Global IoT in Agriculture Market - 1-3 USERS:2022

Market Report Coverage :
Start Year : 2021 - Forecast Year : 2026 - Start Value : $21.99 Billion in 2021 - Forecast Value : $35.55 Billion by 2026 - CAGR % : 0.1%
Description :
Market Report Coverage - IoT in AgricultureMarket Segmentation• Application - Precision Crop Farming, Livestock Monitoring and Management, Indoor Farming, Aquaculture, and Others• System Type - Sensing, Communication, Cloud Computing, and Data Management SystemRegional Segmentation• North America - U.S., Canada, and Mexico• South America - Argentina, Brazil, and Rest-of-South America• Europe - Germany, U.K., France, Italy, Netherlands, Spain, Denmark, and Rest-of-Europe• Middle East and Africa • Asia-Pacific and Japan - India, Japan, China, Australia and New Zealand, Vietnam, Malaysia, Indonesia, and Rest-of-Asia-PacificMarket Growth Drivers• Increasing Demand for Global Food Production• Surging Use of Advanced Technologies in Agriculture• Emerging Complexities in Data-Driven Farming• Decreasing Workforce in Agricultural SectorMarket Challenges• Lack of Proper Internet and Network Connectivity• Cyber and Online Data Security• Huge Setup and Subscription Costs• Reluctance to Adopt and Lack of Technical AwarenessMarket Opportunities• Growing Trend of Agriculture Service Economy• Increasing Investments in Agricultural Technology Sector• Increasing Market Opportunities in Developing Countries• Favorable Government Initiatives to Support IoT in AgricultureKey Companies ProfiledDEERE & COMPANY, Microsoft Corporation, CNH Industrial NV, Robert Bosch GmbH, Agrivi, The Climate Corporation, Granular Inc., Harvest Croo Robotics, LLC, AeroFarms, OSRAM GmbH, AmHydro, Kalera, Heliospectra AB, Signify Holding (Koninklijke Philips N.V.), Connecterra B.V., DeLaval, Allflex USA Inc., Boumatic LLC, Aquabyte, Inc., AKVA Group ASA, Eruvaka TechnologiesHow This Report Can Add ValueThis report will help with the following objectives:• Covers major regions associated with the IoT in agriculture market.• Extensive competitive benchmarking of the top 21 players has been done to offer a holistic view of the global IoT in agriculture market landscape.Product/Innovation Strategy: The system segment helps the reader in understanding the different types of systems for the agriculture industry and their potential globally. Moreover, the study provides the reader a detailed understanding of the operation of different system categories (i.e., sensing, communication, cloud computing, data management system, etc.). These solutions enable seamless crop management, especially in large-scale commercialized farms.Recent Developments in IoT in Agriculture Market• In June 2021, Bosch and BASF partnered to expand business in smart farming technologies.• In July 2021, John Deere and Ericson, Brazil partnered to provide mobile IoT solutions in the agricultural sector.• In August 2021, John Deere acquired Bear Flag Robotics for technology service solutions.Key Questions Answered in the Report• What is the estimated global IoT in agriculture market size in terms of revenue for the forecast period 2021-2026, and what is the expected compound annual growth rate (CAGR) during the forecast period 2021-2026?• What are the key trends, market drivers, and opportunities in the market pertaining to IoT in agriculture?• What are the major restraints inhibiting the growth of the global IoT in agriculture market?• What kinds of new strategies are being adopted by the existing market players to expand their market position in the industry?• What is the competitive strength of the key players in the IoT in agriculture market based on an analysis of their recent developments, product offerings, and regional presence?• How is the competitive benchmarking of the key IoT in agriculture and equipment companies in the agriculture market based on the analysis of their market coverage and market potential?• How much revenue each of the segments is expected to record during the forecast period along with the growth percentage? Following are the segments: o Systems including sensing, communication, cloud computing, data management system o Application, including precision crop farming, livestock monitoring and management, indoor farming, aquaculture, others• Which type of players and stakeholders are operating in the market ecosystem of IoT in agriculture and equipment, and what is their significance in the global market?• Which are the leading consortiums and associations in the global IoT in agriculture market, and what are their roles in the market?• How does the regulatory landscape differ in different regions for IoT in agriculture and equipment?IoT in AgricultureInternet of Things (IoT) is a term which refers to the connection of devices to the internet that allows the generation and transfer of massive amounts of data. IoT creates a virtuous cycle that can generate even more precise and tailored products, pushing the boundaries, which helps in digitalization for agriculture.IoT enables devices entrenched with sensors to connect and interact with each other by using the internet. In the agriculture sector, various devices can be remotely monitored and controlled in real-time, including anything from sheds, tractors, pumps, and weather stations, and computers.IoT enables one to monitor farm conditions and infrastructure remotely which helps reduce time on field, labor efforts, and investment capital among others allowing the farmers to focus on other things.IoT in Agriculture Industry Overview The global IoT in agriculture market was valued at $21.99 billion in 2021, which is expected to grow with a CAGR of 10.1% and reach $35.55 billion by 2026. With the recent advancements in the industry, a transformation is expected to be witnessed as more and more companies are enhancing their product portfolio by introducing data acquisition, agricultural robotics, and analytic services.Impact of COVID-19The COVID-19 pandemic has had a significant impact on almost all major industries throughout the world, including the agricultural industry. The pandemic has led to economic instability throughout the world, and the GDP for all countries declined in 2020. The pandemic’s potential impact on the adoption of the Internet of Things (IoT) has increased the traction of sensing technology in the agricultural sector.Market SegmentationIoT in Agriculture Market by System TypeThe IoT in agriculture market (by systems) was dominated by sensing systems which generated a revenue of $6.72 billion in 2021. Sensor technology constitutes one of the most crucial parts of the development of IoT solutions.These sensor developments aid in the measurement of various production factors such as soil moisture, nutrients in the soil, weed density, and solar radiation.IoT in Agriculture Market by ApplicationThe IoT in agriculture market (by application) was dominated by the precision crop farming application area, which generated a revenue of $8.60 billion in 2021. The gradual adoption of smartphones, access to high-speed internet, availability of affordable and reliable satellites for positioning and imagery, and technological advancements in farming equipment have led to the high prevalence and popularity of precision crop farming techniques and equipment.IoT in Agriculture Market by RegionNorth America was estimated to hold the highest share of about 35.7% in 2021, thereby accounting for a value of $7.84 billion in the same year. The highest contributing country in the North America IoT in agriculture market is the U.S. due to the prevalence of advanced technology and its implications in the farming sector to increase production.Key Market Players and Competition SynopsisKey players operating in the global IoT in agriculture market analyzed and profiled in the study involve companies that provide the required technology for deployment in the agriculture industry. Moreover, a detailed competitive benchmarking of the players operating in the global IoT in agriculture market has been done to help the reader understand how players stack against each other, presenting a clear market landscape.Some of the key players operating in the market include DEERE & COMPANY, Microsoft Corporation, CNH Industrial NV, Robert Bosch GmbH, Agrivi, The Climate Corporation, Granular Inc., Harvest Croo Robotics, LLC, AeroFarms, OSRAM GmbH, AmHydro, Kalera, Heliospectra AB, Signify Holding (Koninklijke Philips N.V.), Connecterra B.V., DeLaval, Allflex USA Inc., Boumatic LLC, Aquabyte, Inc., AKVA Group ASA, and Eruvaka Technologies.
Countries Covered :
North America U.S. Canada MexicoEurope U.K. Germany France Italy Netherlands Spain Denmark Rest-of-EuropeMiddle East and AfricaAsia-Pacific and Japan China Japan India Vietnam Malaysia Indonesia Australia and New Zealand Rest-of-Asia-PacificSouth America Brazil Argentina Rest-of-South America
Keywords :
IoT in Agriculture Market, IoT in Agriculture Industry, IoT in Agriculture Report, IoT in Agriculture Market Forecasts, IoT in Agriculture Market Trends, IoT in Agriculture Market Companies, IoT in Agriculture Market Analysis, IoT in Agriculture Industry Analysis, What is IoT in Agriculture, IoT in Agriculture Definition, IoT in Agriculture Market Competitive Landscape, IoT in Agriculture Market Drivers, IoT in Agriculture Market Segments, IoT in Agriculture Market Outlook, IoT in Agriculture Market Opportunity, IoT in Agriculture Market Growth, IoT in Agriculture Market Share, IoT in Agriculture Market Size, IoT in Agriculture Market by Application, IoT in Agriculture Market by Product, IoT in Agriculture Market by Region, IoT in Agriculture Market by System Type, Precision Crop Farming IoT in Agriculture Market, Livestock Monitoring and Management IoT in Agriculture Market, Indoor Farming IoT in Agriculture Market, Aquaculture IoT in Agriculture Market, Sensing IoT in Agriculture Market, Communication IoT in Agriculture Market, Cloud Computing IoT in Agriculture Market, Data Management System IoT in Agriculture Market, North America IoT in Agriculture Market, South America IoT in Agriculture Market, Europe IoT in Agriculture Market, Middle East and Africa IoT in Agriculture Market, Asia-Pacific and Japan IoT in Agriculture Market
Press Release :
The global IoT in agriculture market is projected to reach $35.55 billion by 2026, reveals the premium market intelligence study by BIS Research. The study also highlights that the market is set to witness a CAGR of 10.1% during the period 2021-2026.IoT enables devices entrenched with sensors to connect and interact with each other by using the internet. In the agriculture sector, various devices can be remotely monitored and controlled in real-time, including anything from sheds, tractors, pumps, and weather stations, and computers. Also, data from devices can help the farmers analyze their farms and help in decision-making, assisting them in making the farm smarter and safer and adapting more quickly to changing conditions. USP of the ReportThis report will help with the following objectives:• Covers major regions associated with the IoT in agriculture market.• Extensive competitive benchmarking of the top 21 players has been done to offer a holistic view of the global IoT in agriculture market landscape.According to Rakhi Tanwar, Principal Analyst, BIS Research, “The IoT in agriculture market is currently in its growth stage, and the adoption rate is expected to increase in the coming years. Marketers with innovative marketing strategies and diverse product portfolio have the chance to gain grounds in the ever-growing agriculture sector.”Key Companies Operating in The MarketKey players operating in the global IoT in agriculture market analyzed and profiled in the study involve companies that provide the required technology for deployment in the agriculture industry. Moreover, a detailed competitive benchmarking of the players operating in the global IoT in agriculture market has been done to help the reader understand how players stack against each other, presenting a clear market landscape.Some of the key players operating in the market include DEERE & COMPANY, Microsoft Corporation, CNH Industrial NV, Robert Bosch GmbH, Agrivi, The Climate Corporation, Granular Inc., Harvest Croo Robotics, LLC, AeroFarms, OSRAM GmbH, AmHydro, Kalera, Heliospectra AB, Signify Holding (Koninklijke Philips N.V.), Connecterra B.V., DeLaval, Allflex USA Inc., Boumatic LLC, Aquabyte, Inc., AKVA Group ASA, and Eruvaka Technologies.Key Questions Answered in the Report• What is the estimated global IoT in agriculture market size in terms of revenue for the forecast period 2021-2026, and what is the expected compound annual growth rate (CAGR) during the forecast period 2021-2026?• What are the key trends, market drivers, and opportunities in the market pertaining to IoT in agriculture?• What are the major restraints inhibiting the growth of the global IoT in agriculture market?• What kinds of new strategies are being adopted by the existing market players to expand their market position in the industry?• What is the competitive strength of the key players in the IoT in agriculture market based on an analysis of their recent developments, product offerings, and regional presence?• How is the competitive benchmarking of the key IoT in agriculture and equipment companies in the agriculture market based on the analysis of their market coverage and market potential?• How much revenue each of the segments is expected to record during the forecast period along with the growth percentage? Following are the segments: o Systems including sensing, communication, cloud computing, data management system o Application, including precision crop farming, livestock monitoring and management, indoor farming, aquaculture, others• Which type of players and stakeholders are operating in the market ecosystem of IoT in agriculture and equipment, and what is their significance in the global market?• Which are the leading consortiums and associations in the global IoT in agriculture market, and what are their roles in the market?• How does the regulatory landscape differ in different regions for IoT in agriculture and equipment?
Companies Mentioned :
DEERE & COMPANYMicrosoft CorporationCNH Industrial NVRobert Bosch GmbHAgriviThe Climate CorporationGranular Inc.Harvest Croo Robotics, LLCAeroFarmsOSRAM GmbHAmHydroKaleraHeliospectra ABSignify Holding (Koninklijke Philips N.V.)Connecterra B.V.DeLavalAllflex USA Inc.Boumatic LLCAquabyte, Inc.AKVA Group ASAEruvaka Technologies
Press Release :
The global IoT in agriculture market is projected to reach $35.55 billion by 2026, reveals the premium market intelligence study by BIS Research. The study also highlights that the market is set to witness a CAGR of 10.1% during the period 2021-2026.IoT enables devices entrenched with sensors to connect and interact with each other by using the internet. In the agriculture sector, various devices can be remotely monitored and controlled in real-time, including anything from sheds, tractors, pumps, and weather stations, and computers. Also, data from devices can help the farmers analyze their farms and help in decision-making, assisting them in making the farm smarter and safer and adapting more quickly to changing conditions. USP of the ReportThis report will help with the following objectives:• Covers major regions associated with the IoT in agriculture market.• Extensive competitive benchmarking of the top 21 players has been done to offer a holistic view of the global IoT in agriculture market landscape.According to Rakhi Tanwar, Principal Analyst, BIS Research, “The IoT in agriculture market is currently in its growth stage, and the adoption rate is expected to increase in the coming years. Marketers with innovative marketing strategies and diverse product portfolio have the chance to gain grounds in the ever-growing agriculture sector.”Key Companies Operating in The MarketKey players operating in the global IoT in agriculture market analyzed and profiled in the study involve companies that provide the required technology for deployment in the agriculture industry. Moreover, a detailed competitive benchmarking of the players operating in the global IoT in agriculture market has been done to help the reader understand how players stack against each other, presenting a clear market landscape.Some of the key players operating in the market include DEERE & COMPANY, Microsoft Corporation, CNH Industrial NV, Robert Bosch GmbH, Agrivi, The Climate Corporation, Granular Inc., Harvest Croo Robotics, LLC, AeroFarms, OSRAM GmbH, AmHydro, Kalera, Heliospectra AB, Signify Holding (Koninklijke Philips N.V.), Connecterra B.V., DeLaval, Allflex USA Inc., Boumatic LLC, Aquabyte, Inc., AKVA Group ASA, and Eruvaka Technologies.Key Questions Answered in the Report• What is the estimated global IoT in agriculture market size in terms of revenue for the forecast period 2021-2026, and what is the expected compound annual growth rate (CAGR) during the forecast period 2021-2026?• What are the key trends, market drivers, and opportunities in the market pertaining to IoT in agriculture?• What are the major restraints inhibiting the growth of the global IoT in agriculture market?• What kinds of new strategies are being adopted by the existing market players to expand their market position in the industry?• What is the competitive strength of the key players in the IoT in agriculture market based on an analysis of their recent developments, product offerings, and regional presence?• How is the competitive benchmarking of the key IoT in agriculture and equipment companies in the agriculture market based on the analysis of their market coverage and market potential?• How much revenue each of the segments is expected to record during the forecast period along with the growth percentage? Following are the segments: o Systems including sensing, communication, cloud computing, data management system o Application, including precision crop farming, livestock monitoring and management, indoor farming, aquaculture, others• Which type of players and stakeholders are operating in the market ecosystem of IoT in agriculture and equipment, and what is their significance in the global market?• Which are the leading consortiums and associations in the global IoT in agriculture market, and what are their roles in the market?• How does the regulatory landscape differ in different regions for IoT in agriculture and equipment?
Headline :
Global IoT in Agriculture Market to Reach $35.55 Billion by 2026
Table of Contents :
1 Markets1.1 Industry Outlook1.1.1 Market Definition1.1.2 Emerging Trends in Global IoT in Agriculture Market1.1.2.1 Artificial Intelligence (AI) in the Agricultural Industry1.1.2.2 Securing the Agriculture Value Chain with Blockchain Technology1.1.3 Ecosystem/Ongoing Programs1.1.3.1 Government Initiatives1.1.3.2 Consortiums and Associations1.1.3.3 Regulatory Bodies1.2 Supply Chain Analysis1.3 Patent Analysis1.3.1 Patent Analysis (by Status)1.3.2 Patent Analysis (by Inventor Type)1.3.2.1 Patents Analysis (by Patent Office)1.4 Business Dynamics1.4.1 Business Drivers1.4.1.1 Increasing Demand for Global Food Production1.4.1.2 Surging Use of Advanced Technologies in Agriculture1.4.1.3 Emerging Complexities in Data-Driven Farming1.4.1.4 Decreasing Workforce in Agricultural Sector1.4.2 Business Challenges1.4.2.1 Lack of Proper Internet and Network Connectivity1.4.2.2 Cyber and Online Data Security1.4.2.3 Huge Setup and Subscription Costs1.4.2.4 Reluctance to Adopt and Lack of Technical Awareness1.4.3 Business Strategies1.4.3.1 Product Development and Innovation1.4.3.2 Market Developments1.4.3.3 Other Strategies1.4.4 Corporate Strategies1.4.4.1 Mergers and Acquisitions1.4.4.2 Partnerships, Collaborations, and Joint Ventures1.4.5 Business Opportunities1.4.5.1 Growing Trend of Agriculture Service Economy1.4.5.2 Increasing Investments in Agricultural Technology Sector1.4.5.3 Increasing Market Opportunities in Developing Countries1.4.5.4 Favorable Government Initiatives to Support IoT in Agriculture1.4.6 Impact of COVID-19 on the Global IoT in Agriculture Market2 Application2.1 Global IoT in Agriculture Market (by Application)2.1.1 Precision Crop Farming2.1.2 Livestock Monitoring and Management2.1.3 Indoor Farming2.1.4 Aquaculture2.1.5 Others2.2 Demand Analysis of the Global IoT in Agriculture Market (by Application)3 Products3.1 Global IoT in Agriculture Market (by System Type)3.1.1 Sensing3.1.2 Communication3.1.3 Cloud Computing3.1.4 Data Management System3.2 Demand Analysis of the Global IoT in Agriculture Market (by System Type)4 Regions4.1 North America4.1.1 Market4.1.1.1 Key IoT in Agriculture Systems Providers Operating in North America4.1.1.2 Business Drivers4.1.1.3 Business Challenges4.1.2 Application4.1.2.1 North America IoT in Agriculture Market (by Application), $Million, 2019-20264.1.3 Country4.1.3.1 North America IoT in Agriculture Market (by Country), $Million, 2019-20264.1.3.2 U.S.4.1.3.2.1 Market4.1.3.2.1.1 Buyer Attributes4.1.3.2.1.2 Key IoT in Agriculture Systems Providers Operating in the U.S.4.1.3.2.1.3 Business Drivers4.1.3.2.1.4 Business Challenges4.1.3.3 Canada4.1.3.3.1 Market4.1.3.3.1.1 Buyer Attributes4.1.3.3.1.2 Key IoT in Agriculture Systems Providers Operating in Canada4.1.3.3.1.3 Business Drivers4.1.3.3.1.4 Business Challenges4.1.3.4 Mexico4.1.3.4.1 Market4.1.3.4.1.1 Buyer Attributes4.1.3.4.1.2 Key IoT in Agriculture Systems Providers Operating in Mexico4.1.3.4.1.3 Business Drivers4.1.3.4.1.4 Business Challenges4.2 South America4.2.1 Market4.2.1.1 Key IoT in Agriculture Systems Providers in South America4.2.1.2 Business Drivers4.2.1.3 Business Challenges4.2.2 Application4.2.2.1 South America IoT in Agriculture Market (by Application), $Million, 2019-20264.2.3 Country4.2.3.1 South America IoT in Agriculture Market (by Country), $Million, 2019-20264.2.3.2 Brazil4.2.3.2.1 Market4.2.3.2.1.1 Buyer Attributes4.2.3.2.1.2 Key IoT in Agriculture Systems Providers Operating in Brazil4.2.3.2.1.3 Business Drivers4.2.3.2.1.4 Business Challenges4.2.3.3 Argentina4.2.3.3.1 Market4.2.3.3.1.1 Buyer Attributes4.2.3.3.1.2 Key IoT in Agriculture Systems Providers Operating in Argentina4.2.3.3.1.3 Business Drivers4.2.3.3.1.4 Business Challenges4.2.3.4 Rest-of-South America4.3 Europe4.3.1 Market4.3.1.1 Key IoT in Agriculture Systems Providers Operating in Europe4.3.1.2 Business Drivers4.3.1.3 Business Challenges4.3.2 Application4.3.2.1 Europe IoT in Agriculture Market (by Application), $Million, 2019-20264.3.3 Country4.3.3.1 Europe IoT in Agriculture Market (by Country), $ Million, 2019-20264.3.3.2 Germany4.3.3.2.1 Market4.3.3.2.1.1 Buyer Attributes4.3.3.2.1.2 Key IoT in Agriculture Systems Providers Operating in Germany4.3.3.2.1.3 Business Drivers4.3.3.2.1.4 Business Challenges4.3.3.3 U.K.4.3.3.3.1 Market4.3.3.3.1.1 Buyer Attributes4.3.3.3.1.2 Key IoT in Agriculture Systems Providers Operating in the U.K4.3.3.3.1.3 Business Drivers4.3.3.3.1.4 Business Challenges4.3.3.4 France4.3.3.4.1 Market4.3.3.4.1.1 Buyer Attributes4.3.3.4.1.2 Key IoT in Agriculture Systems Providers Operating in France4.3.3.4.1.3 Business Drivers4.3.3.4.1.4 Business Challenges4.3.3.5 Italy4.3.3.5.1 Market4.3.3.5.1.1 Buyer Attributes4.3.3.5.1.2 Key IoT in Agriculture Systems Providers Operating in Italy4.3.3.5.1.3 Business Drivers4.3.3.5.1.4 Business Challenges4.3.3.6 Netherlands4.3.3.6.1 Market4.3.3.6.1.1 Buyer Attributes4.3.3.6.1.2 Key IoT in Agriculture Systems Providers Operating in the Netherlands4.3.3.6.1.3 Business Challenges4.3.3.6.1.4 Business Drivers4.3.3.7 Spain4.3.3.7.1 Market4.3.3.7.1.1 Buyer Attributes4.3.3.7.1.2 Key IoT in Agriculture Systems Providers Operating in Spain4.3.3.7.1.3 Business Drivers4.3.3.7.1.4 Business Challenges4.3.3.8 Denmark4.3.3.8.1 Market4.3.3.8.1.1 Buyer Attributes4.3.3.8.1.2 Key IoT in Agriculture Systems Providers Operating in Denmark4.3.3.8.1.3 Business Drivers4.3.3.8.1.4 Business Challenges4.3.3.9 Rest-of-Europe4.4 Middle East and Africa4.4.1 Market4.4.1.1 Key IoT in Agriculture Systems Providers in the Middle East and Africa4.4.1.2 Business Drivers4.4.1.3 Business Challenges4.4.2 Application4.4.2.1 Middle East and Africa IoT in Agriculture Market (by Application)4.4.3 Middle East and Africa (by Country)4.4.3.1 Middle East4.4.3.1.1 Market4.4.3.1.1.1 Buyer Attributes4.4.3.1.1.2 Key IoT in Agriculture Systems Providers Operating in the Middle East4.4.3.1.1.3 Business Challenges4.4.3.2 Africa4.4.3.2.1 Market4.4.3.2.1.1 Buyer Attributes4.4.3.2.1.2 Key IoT in Agriculture Systems Providers Operating in Africa4.4.3.2.1.3 Business Challenges4.4.3.2.1.4 Business Drivers4.5 Asia-Pacific and Japan4.5.1 Market4.5.1.1 Key IoT in Agriculture Systems Providers Operating in Asia-Pacific and Japan4.5.1.2 Business Drivers4.5.1.3 Business Challenges4.5.2 Application4.5.2.1 Asia Pacific and Japan IoT in Agriculture Market (by Application), $Million, 2019-20264.5.3 Country4.5.3.1 Asia-Pacific and Japan IoT in Agriculture Market (by Country), $Million, 2019-20264.5.3.2 India4.5.3.2.1 Market4.5.3.2.1.1 Buyer Attributes4.5.3.2.1.2 Key IoT in Agriculture Systems Providers Operating in India4.5.3.2.1.3 Business Drivers4.5.3.2.1.4 Business Challenges4.5.3.3 Japan4.5.3.3.1 Market4.5.3.3.1.1 Buyer Attributes4.5.3.3.1.2 Key IoT in Agriculture Systems Providers Operating in Japan4.5.3.3.1.3 Business Drivers4.5.3.3.1.4 Business Challenges4.5.3.4 China4.5.3.4.1 Market4.5.3.4.1.1 Buyer Attributes4.5.3.4.1.2 Key IoT in Agriculture Systems Providers Operating in China4.5.3.4.1.3 Business Drivers4.5.3.4.1.4 Business Challenges4.5.3.5 Australia and New Zealand4.5.3.5.1 Market4.5.3.5.1.1 Buyer Attributes4.5.3.5.1.2 Key IoT in Agriculture Systems Providers Operating in Australia and New Zealand4.5.3.5.1.3 Buyer Drivers4.5.3.5.1.4 Business Challenges4.5.3.6 Vietnam4.5.3.6.1 Market4.5.3.6.1.1 Buyer Attributes4.5.3.6.1.2 Key IoT in Agriculture Systems Providers in Vietnam4.5.3.6.1.3 Business Drivers4.5.3.6.1.4 Business Challenges4.5.3.7 Malaysia4.5.3.7.1 Market4.5.3.7.1.1 Buyer Attributes4.5.3.7.1.2 Key IoT in Agriculture Systems Providers in Malaysia4.5.3.7.1.3 Business Drivers4.5.3.7.1.4 Business Challenges4.5.3.8 Indonesia4.5.3.8.1 Market4.5.3.8.1.1 Buyer Attributes4.5.3.8.1.2 Key IoT in Agriculture Systems Providers in Indonesia4.5.3.8.1.3 Business Drivers4.5.3.8.1.4 Business Challenges4.5.3.9 Rest-of-Asia-Pacific5 Markets - Competitive Benchmarking & Company Profiles5.1 Competitive Benchmarking5.2 Precision Crop Farming5.3 Company Profiles5.3.1 DEERE & COMPANY5.3.1.1 Company Overview5.3.1.2 Role of Deere & Company in the Global IoT in Agriculture Market5.3.1.3 Product Portfolio5.3.1.4 Business Strategies5.3.1.4.1 Market Developments5.3.1.4.2 Product Developments5.3.1.5 Corporate Strategies5.3.1.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.3.1.5.2 Mergers and Acquisitions5.3.1.6 Strength and Weakness of Deere & Company5.3.2 Microsoft Corporation5.3.2.1 Company Overview5.3.2.2 Role of Microsoft Corporation in the Global IoT in Agriculture Market5.3.2.3 Service Portfolio5.3.2.4 Business Strategies5.3.2.4.1 Market Developments5.3.2.4.2 Product Launch5.3.2.5 Corporate Strategies5.3.2.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.3.2.6 Strength and Weakness of Microsoft Corporation5.3.3 CNH Industrial NV5.3.3.1 Company Overview5.3.3.2 Role of CNH Industrial NV in the Global IoT in Agriculture Market5.3.3.3 Service Portfolio5.3.3.4 Corporate Strategies5.3.3.4.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.3.3.4.2 Mergers and Acquisitions5.3.3.5 Strength and Weakness of CNH Industrial NV5.3.4 Robert Bosch GmbH5.3.4.1 Company Overview5.3.4.2 Role of Robert Bosch GmbH in the Global IoT in Agriculture Market5.3.4.3 Service Portfolio5.3.4.4 Business Strategies5.3.4.4.1 Product Launch5.3.4.5 Corporate Strategies5.3.4.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.3.4.6 Strength and Weakness of Robert Bosch GmbH5.3.5 Agrivi5.3.5.1 Company Overview5.3.5.2 Role of Agrivi in the Global IoT in Agriculture Market5.3.5.3 Service Portfolio5.3.5.4 Business Strategies5.3.5.4.1 Product Launch5.3.5.5 Corporate Strategies5.3.5.5.1 Partnership, Collaborations, Joint Ventures, and Alliances5.3.5.6 Strength and Weakness of Agrivi5.3.6 The Climate Corporation5.3.6.1 Company Overview5.3.6.2 Role of The Climate Corporation in the Global IoT in Agriculture Market5.3.6.3 Service Portfolio5.3.6.4 Corporate Strategies5.3.6.4.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.3.6.5 Strength and Weakness of The Climate Corporation5.4 Indoor Farming5.4.1 Granular Inc.5.4.1.1 Company Overview5.4.1.2 Role of Granular Inc. in the Global IoT in Agriculture Market5.4.1.3 Service Portfolio5.4.1.4 Corporate Strategies5.4.1.4.1 Partnerships, Collaborations, Joint Ventures, and Alliances5.4.1.5 Strength and Weakness Granular Inc.5.4.2 Harvest Croo Robotics, LLC5.4.2.1 Company Overview5.4.2.2 Role of Harvest Croo Robotics, LLC in the Global IoT in Agriculture Market5.4.2.3 Service Portfolio5.4.2.4 Strength and Weakness of Harvest Croo Robotics, LLC5.4.3 AeroFarms5.4.3.1 Company Overview5.4.3.2 Role of AeroFarms in the Global IoT in Agriculture Market5.4.3.3 Service Portfolio5.4.3.4 Business Strategies5.4.3.4.1 Product Developments5.4.3.5 Corporate Strategies5.4.3.5.1 Partnerships, Collaborations, Joint Ventures, and Alliances5.4.3.5.2 Mergers and Acquisitions5.4.3.6 Strength and Weakness of AeroFarms5.4.4 OSRAM GmbH.5.4.4.1 Company Overview5.4.4.2 Role of OSRAM GmbH. in the Global IoT in Agriculture Market5.4.4.3 Product Portfolio5.4.4.4 Business Strategies5.4.4.4.1 Business Expansion5.4.4.4.2 Product Developments5.4.4.5 Corporate Strategies5.4.4.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.4.4.5.2 Mergers and Acquisitions5.4.4.6 Strength and Weakness of OSRAM GmbH.5.4.5 AmHydro.5.4.5.1 Company Overview5.4.5.2 Role of AmHydro. in the Global IoT in Agriculture Market5.4.5.3 Product Portfolio5.4.5.4 Business Strategies5.4.5.4.1 Business Expansion5.4.5.5 Corporate Strategies5.4.5.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.4.5.6 Strength and Weekness of AmHydro5.4.6 Kalera5.4.6.1 Company Overview5.4.6.2 Role of Kalera in the Global IoT in Agriculture Market5.4.6.3 Service Portfolio5.4.6.4 Business Strategies5.4.6.4.1 Business Expansion5.4.6.5 Corporate Strategies5.4.6.5.1 Mergers and Acquisitions5.4.6.6 Strength and Weakness of Kalera5.4.7 Heliospectra AB5.4.7.1 Company Overview5.4.7.2 Role of Heliospectra AB in the Global IoT in Agriculture Market5.4.7.3 Product Portfolio5.4.7.4 Corporate Strategies5.4.7.4.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.4.7.5 Strength and Weakness of Heliospectra AB5.4.8 Signify Holding (Koninklijke Philips N.V.)5.4.8.1 Company Overview5.4.8.2 Role of Signify Holding (Koninklijke Philips N.V.) in the Global IoT in Agriculture Market5.4.8.3 Product Portfolio5.4.8.4 Business Strategies5.4.8.4.1 Business Expansion5.4.8.5 Corporate Strategies5.4.8.5.1 Mergers and Acquisitions5.4.8.6 Strength and Weakness of Signify Holding (Koninklijke Philips N.V.)5.5 Livestock Monitoring and Management5.5.1 Connecterra B.V.5.5.1.1 Company Overview5.5.1.2 Role of Connecterra B.V. in the Global IoT in Agriculture Market5.5.1.3 Service Portfolio5.5.1.4 Business Strategies5.5.1.4.1 Market Developments5.5.1.5 Corporate Strategies5.5.1.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.5.1.6 Strength and Weakness Connecterra B.V.5.5.2 DeLaval5.5.2.1 Company Overview5.5.2.2 Role of DeLaval in the Global IoT in Agriculture Market5.5.2.3 Service Portfolio5.5.2.4 Business Strategies5.5.2.4.1 Product Developments5.5.2.4.2 Market Developments5.5.2.5 Corporate Strategies5.5.2.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.5.2.5.2 Mergers and Acquisitions5.5.2.6 Strength and Weakness DeLaval5.5.3 Allflex USA Inc.5.5.3.1 Company Overview5.5.3.2 Role of Allflex USA Inc. in the Global IoT in Agriculture Market5.5.3.3 Service Portfolio5.5.3.4 Business Strategies5.5.3.4.1 Market Developments5.5.3.4.2 Product Developments5.5.3.5 Corporate Strategies5.5.3.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.5.3.5.2 Mergers and Acquisitions5.5.3.6 Strength and Weakness of Allflex USA Inc.5.5.4 Boumatic LLC5.5.4.1 Company Overview5.5.4.2 Role of Boumatic LLC in the Global IoT in Agriculture Market5.5.4.3 Service Portfolio5.5.4.4 Corporate Strategies5.5.4.4.1 Mergers and Acquisitions5.5.4.5 Strength and Weakness Boumatic LLC5.6 Aquaculture5.6.1 Aquabyte, Inc.5.6.1.1 Company Overview5.6.1.2 Role of Aquabyte, Inc. in the Global IoT in Agriculture Market5.6.1.3 Service Portfolio5.6.1.4 Corporate Strategies5.6.1.4.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.6.2 Strength and Weakness of Aquabyte, Inc.5.6.3 AKVA Group ASA5.6.3.1 Company Overview5.6.3.2 Role of AKVA Group ASA in the Global IoT in Agriculture Market5.6.3.3 Service Portfolio5.6.3.4 Business Strategies5.6.3.4.1 Product Developments5.6.3.5 Corporate Strategies5.6.3.5.1 Partnerships, Joint Ventures, Collaborations, and Alliances5.6.3.5.2 Mergers and Acquisitions5.6.3.6 Strength and Weakness of AKVA Group ASA5.6.4 Eruvaka Technologies5.6.4.1 Company Overview5.6.4.2 Role of Eruvaka Technologies in the Global IoT in Agriculture Market5.6.4.3 Service Portfolio5.6.4.4 Strength and Weakness Eruvaka Technologies5.7 List of Other Players6 Research Methodology6.1 Data Sources6.1.1 Primary Data Sources6.1.2 Secondary Data Sources6.1.3 Data Triangulation6.2 Market Estimation and Forecast6.2.1 Factors for Data Prediction and ModellingList of Figures Figure 1: Global IoT in Agriculture Market, $Billion, 2019-2026Figure 2: Global IoT in Agriculture Market DynamicsFigure 3: Global IoT in Agriculture Market (by Application), $Million, 2020, 2021 and-2026Figure 4: Global IoT in Agriculture Market (by Region), $Billion, 2020Figure 5: Global IoT in Agriculture Market CoverageFigure 6: Applications of Blockchain Technology in AgricultureFigure 7: Supply Chain Analysis of the Global IoT in Agriculture MarketFigure 8: Global IoT in Agriculture Patent Trend Analysis (by Year), 2016-2021Figure 9: Patent Analysis (by Status), January 2016-December 2021Figure 10: Patent Analysis (by Status), January 2016-December 2021Figure 11: Patent Analysis (by Inventor Type), January 2016-December 2021Figure 12: Patent Analysis (by Patent Office), January 2016-December 2021Figure 13: Global Agricultural Productivity Index, 2005-2050Figure 14: Sources of Growth in Food ProductionFigure 15: Number of People Living in Urban and Rural Areas of the World, 1960-2020Figure 16: Long-Term Evolution of Commodity PricesFigure 17: FAO Food Price IndexFigure 18: USDA Investments for Development of Autonomous Services and Equipment in Agricultural SectorFigure 19: Average Data Points Generated from Agricultural IoT Devices Daily, 2014 and 2050Figure 20: Number of People Employed in Agriculture, 2000-2015Figure 21: Share of Agriculture in Total Employment in Various Countries, 2000-2015Figure 22: Percentage of Population in Various Countries Affected by Cyber Crime and Data Breach, 2020-2021Figure 23: Share of Key Market Strategies and Developments, 2017-2021Figure 24: Product Development and Innovation (by Company), 2017-2021Figure 25: Market Developments (by Company), 2017-2021Figure 26: Mergers and Acquisitions (by Company), 2017-2021Figure 27: Partnerships, Collaborations, and Joint Ventures (by Company), 2017-2021Figure 28: Investments Raised by Various Agritech Start-Ups in India, 2010-2019Figure 29: Amount in Investments Raised by Agritech Start-Ups in India, 2014-2019Figure 30: Global IoT in Agriculture Market (by Application)Figure 31: Global IoT in Agriculture Market (by System Type)Figure 32: Global IoT in Agriculture Market, Market Share (by Region), $Billion, 2020Figure 33: Competitive Benchmarking MatrixFigure 34: Market Share Analysis (by Company), 2020Figure 35: Data TriangulationFigure 36: Top-Down and Bottom-Up ApproachFigure 37: Assumptions and LimitationsList of Tables Table 1: Key Consortiums and Associations in the Global IoT in Agriculture MarketTable 2: Key Regulatory Bodies on the Global IoT in Agriculture MarketTable 3: Infrastructure for IoT Systems in Developed, Developing, and Underdeveloped NationsTable 4: Global IoT in Agriculture Market (by Application), $Million, 2019-2026Table 5: Types of Sensors and Their ApplicationsTable 6: Communication System Companies and Their InnovationsTable 7: Cloud Computing Companies and InnovationsTable 8: Global IoT in Agriculture Market (by System Type), $Million, 2019-2026Table 9: Global IoT in Agriculture Market (by Region), $Million, 2019-2026Table 10: North America IoT in Agriculture Market (by Application), $Million, 2019-2026Table 11: North America IoT in Agriculture Market (by Country), $Million, 2019-2026Table 12: South America IoT in Agriculture Market (by Application), $Million, 2019-2026Table 13: South America IoT in Agriculture Market (by Country), $Million, 2019-2026Table 14: Europe IoT in Agriculture Market (by Application), $Million, 2019-2026Table 15: Europe IoT in Agriculture Market (by Country), $Million, 2019-2026Table 16: Middle East and Africa IoT in Agriculture Market (by Application), $Million, 2019-2026Table 17: Middle East and Africa IoT in Agriculture Market (by Country), $Million, 2019-2026Table 18: Asia Pacific and Japan IoT in Agriculture Market (by Application), $Million, 2019-2026Table 19: Asia-Pacific and Japan IoT in Agriculture Market (by Country), $Million, 2019-2026Table 20: Deere & Company: Product PortfolioTable 21: Deere & Company: Market DevelopmentsTable 22: Deere & Company: Product DevelopmentsTable 23: Deere & Company: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 24: Deere & Company: Mergers and AcquisitionsTable 25: Microsoft Corporation: Service PortfolioTable 26: Microsoft Corporation: Market DevelopmentsTable 27: Microsoft Corporation: Product LaunchTable 28: Microsoft Corporation: Partnerships, Joint Ventures, Collaborations and AlliancesTable 29: CNH Industrial NV: Service PortfolioTable 30: CNH Industrial NV: Partnerships, Joint Ventures, Collaborations and AlliancesTable 31: CNH Industrial NV: Mergers and AcquisitionsTable 32: Robert Bosch GmbH: Service PortfolioTable 33: Robert Bosch GmbH: Product LaunchTable 34: Robert Bosch GmbH: Partnerships, Joint Ventures, Collaborations and AlliancesTable 35: Agrivi: Service PortfolioTable 36: Agrivi: Product LaunchTable 37: Agrivi: Partnership, Collaboration, Joint Ventures, and AlliancesTable 38: The Climate Corporation: Service PortfolioTable 39: The Climate Corporation: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 40: Granular Inc.: Service PortfolioTable 41: Granular Inc.: Partnerships, Collaborations, Joint Ventures, and AlliancesTable 42: Harvest Croo Robotics, LLC: Service PortfolioTable 43: AeroFarms: Service PortfolioTable 44: AeroFarms: Business ExpansionTable 45: AeroFarms: Product DevelopmentsTable 46: AeroFarms: Partnerships, Collaborations, Joint Ventures, and AlliancesTable 47: AeroFarms: Mergers and AcquisitionsTable 48: OSRAM GmbH.: Product PortfolioTable 49: OSRAM GmbH.: Business ExpansionTable 50: OSRAM GmbH.: Product DevelopmentsTable 51: OSRAM GmbH.: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 52: OSRAM GmbH.: Mergers and AcquisitionsTable 53: AmHydro.: Product PortfolioTable 54: AmHydro.: Business ExpansionTable 55: AmHydro.: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 56: Kalera: Service PortfolioTable 57: Kalera: Business ExpansionTable 58: Kalera: Mergers and AcquisitionsTable 59: Heliospectra AB: Product PortfolioTable 60: Heliospectra AB: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 61: Signify Holding (Koninklijke Philips N.V.): Product PortfolioTable 62: Signify Holding (Koninklijke Philips N.V.): Business ExpansionTable 63: Signify Holding (Koninklijke Philips N.V.): Mergers and AcquisitionsTable 64: Connecterra B.V.: Service PortfolioTable 65: Connecterra B.V.: Market DevelopmentsTable 66: Connecterra B.V.: Partnerships, Joint Ventures, Collaborations and AlliancesTable 67: DeLaval: Service PortfolioTable 68: DeLaval: Product DevelopmentsTable 69: DeLaval: Market DevelopmentsTable 70: DeLaval: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 71: DeLaval: Mergers and AcquisitionsTable 72: Allflex USA Inc.: Service PortfolioTable 73: Allflex USA Inc.: Market DevelopmentsTable 74: Allflex USA Inc.: Product DevelopmentsTable 75: Allflex USA Inc.: Partnerships, Joint Ventures, Collaborations and AlliancesTable 76: Allflex USA Inc.: Mergers and AcquisitionsTable 77: Boumatic LLC: Service PortfolioTable 78: Boumatic LLC: Mergers and AcquisitionsTable 79: Aquabyte, Inc.: Service PortfolioTable 80: Aquabyte, Inc.: Partnerships, Joint Ventures, Collaborations and AlliancesTable 81: AKVA Group ASA: Service PortfolioTable 82: AKVA Group ASA: Product DevelopmentsTable 83: AKVA Group ASA: Partnerships, Joint Ventures, Collaborations, and AlliancesTable 84: AKVA Group ASA: Mergers and AcquisitionsTable 85: Eruvaka Technologies: Service Portfolio