include BAE Systems, Boeing, Lockheed Martin Corporation, Raytheon Company, Flir Systems, Israel Aerospace Industries Ltd., L-3 Wescam, Leica Geosystems AG, Leonardo, Northrop Grumman Corporation, and Saab AB.

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SummaryA new market study, titled “ Global Crop Monitoring Devices Market Industry Analysis, Size, Share, Growth, Trends and Forecast 2025 ” has been featured on WiseGuyReports. Global Crop Monitoring Devices Market Overview Crop monitoring devices are based on the internet of things and part of precision farming, these are to be placed in the field for the data collection of various parameters. It includes temperature and precipitation, leaf water potential, and overall crop health. These devices monitor crop growth and any anomalies to effectively prevent diseases or infections that could harm the field. The crop health monitoring devices use a normalized difference vegetation index method to determine the health of the crop through drone and satellite imagery. The ground-based and plant sensors are used to collect the information about soil and water, and weather stations are used to gatherer the appropriate weather data, which allows farmers to see how different the weather patterns affect their water and soil. The crop monitoring software gathers the information from the ground sensor, and they are integrated into one platform, where the data is processed to help farmers make better decisions. The global crop monitoring devices market was worth $XX billion in 2018 and is forecasted to reach $XX billion by 2026, at a CAGR of XX% during the forecast period. Market Drivers: Increase in adoption of crop monitoring devices by farmers in developed nations due to the availability of products and wide awareness among the communities are driving the global crop monitoring devices market during the forecast period. Increased production cost savings from the technology adoption by the framers is additionally driving the market during the forecast period. Increase in demand for food mainly in developed economies, extreme weather conditions, depleting water resources and gradually decreasing land under cultivation are raising need to invent innovative and fruitful methods for crop monitoring and management. According to the study conducted in Cambridge Core in February 2019, the adoption rates of precision agriculture have gradually increased over the last two decades, and the overall adoption rate in united states crossed in 50% of farms. According to a study published in Journal of Agriculture and Resource Economics in 2016, in relative to the total per acre production costs, the estimated savings associated with Yield mapping were recorded as 4.5% and 2.7% with guidance systems. Restraint: Major factors are hindering the global crop monitoring devices market during the forecast period due to the lack of awareness among the communities regarding the availability of the products in developing nations. Market Segmentation Global crop monitoring devices market is segmented by product type and application. Product type includes software & hardware, and accessories, and accessories include displays, receivers, and sensors. The application segment includes weather forecasting, crop management, labour management, and financial management. Crop management dominates the global crop monitoring devices market during the forecast period due to increased utilization by the farmers in developed nations for the crop monitoring from soil mapping to end sales and presence of end products in key players. Increase in development of novel technologies for remote location crop monitoring with increased productivity is additionally contributing to the growth of global crop monitoring devices market during the forecast period. In September 2017, JRC launched new EU-wide crop and weather monitoring e-services across the European Union, worldwide can now view weather and crop conditions in near real-time across the whole of the EU. ALSO READ:https://www.einpresswire.com/article/502015260/crop-monitoring-devices-market-2019-global-trends-share-growth-analysis-opportunities-and-forecast-to-2026  Global Crop Monitoring Devices Market – Geographical Analysis The global crop monitoring devices market is segmented into North America, Europe, Asia Pacific, South America, and Middle East & Africa. North America dominates the global crop monitoring devices market during the forecast period due to increase in the presence of key players across the region, increased awareness and spending by the farmers in the automation of farms. Increase in the implementation of precision agriculture and digitalization of farms by farmers for monitoring and management across the region are additionally contributing to the North America crop monitoring devices market during the forecast period. According to the survey conducted by researchers at the University of Guelph in 2017 states that 96% of respondents in Ontario used precision agriculture in some form within their business. The adoption rate of chlorophyll sensors were recorded at 39% in 2017 and estimated to reach 50% by 2020. Global Crop Monitoring Devices Market – Competitive Analysis New product launches with the advanced technologies to improve the accuracy and performance, and acquisition with the regional expansion of the business to meet the regional market demand are the key strategies adopted by the prominent players in the global crop monitoring devices market. In June 2018, Libelium launched a new version of its smart agriculture sensor node for improving accuracy for crop monitoring. In October 2016, SGS Investments launched precision agriculture in Brazil after the acquisition of a 75% stake in UNIGEO. Major market players in the crop monitoring devices market are John Deere, AGCO Farming, Raven Applied Technology, Agrisource Data, Johnson Healthtech, Pessl Instruments, Mouser Technologies, Topcon Positioning, AG Junction Corporation, and Taranis. Target Audience: • Equipment Suppliers/ Buyers • Service Providers/ Buyers • Industry Investors/Investment Bankers • Education & Research Institutes • Research Professionals • Emerging Companies • ManufacturersFOR MORE DETAILS:https://www.wiseguyreports.com/reports/4064205-global-crop-monitoring-devices-market-2019-2026  About Us:Wise Guy Reports is part of the Wise Guy Research Consultants Pvt. Ltd. and offers premium progressivestatistical surveying, market research reports, analysis & forecast data for industries and governmentsaround the globe. Contact Us:NORAH TRENT                                                      [email protected]       Ph: +162-825-80070 (US)                          Ph: +44 203 500 2763 (UK)

Global Crop Monitoring Devices Market - Global Demand, Sales, Consumption and Forecasts 2019-2026

Summary - A new market study, titled “ Global Crop Monitoring Devices Market - Global Demand, Sales, Consumption and Forecasts 2019-2026 ” has been featured on WiseGuyReports

 Global Crop Monitoring Devices Market Overview

Crop monitoring devices are based on the internet of things and part of precision farming, these are to be placed in the field for the data collection of various parameters. It includes temperature and precipitation, leaf water potential, and overall crop health. These devices monitor crop growth and any anomalies to effectively prevent diseases or infections that could harm the field. The crop health monitoring devices use a normalized difference vegetation index method to determine the health of the crop through drone and satellite imagery. The ground-based and plant sensors are used to collect the information about soil and water, and weather stations are used to gatherer the appropriate weather data, which allows farmers to see how different the weather patterns affect their water and soil. The crop monitoring software gathers the information from the ground sensor, and they are integrated into one platform, where the data is processed to help farmers make better decisions. The global crop monitoring devices market was worth $XX billion in 2018 and is forecasted to reach $XX billion by 2026, at a CAGR of XX% during the forecast period.

Market Drivers:

Increase in adoption of crop monitoring devices by farmers in developed nations due to the availability of products and wide awareness among the communities are driving the global crop monitoring devices market during the forecast period. Increased production cost savings from the technology adoption by the framers is additionally driving the market during the forecast period. Increase in demand for food mainly in developed economies, extreme weather conditions, depleting water resources and gradually decreasing land under cultivation are raising need to invent innovative and fruitful methods for crop monitoring and management. According to the study conducted in Cambridge Core in February 2019, the adoption rates of precision agriculture have gradually increased over the last two decades, and the overall adoption rate in united states crossed in 50% of farms. According to a study published in Journal of Agriculture and Resource Economics in 2016, in relative to the total per acre production costs, the estimated savings associated with Yield mapping were recorded as 4.5% and 2.7% with guidance systems. Restraint: Major factors are hindering the global crop monitoring devices market during the forecast period due to the lack of awareness among the communities regarding the availability of the products in developing nations.

 ALSO READ: https://www.einpresswire.com/article/502015260/crop-monitoring-devices-market-2019-global-trends-share-growth-analysis-opportunities-and-forecast-to-2026

  Market Segmentation

Global crop monitoring devices market is segmented by product type and application. Product type includes software & hardware, and accessories, and accessories include displays, receivers, and sensors. The application segment includes weather forecasting, crop management, labour management, and financial management. Crop management dominates the global crop monitoring devices market during the forecast period due to increased utilization by the farmers in developed nations for the crop monitoring from soil mapping to end sales and presence of end products in key players. Increase in development of novel technologies for remote location crop monitoring with increased productivity is additionally contributing to the growth of global crop monitoring devices market during the forecast period. In September 2017, JRC launched new EU-wide crop and weather monitoring e-services across the European Union, worldwide can now view weather and crop conditions in near real-time across the whole of the EU.

Global Crop Monitoring Devices Market – Geographical Analysis

The global crop monitoring devices market is segmented into North America, Europe, Asia Pacific, South America, and Middle East & Africa. North America dominates the global crop monitoring devices market during the forecast period due to increase in the presence of key players across the region, increased awareness and spending by the farmers in the automation of farms. Increase in the implementation of precision agriculture and digitalization of farms by farmers for monitoring and management across the region are additionally contributing to the North America crop monitoring devices market during the forecast period. According to the survey conducted by researchers at the University of Guelph in 2017 states that 96% of respondents in Ontario used precision agriculture in some form within their business. The adoption rate of chlorophyll sensors were recorded at 39% in 2017 and estimated to reach 50% by 2020.

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COVID-19: Responding to the Business Impacts of North America Precision Agriculture Market 2020 - Size, Share, Trends, Growth, Forecast 2025

According to a new report by EMR, the north america precision agriculture market size expected to grow at a CAGR of 11% between 2020 and 2025.

Competitive Landscape & Supplier Analysis:

AGCO Corporation (NYSE: AGCO)

Deere & Company (NYSE: DE)

Raven Industries, Inc. (NASDAQ: RAVN)

Trimble Inc. (NASDAQ: TRMB)

AgJunction, Inc.(OTCMKTS: DATI)

Others

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Note: For a snapshot of the primary and secondary data of the market (2015-2025), along with business strategies and detailed market segmentation, please click on request sample report. The sample report shall be delivered to you within 24 hours.

North America Precision Agriculture Market by Technology:

GNSS/GPS Systems

GIS

Remote Sensing

Variable Rate Technology (VRT)

Others

The North America precision agriculture market is divided on the basis of technology into GNSS/GPS Systems, GIS, Remote Sensing, Variable Rate Technology (VRT), Others.

North America Precision Agriculture Market by Type:

Automation and Control Systems

Sensing and Monitoring Devices

Farm Management Systems

On the basis of type, the industry is categorised into Automation and Control Systems, Sensing and Monitoring Devices, Farm Management Systems.

North America Precision Agriculture Market by Component:

Hardware

Software

On the basis of component, the industry is bifurcated into Hardware, Software.

North America Precision Agriculture Market by Application:

Mapping

Crop Scouting

Yield Monitoring

Soil Monitoring

Precision Irrigation

Others

On the basis of application, the industry is divided into Mapping, Crop Scouting, Yield Monitoring, Soil Monitoring, Precision Irrigation, Others.

North America Precision Agriculture Market by Country:

United States

Canada

The report also covers the regional markets of the technology like the United States and Canada.

Browse full report with detailed TOC and list of figures and tables: https://www.expertmarketresearch.com/reports/north-america-precision-agriculture-market

Also Read: Impact of COVID-19 on Global Industry

Impact of COVID-19 on Global Sprinkler Irrigation Systems Market: https://www.expertmarketresearch.com/reports/sprinkler-irrigation-systems-market-report

Impact of COVID-19 on Global Oilseeds Market: https://www.expertmarketresearch.com/reports/oilseeds-market

Note: As the novel coronavirus (COVID-19) continues to spread across the world, our analysts are constantly tracking the impact of this rapidly evolving situation on the markets and the consumer purchase behaviours. Thus, our latest estimates and analysis about the current market trends and forecast will exhaustively reflect the effects of this emerging pandemic.

About Us:

Expert Market Research is a leading business intelligence firm, providing custom and syndicated market reports along with consultancy services for our clients We serve a wide client base ranging from Fortune 1000 companies to small and medium enterprises Our reports cover over 100 industries across established and emerging markets researched by our skilled analysts who track the latest economic, demographic, trade and market data globally

At EMR, we tailor our approach according to our clients’ needs and preferences, providing them with valuable, actionable and up-to-date insights into the market, thus, helping them realize their optimum growth potential We offer market intelligence across a range of industry verticals which include Pharmaceuticals, Food and Beverage, Technology, Retail, Chemical and Materials, Energy and Mining, Packaging and Agriculture

We also provide state-of-the-art procurement intelligence through our platform, www.procurementresource.com Procurement Resource is a leading platform for digital procurement solutions, offering daily price tracking, market intelligence, supply chain intelligence, procurement analytics, and category insights through our thoroughly researched and infallible market reports, production cost reports, price analysis, and benchmarking.

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Illustration Photo: Nelder plot experiment. Yangambi Engagement Landscape 2021. DR Congo (credits: Fiston Wasanga / CIFOR / Flickr Creative Commons Attribution-NonCommercial-NoDerivs 2.0 Generic (CC BY-NC-ND 2.0))

Foster adoption of Agribased Digital Technologies in West Africa

AGriDI will provide competitive grants to enhance the capacities of key stakeholders in diverse areas of digital technologies and agro-ecological systems, and strengthen synergies with the private sector, civil society, and other community-based organisations. The grants support the development of tangible digital solutions that address real challenges for farmers and agribusinesses, especially among women and youth, thereby increasing opportunities for jobs and income in the region.

Total funding of up to EUR 2.7 million is available for competitive grants. Each grant is implemented for a period of up to two (2) years from the time it is awarded to successful applicants.

Funds are allocated in three grant categories as follows:

Category 1: Digital Innovations for agricultural productivity enhancement

Purpose of grant

To support co-development and adaptation of innovative digital solutions for improving agricultural productivity.

Key outcome

Enhanced agricultural productivity using digital innovative solutions.

Eligible applicants

i. Universities or Research institutions (Target group: Scientists or researchers)

ii.Technology hubs, innovation hubs, and technology transfer offices (Target group: Innovators)

Grant amount per project

Min. EUR 150,000 and Max. EUR 300,000

Beneficiaries

i. Private sector (proprietors of small and medium enterprises/businesses - SMEs) especially women and youth.

ii. Farmer cooperatives

Area (s) of focus

Digital solutions for solving agricultural production bottlenecks:

i. Animal /Crop protection e.g. management of pests and diseases of national and regional importance.

ii. Geo information tools such as for mapping soils and agro-ecological conditions

iii. Weather and climate information including to support crop insurance solutions

iv. Other relevant applications supporting increasing national agricultural productivity.

Type of activities

i. Co-creation (design, testing and adapting with end users) of digital technologies for example; participatory identification of innovative and viable agri-based digital technologies to be developed, tested and/or adapted.

ii. Applied research in the use of identified agribased digital technologies. This may include refining technical concepts on digital solutions and compiling lessons from the project that may inform the review and design of university curriculum to enhance digital literacy.

iii. Skills enhancement especially in technical areas such as use of artificial intelligence, coding techniques, robotics, and big data analytics.

iv. Other relevant activities

Category 2: Digital Innovations for market linkages

Purpose of grant

To support digital innovations for establishing market linkages for farmer’s produce.

Key outcome

Increased uptake of agri-based digital technologies by farmers and SMEs especially women and youth in Western Africa.

Eligible applicants

i. Legally registered private companies, especially small and medium enterprises – SMEs in ICTs, agriculture, among others (Target group: Business owners and proprietors of SMEs)

ii. Legally registered farmer cooperatives or farmer groups (Target group: Farmer groups)

Grant amount per project

Min. EUR 150,000 and Max. EUR 222,500

Beneficiaries

Farmers and agroprocessors especially women and youth.

Area (s) of focus

Digital solutions to enhance effective market linkages.

Type of activities

i. Developing and testing business models (in an inclusive way) for farm produce and value-added products aided by innovative agri-based digital technologies. (Business incubators or business advisors will be instrumental in guiding the process of developing inclusive business models.)

ii. Part of the activities may include a techno-economic analysis of the digital technologies with potential for use as tools for creating market links.

iii. Developing online platforms for accessing agri-inputs and other critical information on markets for farm produce and value-added products. These platforms may incorporate aspects of adult learning to increase digital literacy.

iv. Other relevant activities.

Category 3: Policies for digital innovation

Purpose of grant

To support development of policies for digital innovation.

Key outcome

Strengthened policy environment for scaling agri-business digital innovations in Western Africa.

Eligible applicants

Government ministries, departments, and agencies/commissions responsible for ICTs, science, technology, and innovation policy relevant for promoting digital innovations for agriculture. (Target group: Policy makers)

Grant amount per project

Min. EUR 150,000 and Max. EUR 160,000

Beneficiaries

Universities, research institutes, SMEs in ICTs and agriculture, technology and innovation hubs, farmer cooperatives, agroprocessors (especially women and youth), among others.

Area (s) of focus

Policy analyses and development such as analysing and designing incentives for digital innovations, intellectual property, cyber security, data management and privacy issues, among others leading to improved policies.

Type of activities

i. Policy dialogues at institutional, national, and regional levels. The policy dialogues may be based in the country studies conducted by applicants in this category. The dialogues may also be used to validate study findings and agree on how the findings may be used to inform the revision or design of policies.

ii. Capacity strengthening for technology transfer professionals within universities and research institutes. This may involve design and preparation of tailored courses or training workshops on how to package scientific information or technologies and share these with policy makers and development practitioners.

iii. Policy analyses of topical issues on digital technologies and innovation iv. Other relevant activities

Application Deadline: June 30,2021

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Agriculture Market Growth Factors, Applications, Regional Analysis and Forecasts by 2023

JUNE 08, 2020: The global Precision Farming market size is anticipated to reach USD 10.23 billion by 2025, according to a new report by Grand View Research, Inc. It is expected to register a CAGR of 14.2% over the forecast period. Precision farming, also known as site-specific crop management or satellite farming, is a farm management concept that uses information technology to ensure optimum health and productivity of crops. The precision farming technique largely depends on specialized equipment such as sensing devices, antennas and access points, and automation and control system. It also involves maintenance services and managed services. Additionally, it incorporates a broad range of technologies such as bio-engineering, robotics and automation, imagery and sensors, and big data.

Growing number of applications for telematics in agriculture is anticipated to drive the demand for precision farming over the projected period. Telematics services include tracking devices using Global Navigation Satellite System (GNSS) to show the position of the equipment for management purposes. Major manufacturers of agriculture equipment are adopting telematics services for their equipment to improve farm efficiency, thereby reducing the cost of agricultural operations and maximizing profitability. Additionally, improved management can help reduce environmental impact.

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Telematics technology is used to capture and transfer data from the farm equipment through sensors installed on tractors and other field monitoring equipment. The increasing adoption of telematics systems by agricultural equipment companies is expected to drive growth of the precision farming market.

 With advancements in GPS guidance and automation, drones are poised to transform the agriculture industry. The ability of drones to precisely analyze the soil at the beginning of the crop cycle and detect a plant infected with bacteria or fungus is anticipated to lead to the growth of the drone segment.

The Connected Farm application of Trimble Inc. uses cellular and wireless technology to share records from field images for crop scouting reports. Additionally, the company’s Farm Works software is used to manage the data transferred from farm equipment. On the other hand, Raven Industries, Inc. provides a telematics service called Slingshot. The service uses cellphone networks to enable data transfer as well as offer real-time kinematic GPS signals and technical support in the farm field. It also enables users to track the location of their vehicle.

However, the low rate of technology adoption among farmers is likely to hamper the market growth over the forecast period. This may be due to factors such as absence of stringent standards and limitations on the exchange of data. Furthermore, farmers lack independent consulting and advisory services owing to the absence of validated agronomic models for Variable Rate Technology (VRT) to make decisions on investments. In addition, independent services are not linked to co-operatives, government bodies, and farmer’s associations where farmers can get additional information to make improved decisions.

Further key findings from the report suggest:

• Increasing government support for adopting modern agricultural techniques and growing need for efficiently monitoring the health of crops are expected to drive the market

• Services segment is expected to portray a significant CAGR CAGR of 16.0% during the forecast period

• Cloud-based software model is anticipated to gain significant market share over the projected period as it reduces energy consumption and provides storage for large amount of data while facilitating cost saving

• Innovations in GPS mapping and related farming applications are enabling farmers to operate more efficiently and increase their profit margins

• Demand for drones is expected to grow in the agriculture field as they are increasingly used in monitoring irrigation systems

• Yield monitoring finds wide applications in soil monitoring as it helps detect the properties of soil for increasing yields

 • Digital revolution in the agricultural sector, along with government financial incentives to farms, is likely to drive demand in the Europe precision farming market in the forthcoming years

• Asia Pacific is expected to witness the fastest growth owing to the availability of the largest agricultural land, which provides growth opportunities in countries such as China, India, Australia, and Japan

• Key market players include Agribotix LLC (U.S.); Deere & Company (U.S.); SST Development Group, Inc. (U.S.); Farmers Edge, Inc. (Canada); and Granular, Inc. (U.S.)

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Table of Contents

Chapter 1. Methodology and Scope

1.1. Research Methodology

1.2. Research Scope & Assumptions

1.3. List of Data Sources

Chapter 2. Executive Summary

2.1. Precision Farming - Industry Snapshot & Key Buying Criteria, 2014 - 2025

Chapter 3. Industry Outlook

3.1. Market Segmentation & Scope

3.2. Precision Farming Market Size and Growth Prospects

3.3. Precision Farming - Value Chain Analysis

3.4. Market Dynamics

3.4.1. Market driver analysis

3.4.1.1. Growing awareness of precision farming

3.4.1.2. Challenges involved in agricultural work

3.4.1.3. Growing awareness of the benefits of agriculture drones

3.4.1.4. Growing government support for the adoption of modern agricultural methods

3.4.2. Market restraint analysis

3.4.2.1. High initial capital investment

3.4.3. Market challenge analysis

3.4.3.1. Scarcity of trained farmers

3.4.3.2. Lack of technology adoption among farmers

3.4.4. Market opportunity analysis

3.4.4.1. Growing application of telematics in agriculture

3.5. Key Opportunities - Prioritized

3.6. Precision Farming- Key Company Analysis, 2015

3.6.1. Key company analysis, 2015

3.6.2. Precision farming key start-up analysis

3.7. Industry Analysis - Porter’s

3.8. Precision Farming- PEST Analysis

Chapter 4. Precision Farming Market: Offering Estimates & Trend Analysis

4.1. Precision Farming Market: Offering Analysis

4.1.1. Hardware market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1. Automation and control systems market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.1. Drones market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.2. Application control devices market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.3. Guidance system market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.3.1. GPS market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.3.2. GIS market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.4. Remote sensing market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.4.1. Handheld market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.4.2. Satellite sensing market estimates and forecasts, 2014 - 2025 (USD Million)

4.1.1.1.5. Driverless tractors market estimates and forecasts, 2014 - 2025 (USD Million)

Continued………

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The robots weeding organic farms and patrolling for greenhouse pests

Robots that use artificial intelligence to recognise the health of fruit and vegetable crops and when they’re ready to harvest are being trialled to help small, organic and greenhouse farmers with weeding and patrolling for pests.

These robots can take on arduous tasks and help farmers save time. By spotting disease or pests early on, they can help cut down on the use of pesticides and reduce plant losses.

In Europe, land for agriculture is shrinking in part because of urbanisation. Meanwhile, there is a need for greener and more sustainable food production that uses fewer agrichemicals, which are costly and can pollute waterways. Alternatives to industrial monocrop farming include small and organic farms, market gardens – which sell produce directly to consumers or restaurants – as well as commercial greenhouses.

But small farmers struggle with back-breaking manual work. And the machinery companies that make the expensive machines for large farms to sow and harvest single crops have traditionally ignored the needs of smaller growers.

Researchers, however, are now figuring out ways to help small farmers be more productive and profitable in the long term.

Farm helper robot

‘Micro-farms are profitable and economically sustainable, but growers often struggle after around four years, as people develop back problems,’ said Jonathan Minchin at the Institute for Advanced Architecture of Catalonia in Barcelona, Spain, who leads a project called ROMI which built a farm helper robot.

The roving wheeled ‘ROMI’ has one arm for weeding small vegetable farms. Organic farmers spend about one-fifth of their time weeding, says Minchin, so developing a robot that could relieve people of this task was a key aim.

‘This robot is made for small farms, not big farms. There is a huge need for this type of tool,’ said Dr Christophe Godin who is a research director in plant modelling and computer science at Inria (the French National Institute for Research in Digital Science and Technology), who is also involved in the project.

To benefit small farmers, the robot had to be inexpensive and lightweight. ROMI’s developers worked to keep its costs down by fitting it with off-the-shelf electric wheelchair motors and relying on open source hardware and software for AI and navigation, for instance. Once available, it should cost €5,000 or less.

The ROMI robot has an arm for weeding on small vegetable farms. Image credit – Sony computer science laboratories

Computational agriculture

Right now, a ROMI robot is being put through its paces to weed and navigate an organic farm in a forest outside Barcelona. A sister robot is weeding on a commercial organic farm called Pépinières Chatelain close to Paris Charles De Gaulle Airport.

As market gardens and small farms grow a mix of crops, Minchin says ‘computational agriculture’ will allow robots to manage a complex variety of vegetable and fruit crops, growing at different rates and to different heights.

Scientists in the project use lots of imaging and mapping data with AI to identify and model plants.

Dr Godin and computer scientist Dr Peter Hanappe, at the Sony Computer Science Laboratories in Paris, are working with the weeding robot in France. It has visual software that lets it capture 2D images.

Once it takes a picture it must then interpret ‘this soup of pixels’, says Dr Godin.

These images are used to create 3D computer models that the robot then uses to better understand or manipulate its environment. They want to teach the robot to understand what is a leaf, a stem, a fruit and so on.

Dr Godin wants to improve the computer image analysis so that plant scientists can use the data collected by the robot to study crop varieties in growth experiments. The 3D plant models may also be used for programming robots in precise fruit picking or to breed better crops in the future. It may also allow the scientists – and ultimately farmers – to track the health and growth of crops.

In the future, a ROMI could see lettuce start to shoot up and know when it’s time to harvest, says Minchin. Or the technology could allow a new generation of farm robots to identify and pick fruit or vegetables when they are ripe.

‘Micro-farms are profitable and economically sustainable, but growers often struggle after around four years, as people develop back problems.’

Jonathan Minchin, Institute for Advanced Architecture of Catalonia, Spain

Greenhouse

For farmers growing a mix of vegetables and fruit, another option is a greenhouse, which protects against inclement weather and disease.

‘Greenhouses are ideal places to cultivate plants, but the main drawback is once pests manage to get in, they reproduce very fast,’ said María Campo-Cossío Gutiérrez at the Centro Tecnológico CTC in Spain, who leads a project called GreenPatrol. Once a pest or disease gets inside a greenhouse, it can inflict losses of up to 25% on growers.

Campo-Cossío Gutiérrez and her team developed a prototype of a smart roving robot to patrol greenhouses and pinpoint and identify when pests or diseases are present. The robot can operate autonomously, without human intervention.

The robot was trained on the main pest and diseases of tomato and pepper, as those are the highest value crops, and is being tested in greenhouses in northern Spain. Farmers can access an online application to see the robot’s status and a map of healthy and infected zones with recommended actions.

‘One of the main challenges is that the robot is in a (semi-) indoor environment,’ she said.

If it were outside, it could use satellite navigation, but greenhouses have roofs with metal reinforcements, which degrade signals.

Another challenge is that greenhouses change regularly as the crop grows, but also after harvests, when growing materials such as soil are removed. Because of this, robots cannot be programmed to follow defined routes.

‘We needed the robot to identity where pests are located and then come back and treat them in a second phase,’ said Campo-Cossío Gutiérrez. With the farmer’s instruction, the robot has the ability to spray the plant with pesticide.

The GreenPatrol robot uses novel algorithms which allows it to successfully exploit stronger signals from the Galileo global navigation satellites as well as orientation sensors and lasers to help guide its manoeuvres under the greenhouse roof. It can obtain a position inside the greenhouse with an accuracy better than 30cm.

The robot uses AI and image libraries to spot pest invaders and also harmless insects. ‘It is able to distinguish the degree of infestation and tell if it is an egg, or a larva, or full adult insect,’ said Campo-Cossío Gutiérrez.

It can then send growers real-time heat map updates of insect infestations to their smartphones.

Flying companion

Rover bots are not the only solution for growers. The ROMI project has also developed a flying companion for its rover – a drone that can scrutinise the plants from the air. ROMI scientists also constructed a cable bot to glide across crops and perform a similar job.

The ROMI team ultimately envisage their design not as a single weeding robot, but as platform to which farmers can attach sensors, cameras and tools and then take them off again.

‘You can imagine a farmer getting up in the morning and going to the tool shed. Putting tools onto the robot and turning it on,’ said Minchin.

This robot might then set about weeding or scanning for pests. If the farmer wishes to view the information, they could look at their phones or later that day on a computer back at home.

The research in this article was funded by the EU. If you liked this article, please consider sharing it on social media.

source https://horizon.scienceblog.com/1260/the-robots-weeding-organic-farms-and-patrolling-for-greenhouse-pests/

Revolutionizing the Agriculture Industry With Mobile Applications

The agriculture industry deals with many daily operations ranging from farmland, equipment, seeds, fertilizers, harvesting, production, and crop maintenance. Farming is one traditional sphere that needs revolutionary latest technologies for modernization. The agriculture industry realizes the need to introduce tech-oriented innovation for providing value to its farmers. Enhanced mobility, transfer of various data realms, and an increase in IoT connected devices have compelled farming companies to adopt the benefits of mobile app development.

Farmers are slowly getting used to managing processes through advanced technologies. These functions majorly include land management, crop quality, horticulture, weather forecasting, soil quality, and fertilizer utilization. With several next-gen technologies like AI, AR/VR, Blockchain coming on the market front, mobile apps can significantly influence farmers by enabling the operational ease and accessibility.

How Smartphone Apps Benefit Agricultural Farmers

Demand for food is an endless challenge that needs addressing in the most sophisticated way. Mobile apps can enhance agricultural productivity and connect farmers with others in an intelligent manner. According to the Statista estimate, smart agriculture is expected to reach around 27 billion USD market value by 2020.

Weather Forecasting

Predicting the weather is an essential component of agricultural farmers as it helps them make better decisions to secure their crops. Some technologies are also able to develop features like analyzing crop diseases. Farmers can also consult specialists and experts and get the necessary treatment for sick or ill crops. A mobile app can quickly solve these challenges by video calling them anytime they want from any place. By using AI and ML, these apps can also detect the diseased crops, diagnose, process, and transmit images to the laboratories.

Mobile technologies also enable brightness analysis that helps in estimating the amount of light plants intercept. It also helps in analyzing the radiation levels by calculating the position of solar radiation based on real-time GPS data.

Transparency and Traceability

Food safety is a significant issue that needs proper redressal by streamlining the supply chain and removing inadequate processes. It is crucial to ensure that production and supply processes work in ideal conditions from the farm to market. For simplifying such processes, blockchain development services enable in tracing the exact sources from where the food comes. Plus, it also becomes possible to determine where the food harvests, processes, and produces. It helps in removing frauds related to false labels and intermediaries. It can even eliminate the need for trust between the transactions with other businesses before transacting with them.

Crop Information

Crop information revolves around soil study, water management, and if they are ready to be harvested/produced. Mobile apps can fetch soil data from various resources that can result in bringing precision to farming activities. It includes analyzing the color of soil, ph level, presence of carbon in soil, climate, and elevation based on the geographical locations. Apart from that, it can also help in analyzing the quality of water, its level, clarity, obstructions in the river path, temperature, and algae covering before it reaches the crops.

Such analysis techniques help in calculating the water required by crops depending on conditions like types of plant, climate changes, seasons, and different stages of growth. Estimating the water requirements enables farmers to supplement water loss so that they can grow them according to themselves. Crop ripeness and readiness for produce is another crucial parameter. Mobile apps can use sensor technology by integrating the UV-A light system and determining their maturity. Computer vision can make it easier by separating fruits according to their levels of readiness before they go to the market.

Farm and Land Management

Farm management includes identifying any looming diseases, preventing them, application of pesticides, and fertilizers, as some of the vital processes. Smartphone applications can enable farmers to manage all these resources efficiently and eventually increase productivity. The most significant advantage farmers avail through mobile apps is that they can record each piece of land data anywhere from their phones. It eliminates the need to keep paper-based records and reports of used fertilizers and pesticides, locations used, types of weeds and diseases, among others.

It enables them to easily record field data and manage resources by maintaining a digital farm journal. Moreover, it also lets them aggregate the geo-data of cultivable land areas that can be immensely helpful to monitor the purpose and make accurate decisions. With speech and image recognition, these processes can collect accurate geographical information for further analysis.

Solutions Offered by 9series to Help Farmers Enhance their Decision-Making Abilities.

9series aims at providing and developing the solutions that enable farmers to simplify their daily processes like crop management, machinery management, storage, logistics, and surveillance. Our professional solutions allow them to take full authority of their crops and farming practices. We offer various innovative management solutions starting from managing machinery, farm mapping, managing livestock, sensing the soil quality, and logistics. Our advanced cropping system delivers details of each crop, fertilizer, pesticide, and warehouse with integrated ML algorithms.

We also offer dynamic multiple farm management where agriculture companies can access all of their farms from a single platform. These solutions range from managing cultivation, products, and purchase management, which help in bringing a smoothness in productivity. Our solutions also help in estimating the exact quantity of the crops produced, managing purchases related to seeds, crop medicines, fertilizers, and generating customized storage reports.

For the surveillance and delivery of products to the market, we also enable 3D mapping of the crops growing on the farms. With sensors, you can quickly get notifications of any damages and health conditions of the plants on a real-time basis. Our experiences speak for itself in developing CRM, ERP, and portal development for agriculture companies to automate each farming activity and boost overall efficiency.

Article Source: – https://www.9spl.com/blog/revolutionizing-agriculture-industry-mobile-applications/