The global smart farming market (by application) was dominated by the precision crop farming application which accounted for XX% of the total revenue generated by the smart farming solutions in the year 2017. Precision irrigation products have been the major contributor to the large market share of precision crop farming. With growing need for appropriate usage of agricultural inputs, variable rate application based products in the market are expected to propagate further growth of precision crop farming market in the coming five years.
The document discusses opportunities in the Indian food industry. It notes that India has a large agricultural sector and food production base but low levels of food processing. The food industry is growing rapidly due to rising incomes, urbanization, and changing diets. There are business opportunities to increase food processing and distribution through organized retail and food service chains to meet growing demand. International companies can source ingredients from India's agriculture and tap the large consumer market through partnerships with local players.
The global smart agriculture market is projected to grow from $13.7 billion in 2020 to $22 billion in 2025 at a CAGR of 9.8%. Hardware offerings are expected to hold the largest market share during the forecast period. The Americas are expected to account for the largest market share from 2020 to 2025. Key applications driving growth include precision farming, livestock monitoring, and aquaculture.
#AgriTechIndia - Current Scenario of Agri & Food StartupsDeepak Pareek
A presentation delivered on Enabling Next Generation Revolution Through Emerging New Technology Wave by Deepak Pareek at All India AgriStartup Convention and Awards 2018 in session on "Current Scenario of Agri & Food Startups".
Challenges and Solutions to Food SecuritySanjay Sethi
Presented at 3rd International Conference on Global Warming - Food Security organised by Environment Protection & Development Authority, Ras al Khaimah
The African Development Bank and Purdue University are organizing a conference from September 25-27 to address how to scale up agricultural innovations in developing countries, particularly Africa. The Scale Up Conference will bring together hundreds of individuals and organizations working on introducing, spreading, and adopting agricultural innovations with the potential to impact millions. The conference aims to provide an understanding of successful, large-scale implementation of agricultural innovations through presentations, panels, case studies and group discussions. Participants will gain insights into scaling innovations to reach more people from those who have implemented such programs. The African Development Bank and Purdue University see such collaboration as important to supporting food security and economic development in Africa.
Connected Agricultural services and internet of things..Atul Khiste
This document discusses connected agriculture and the Internet of Things. It begins with an overview of global challenges in food production such as the need to increase food output 50% by 2025 to feed a growing population. It then discusses opportunities for connected solutions in agriculture to address issues like increasing productivity while using fewer resources. The document proposes a connected agriculture solution that would provide farmers technology and expert advice to better manage irrigation, seeds, pesticides, and make decisions. It outlines a functional architecture and implementation challenges for the solution.
The document discusses opportunities in the Indian food industry. It notes that India has a large agricultural sector and food production base but low levels of food processing. The food industry is growing rapidly due to rising incomes, urbanization, and changing diets. There are business opportunities to increase food processing and distribution through organized retail and food service chains to meet growing demand. International companies can source ingredients from India's agriculture and tap the large consumer market through partnerships with local players.
The global smart agriculture market is projected to grow from $13.7 billion in 2020 to $22 billion in 2025 at a CAGR of 9.8%. Hardware offerings are expected to hold the largest market share during the forecast period. The Americas are expected to account for the largest market share from 2020 to 2025. Key applications driving growth include precision farming, livestock monitoring, and aquaculture.
#AgriTechIndia - Current Scenario of Agri & Food StartupsDeepak Pareek
A presentation delivered on Enabling Next Generation Revolution Through Emerging New Technology Wave by Deepak Pareek at All India AgriStartup Convention and Awards 2018 in session on "Current Scenario of Agri & Food Startups".
Challenges and Solutions to Food SecuritySanjay Sethi
Presented at 3rd International Conference on Global Warming - Food Security organised by Environment Protection & Development Authority, Ras al Khaimah
The African Development Bank and Purdue University are organizing a conference from September 25-27 to address how to scale up agricultural innovations in developing countries, particularly Africa. The Scale Up Conference will bring together hundreds of individuals and organizations working on introducing, spreading, and adopting agricultural innovations with the potential to impact millions. The conference aims to provide an understanding of successful, large-scale implementation of agricultural innovations through presentations, panels, case studies and group discussions. Participants will gain insights into scaling innovations to reach more people from those who have implemented such programs. The African Development Bank and Purdue University see such collaboration as important to supporting food security and economic development in Africa.
Connected Agricultural services and internet of things..Atul Khiste
This document discusses connected agriculture and the Internet of Things. It begins with an overview of global challenges in food production such as the need to increase food output 50% by 2025 to feed a growing population. It then discusses opportunities for connected solutions in agriculture to address issues like increasing productivity while using fewer resources. The document proposes a connected agriculture solution that would provide farmers technology and expert advice to better manage irrigation, seeds, pesticides, and make decisions. It outlines a functional architecture and implementation challenges for the solution.
Economic analysis of High Valued Crops. i.e. Carnation FlowerYogeshballal
The Study was conducted at Waghapur (Purandar tehsil of Pune District). It Involves study of Foundation of Polyhouse and Greenhouse Structure to Marketing of Carnation flower.
M2M/IoT Applications in the Agricultural Industryjohanfagerberg
How will the market for agricultural M2M and IoT applications evolve in 2018 and beyond? Berg Insight covers the latest trends and developments in the emerging smart farming market. Berg Insight forecasts that the number of installed wireless devices for applications in agricultural production is forecasted to grow at a CAGR of 10.0 percent from 17.0 million connections at the end of 2016 to 27.4 million connected devices by 2021. Cellular connections amounted to 0.8 million at the end of 2016 and is expected to grow at a CAGR of 30.2 percent to reach 3.1 million in 2021. Get up to date with the latest information about vendors, products and markets.
During the Africa Regional Planning Meetings held at Harare on 26, 27 April 2016 reviewed the overall programs and action plan and discussed on these objectives :Improved understanding of consumer demand for sorghum and millets in four ESA countries (Kenya, Ethiopia, Tanzania, Uganda). Consumption disaggregated by rural/urban, income, and proximity to centres of productionTrends in cereal prices, price and income elasticities of consumption Set research priorities for CGIAR research program for Dryland Cereals
This document summarizes the challenges and prospects for maize market development in Nepal. It provides an overview of maize production trends, the maize seed sector, and key challenges across the value chain from inputs to post-harvest handling and selling. These challenges include a lack of adapted varieties, weak private sector capacity, and poor infrastructure. The document then outlines CIMMYT's approach to maize market development, which involves establishing institutional mechanisms, implementing improved seed and fertilizer technologies, and scaling technologies through market promotion strategies. It details core components and interventions along the research, production, marketing, and policy dimensions to strengthen the seed system and link farmers to output markets.
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
Wheat production in Africa has increased significantly in recent decades due to improved varieties, irrigation expansion, and government support. However, Africa still imports over 40 million tons of wheat annually at a cost of over $14 billion. By 2050, wheat imports are projected to reach 60 million tons annually at a cost of over $24 billion unless domestic production increases. Studies show substantial potential to increase wheat yields and production profitably across sub-Saharan Africa through investment in research, infrastructure, and policy reforms. Key countries like Ethiopia, Nigeria, and Rwanda have begun to realize this potential through national commitments to wheat research, improved varieties, and agricultural support programs. Increased efforts are still needed across Africa to boost wheat productivity, self-
The 10 most innovative ag tech companies of 2021(5) compressedMerry D'souza
As an agtech entrepreneur, you have an opportunity and a responsibility to shape how your company practices social as well as environmental sustainability. Addressing these areas is also important if you want to achieve lasting success
IFPRI South Asia researchers Devesh Roy, Ruchira Boss, Mamata Pradhan and Manmeet Ajmani presented ‘Understanding the landscape of pulse policy in India and implications for trade’ to the Global Pulse Federation. The paper examines Indian policy around production, consumption and trade. The need for pulse trade policy in India to be supportive of Domestic priorities focused on serving interest of both India’s farmers and consumers.
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
Brian Clancey from STATPUB.com shares Global Pulses Import - Export data in this insightful presentation. Pulses production, demand, trends in import-export and future outlook as presented at India Pulses & Grains Associaiton's 'Global Pulses Conclave 2012.
This document summarizes the key topics and findings from the book "Agricultural Transformation in Nepal: Trends, Prospects and Policy Options". It discusses Nepal's agricultural sector challenges including lower and fluctuating growth, declining productivity, and rising imports. However, it also notes prospects like shifting diets driving demand, commercialization, and emerging value chains. The way forward involves ensuring food security through technology adoption, increasing public and private investment, promoting diversification, and developing domestic and regional value chains. Strengthening infrastructure, quality standards, contract farming and trade opportunities can help realize the agriculture sector's potential.
This document discusses a study that used a computable general equilibrium (CGE) model to analyze the potential impacts of adopting hydroponics technology in Pakistan's fruit and vegetable sector and on global trade. The study adapted the GTAP global CGE model with separate sectors for fruits and vegetables among 15 aggregated sectors and 30 aggregated regions including Pakistan. Simulations were run to quantify the effects of increasing hydroponics production of fruits and vegetables in Pakistan and reducing import tariffs on chemicals used as inputs. The results showed overall positive impacts on Pakistan's real GDP, sectoral exports and imports, terms of trade, and domestic prices of fruits and vegetables, indicating that adopting hydroponics technology could benefit Pakistan's macroeconomic indicators and consumer welfare.
[Webinar recording in last slide or at https://youtu.be/DMg9UI7Ur0M, 26/3/2018]
As part of its work on farmers’ data rights and following up on the face-to-face course on Farmers’ Access to Data organized in Centurion in November 2017, GFAR collaborates with the Global Open Data for Agriculture and Nutrition initiative (GODAN) and the Technical Center for Agricultural and Rural Cooperarion (CTA) on a series of webinars on data-driven agriculture, its opportunities and its challenges.
Overview of webinar #3
This webinar is a continuation of exploring digital agriculture for smallholder farmers. The first webinar provided an overview of digital agriculture, the trends impacting it, and it advantages and challenges for smallholder farmers. The second identified specific data needed by farmers, as well as potential sources.
“Crossing the Donga” will provide smallholder farmers, and those who support them, specific methods for ensuring farmer-centric solutions. The webinar will examine some of the key challenges that are blocking adoption of digital architecture by smallholder farmers. Attendees will learn a process for mapping their data needs, based on their goals and key tasks. Attendees will learn the foundational market model, and how to create value for success.
About the presenter
Dan Berne is a highly regarded professional business growth strategist with over 30 years’ experience. Dan led the effort to create an Ag Irrigation market strategy for the Northwest Energy Efficiency Alliance (NEEA). He also conducted grower experience studies to help identify barriers to grower adoption of energy saving practices. Dan wrote or co-wrote many of the NEEA Ag Irrigation reports. Dan serves as the Project Manager on AgGateway’s Precision Ag Irrigation Language data standards project. He is an affiliate of the Chasm Institute, and a certified practitioner of Innovation Games.
Dan started the “Lagom Ag Initiative” within his company to help accelerate the adoption of precision farming practices and improve the use of digital agricultural methodologies. Lagom is a Swedish word that means “just enough.” It is also used to mean “simply perfect.” It fits our philosophy of helping farmers use just enough water, just enough fertilizers, just enough energy to be profitable while increasing or maintaining yield.
Shop@Farm aims to address issues with urban organic farming and small landholding farmers by cultivating organic vegetables on unused land within residential complexes. Produce will be sold through on-site retail stores with minimal margins, providing farmers higher profits. The model generates domestic markets for organic farmers while ensuring urban residents convenient access to affordable, certified organic produce. It organizes the farming sector by assisting farmers with organic certification and legal awareness. Over three phases, Shop@Farm plans to expand to other institutions with unused land and establish an online retail presence.
Tipping Point in Digital Extension Advisory Systems: Empirical Evidences from...Shaik N. Meera
Digital extension pilots in India provided empirical evidence that digital advisories can improve farm productivity and profitability. Randomized control trials showed treatments that combined critical inputs, demonstrations and video/Whatsapp services led to higher yields than other treatments. Farmers perceived weather forecasts, market prices access and diagnostics as most useful digital services, though realized utility was lower. Industry stakeholders saw potential for disruptive technologies but barriers to adoption. Direct market interventions helped farmers realize better prices. Smartphone apps for irrigation pump control provided benefits like time savings and flexibility. Desk research found many digital startups in areas like market access, predictive analytics and financial inclusion that could integrate with extension systems. The studies highlighted tipping points for digital disruption in agriculture through
The presentation is by P Kumar, IARI and P K Joshi, IFPRI from the one day workshop on ‘Pulses for Nutrition in India: Changing Patterns from Farm-to-Fork’ organized on Jan 14, 2014. The workshop is based on a few studies conducted by the International Food Policy Research Institute under the CGIAR’s Research Program on Agriculture for Nutrition and Health. These studies covered the entire domain of pulse sector in India from production to consumption, prices to trade, processing to value addition, and from innovations to the role of private sector in strengthening the entire pulse value chain. These studies were designed to better understand the drivers of changing dynamics of pulses in the value chain from farm-to-fork, and explore opportunities for meeting their availability through increased production, enhanced trade and improved efficiency.
WHEAT: The Vital Grain of Civilization and Food SecurityCIMMYT
Wheat is a vital staple crop that is grown on 215 million hectares worldwide, an area equivalent to the size of Greenland. Nearly $50 billion worth of wheat is traded globally each year. Wheat provides a key source of protein for many developing countries, and is the dominant staple crop in North Africa and Central Asia, providing up to half of daily calories. Meeting rising global demand for wheat by 2050 will require growing 60% more wheat than today. While improved varieties and practices have increased wheat production since the 1960s, extreme weather and market instability have caused price spikes that harm poor consumers. Continued development of new wheat technologies and policies can help meet accelerating global demand in a sustainable way.
Agritech for effective agriculture managementMohammad Jilani
The document discusses the role of agricultural technology (AgriTech) in improving farming and meeting future food demands. AgriTech uses technology to increase agricultural efficiency, production, and farmer profits. Technologies like drones, mobile apps, ICT, and smart machines help farmers monitor crops, access market and weather information, and boost yields. These innovations are important for fulfilling the 70% increase in global food needs by 2050 and making agriculture a more attractive sector.
Regional dynamics of production and consumption of ICRISAT mandate cropsICRISAT
This document summarizes regional production trends of ICRISAT mandate crops (sorghum, millets, chickpea, pigeonpea, groundnut) from 1980-2006. It finds that while global yields are stagnant, yields are rising in West and Central Africa. In Asia, area and production are declining but yields are growing. It also analyzes consumption patterns, production constraints, and price trends for each crop over this period.
Agri Tech Startups: Redefining Indian AgricultureShailesh Herale
This presentation highlights the concept of startup and current scenario of agritech startups, government support/incubators/ accelerators related to agritech startup, bottlenecks for agritech startups in India and case studies highlighting innovative agritech solutions.
The demand for agricultural robots is growing owing to the increasing applications in smart farming areas including precision crop farming, livestock monitoring and management, indoor farming, aquaculture, forestry, and orchids, among others. Farmers across the world are using semi-autonomous tractors to reduce multiple trips for farm monitoring, hence reducing crop damage, and fuel consumption. Moreover, there has been a surge in the utilization of milking robots by livestock producers. Automatic imaging, sensing, handling, and processing of agricultural produce for harvesting and weeding is becoming common with the introduction of picking robots in the agricultural industry.
Agricultural Robots Market is Projected to reach $20.3 billion by 2025 With C...KiranDeshmukh42
The global Agricultural Robots Market is projected to grow from USD 4.6 billion in 2020 to USD 20.3 billion by 2025; it is expected to grow at a CAGR of 34.5 % during the forecast period.
Economic analysis of High Valued Crops. i.e. Carnation FlowerYogeshballal
The Study was conducted at Waghapur (Purandar tehsil of Pune District). It Involves study of Foundation of Polyhouse and Greenhouse Structure to Marketing of Carnation flower.
M2M/IoT Applications in the Agricultural Industryjohanfagerberg
How will the market for agricultural M2M and IoT applications evolve in 2018 and beyond? Berg Insight covers the latest trends and developments in the emerging smart farming market. Berg Insight forecasts that the number of installed wireless devices for applications in agricultural production is forecasted to grow at a CAGR of 10.0 percent from 17.0 million connections at the end of 2016 to 27.4 million connected devices by 2021. Cellular connections amounted to 0.8 million at the end of 2016 and is expected to grow at a CAGR of 30.2 percent to reach 3.1 million in 2021. Get up to date with the latest information about vendors, products and markets.
During the Africa Regional Planning Meetings held at Harare on 26, 27 April 2016 reviewed the overall programs and action plan and discussed on these objectives :Improved understanding of consumer demand for sorghum and millets in four ESA countries (Kenya, Ethiopia, Tanzania, Uganda). Consumption disaggregated by rural/urban, income, and proximity to centres of productionTrends in cereal prices, price and income elasticities of consumption Set research priorities for CGIAR research program for Dryland Cereals
This document summarizes the challenges and prospects for maize market development in Nepal. It provides an overview of maize production trends, the maize seed sector, and key challenges across the value chain from inputs to post-harvest handling and selling. These challenges include a lack of adapted varieties, weak private sector capacity, and poor infrastructure. The document then outlines CIMMYT's approach to maize market development, which involves establishing institutional mechanisms, implementing improved seed and fertilizer technologies, and scaling technologies through market promotion strategies. It details core components and interventions along the research, production, marketing, and policy dimensions to strengthen the seed system and link farmers to output markets.
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
Wheat production in Africa has increased significantly in recent decades due to improved varieties, irrigation expansion, and government support. However, Africa still imports over 40 million tons of wheat annually at a cost of over $14 billion. By 2050, wheat imports are projected to reach 60 million tons annually at a cost of over $24 billion unless domestic production increases. Studies show substantial potential to increase wheat yields and production profitably across sub-Saharan Africa through investment in research, infrastructure, and policy reforms. Key countries like Ethiopia, Nigeria, and Rwanda have begun to realize this potential through national commitments to wheat research, improved varieties, and agricultural support programs. Increased efforts are still needed across Africa to boost wheat productivity, self-
The 10 most innovative ag tech companies of 2021(5) compressedMerry D'souza
As an agtech entrepreneur, you have an opportunity and a responsibility to shape how your company practices social as well as environmental sustainability. Addressing these areas is also important if you want to achieve lasting success
IFPRI South Asia researchers Devesh Roy, Ruchira Boss, Mamata Pradhan and Manmeet Ajmani presented ‘Understanding the landscape of pulse policy in India and implications for trade’ to the Global Pulse Federation. The paper examines Indian policy around production, consumption and trade. The need for pulse trade policy in India to be supportive of Domestic priorities focused on serving interest of both India’s farmers and consumers.
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
Brian Clancey from STATPUB.com shares Global Pulses Import - Export data in this insightful presentation. Pulses production, demand, trends in import-export and future outlook as presented at India Pulses & Grains Associaiton's 'Global Pulses Conclave 2012.
This document summarizes the key topics and findings from the book "Agricultural Transformation in Nepal: Trends, Prospects and Policy Options". It discusses Nepal's agricultural sector challenges including lower and fluctuating growth, declining productivity, and rising imports. However, it also notes prospects like shifting diets driving demand, commercialization, and emerging value chains. The way forward involves ensuring food security through technology adoption, increasing public and private investment, promoting diversification, and developing domestic and regional value chains. Strengthening infrastructure, quality standards, contract farming and trade opportunities can help realize the agriculture sector's potential.
This document discusses a study that used a computable general equilibrium (CGE) model to analyze the potential impacts of adopting hydroponics technology in Pakistan's fruit and vegetable sector and on global trade. The study adapted the GTAP global CGE model with separate sectors for fruits and vegetables among 15 aggregated sectors and 30 aggregated regions including Pakistan. Simulations were run to quantify the effects of increasing hydroponics production of fruits and vegetables in Pakistan and reducing import tariffs on chemicals used as inputs. The results showed overall positive impacts on Pakistan's real GDP, sectoral exports and imports, terms of trade, and domestic prices of fruits and vegetables, indicating that adopting hydroponics technology could benefit Pakistan's macroeconomic indicators and consumer welfare.
[Webinar recording in last slide or at https://youtu.be/DMg9UI7Ur0M, 26/3/2018]
As part of its work on farmers’ data rights and following up on the face-to-face course on Farmers’ Access to Data organized in Centurion in November 2017, GFAR collaborates with the Global Open Data for Agriculture and Nutrition initiative (GODAN) and the Technical Center for Agricultural and Rural Cooperarion (CTA) on a series of webinars on data-driven agriculture, its opportunities and its challenges.
Overview of webinar #3
This webinar is a continuation of exploring digital agriculture for smallholder farmers. The first webinar provided an overview of digital agriculture, the trends impacting it, and it advantages and challenges for smallholder farmers. The second identified specific data needed by farmers, as well as potential sources.
“Crossing the Donga” will provide smallholder farmers, and those who support them, specific methods for ensuring farmer-centric solutions. The webinar will examine some of the key challenges that are blocking adoption of digital architecture by smallholder farmers. Attendees will learn a process for mapping their data needs, based on their goals and key tasks. Attendees will learn the foundational market model, and how to create value for success.
About the presenter
Dan Berne is a highly regarded professional business growth strategist with over 30 years’ experience. Dan led the effort to create an Ag Irrigation market strategy for the Northwest Energy Efficiency Alliance (NEEA). He also conducted grower experience studies to help identify barriers to grower adoption of energy saving practices. Dan wrote or co-wrote many of the NEEA Ag Irrigation reports. Dan serves as the Project Manager on AgGateway’s Precision Ag Irrigation Language data standards project. He is an affiliate of the Chasm Institute, and a certified practitioner of Innovation Games.
Dan started the “Lagom Ag Initiative” within his company to help accelerate the adoption of precision farming practices and improve the use of digital agricultural methodologies. Lagom is a Swedish word that means “just enough.” It is also used to mean “simply perfect.” It fits our philosophy of helping farmers use just enough water, just enough fertilizers, just enough energy to be profitable while increasing or maintaining yield.
Shop@Farm aims to address issues with urban organic farming and small landholding farmers by cultivating organic vegetables on unused land within residential complexes. Produce will be sold through on-site retail stores with minimal margins, providing farmers higher profits. The model generates domestic markets for organic farmers while ensuring urban residents convenient access to affordable, certified organic produce. It organizes the farming sector by assisting farmers with organic certification and legal awareness. Over three phases, Shop@Farm plans to expand to other institutions with unused land and establish an online retail presence.
Tipping Point in Digital Extension Advisory Systems: Empirical Evidences from...Shaik N. Meera
Digital extension pilots in India provided empirical evidence that digital advisories can improve farm productivity and profitability. Randomized control trials showed treatments that combined critical inputs, demonstrations and video/Whatsapp services led to higher yields than other treatments. Farmers perceived weather forecasts, market prices access and diagnostics as most useful digital services, though realized utility was lower. Industry stakeholders saw potential for disruptive technologies but barriers to adoption. Direct market interventions helped farmers realize better prices. Smartphone apps for irrigation pump control provided benefits like time savings and flexibility. Desk research found many digital startups in areas like market access, predictive analytics and financial inclusion that could integrate with extension systems. The studies highlighted tipping points for digital disruption in agriculture through
The presentation is by P Kumar, IARI and P K Joshi, IFPRI from the one day workshop on ‘Pulses for Nutrition in India: Changing Patterns from Farm-to-Fork’ organized on Jan 14, 2014. The workshop is based on a few studies conducted by the International Food Policy Research Institute under the CGIAR’s Research Program on Agriculture for Nutrition and Health. These studies covered the entire domain of pulse sector in India from production to consumption, prices to trade, processing to value addition, and from innovations to the role of private sector in strengthening the entire pulse value chain. These studies were designed to better understand the drivers of changing dynamics of pulses in the value chain from farm-to-fork, and explore opportunities for meeting their availability through increased production, enhanced trade and improved efficiency.
WHEAT: The Vital Grain of Civilization and Food SecurityCIMMYT
Wheat is a vital staple crop that is grown on 215 million hectares worldwide, an area equivalent to the size of Greenland. Nearly $50 billion worth of wheat is traded globally each year. Wheat provides a key source of protein for many developing countries, and is the dominant staple crop in North Africa and Central Asia, providing up to half of daily calories. Meeting rising global demand for wheat by 2050 will require growing 60% more wheat than today. While improved varieties and practices have increased wheat production since the 1960s, extreme weather and market instability have caused price spikes that harm poor consumers. Continued development of new wheat technologies and policies can help meet accelerating global demand in a sustainable way.
Agritech for effective agriculture managementMohammad Jilani
The document discusses the role of agricultural technology (AgriTech) in improving farming and meeting future food demands. AgriTech uses technology to increase agricultural efficiency, production, and farmer profits. Technologies like drones, mobile apps, ICT, and smart machines help farmers monitor crops, access market and weather information, and boost yields. These innovations are important for fulfilling the 70% increase in global food needs by 2050 and making agriculture a more attractive sector.
Regional dynamics of production and consumption of ICRISAT mandate cropsICRISAT
This document summarizes regional production trends of ICRISAT mandate crops (sorghum, millets, chickpea, pigeonpea, groundnut) from 1980-2006. It finds that while global yields are stagnant, yields are rising in West and Central Africa. In Asia, area and production are declining but yields are growing. It also analyzes consumption patterns, production constraints, and price trends for each crop over this period.
Agri Tech Startups: Redefining Indian AgricultureShailesh Herale
This presentation highlights the concept of startup and current scenario of agritech startups, government support/incubators/ accelerators related to agritech startup, bottlenecks for agritech startups in India and case studies highlighting innovative agritech solutions.
The demand for agricultural robots is growing owing to the increasing applications in smart farming areas including precision crop farming, livestock monitoring and management, indoor farming, aquaculture, forestry, and orchids, among others. Farmers across the world are using semi-autonomous tractors to reduce multiple trips for farm monitoring, hence reducing crop damage, and fuel consumption. Moreover, there has been a surge in the utilization of milking robots by livestock producers. Automatic imaging, sensing, handling, and processing of agricultural produce for harvesting and weeding is becoming common with the introduction of picking robots in the agricultural industry.
Agricultural Robots Market is Projected to reach $20.3 billion by 2025 With C...KiranDeshmukh42
The global Agricultural Robots Market is projected to grow from USD 4.6 billion in 2020 to USD 20.3 billion by 2025; it is expected to grow at a CAGR of 34.5 % during the forecast period.
The document discusses a report on the global smart greenhouse market from 2020-2025. It provides an overview of the smart greenhouse concept and market segmentation based on technology, type, and region. The key technologies discussed include sensors/cameras, HVAC systems, LED lights, and irrigation systems. It also profiles major industry players and provides a detailed market analysis and forecast.
Hydroponics Global Market to Reach $25 Billion by 2029 | Industry Experts, IncIndustry Experts
Industry Experts, Inc. published the latest market research report on Hydroponics. As per the new report entitled “Global Hydroponics Market – System Types, Input Types and Crop Types”, Asia-Pacific region is poised to exhibit the fastest growth during 2023-2029 with a CAGR of 12.9% closely followed by Europe with 12.6%. Europe leads the global Hydroponics market with an estimated US$4.9 billion in 2023.
The document analyzes the microirrigation systems market and its growth outlook. Key points:
- The global microirrigation systems market is expected to grow at a CAGR of 19.94% up to 2025 due to increasing need for water conservation and high crop yields.
- Microirrigation systems help farmers use water more efficiently and increase arable land under irrigation.
- Major players in the market include Nelson Irrigation, Netafim Limited, Rain Bird Corporation, and others. The market is segmented by application, type, end user, component, and region.
Food Waste Management Market Report: Industry Outlook, Latest Development and...IMARC Group
The global food waste management market grew at a CAGR of around 5% during 2015-2020. Looking forward, IMARC Group expects the global food waste management market to exhibit moderate growth during the next five years.
To learn more about this market, visit us at: https://www.imarcgroup.com/food-waste-management-market
We are regularly tracking the direct effect of COVID-19 on the market, along with the indirect influence of associated industries. These observations will be integrated into the report.
The report has categorized the market based on region, waste type, process, source and application.
For more information, request for a free sample report https://www.imarcgroup.com/food-waste-management-market/requestsample
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Floor Conveyors System Market Competitive Research And Precise Outlook 2023 T...subishsam
The research firm Contrive Datum Insights has just recently added to its database a report with the heading global Floor Conveyors System Market.Both primary and secondary research methodologies have been utilised in order to conduct an analysis of the worldwide Floor Conveyors System Market. In order to provide a comprehensive comprehension of the topic at hand, it has been summed up using appropriate and accurate market insights. According to Contrive Datum Insights, this worldwide comprehensive report is broken up into several categories in order to present the data in a way that is understandable, succinct, and presented in a professional manner.
Europe Hydroponics Market Analysis & Forecast, 2024TechSci Research
Hydroponics is a substrate-based farming technique of growing plants without soil, by using mineral nutrient solutions in a water solvent. This is an emerging technology which is gaining traction with the support of various government and non-government organizations.
Agriculture analytics industry to grow $1,236 million by 2023DheerajPawar4
[161 Pages Report] Agriculture Analytics Market size, analysis, trends, & forecast. The global market for agriculture analytics categorized by application area, component, farm size, deployment type, and by region.
Agriculture analytics market vendors by share & growth strategies 2023 ...DheerajPawar4
[161 Pages Report] To provide detailed information about major factors (drivers, restraints, opportunities, and industry-specific challenges) influencing the growth of the agriculture analytics market
Agriculture analytics market vendors by share & growth strategies 2023 ...DheerajPawar4
[161 Pages Report] Agriculture Analytics Market size, analysis, trends, & forecast. The global market for agriculture analytics categorized by application area, component, farm size, deployment type, and by region.
Agriculture analytics market is expected to grow $1,236 million by 2023DheerajPawar4
[161 Pages Report] Agriculture Analytics Market size, analysis, trends, & forecast. The global market for agriculture analytics categorized by application area, component, farm size, deployment type, and by region.
Monoclonal antibodies market is projected to reach US$ 243.05 billion by 2028 from US$ 111.01 billion in 2021; it is expected to grow at a CAGR of 11.8% from 2021 to 2028
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1. Key Questions Answered in the Report:
• What is the global smart farming market size in terms of revenue from 2017-2022 along
with the growth rate during the forecast period 2017-2022?
• What is the revenue generated by the different solutions such as hardware systems,
software, and services for smart farming market?
• What is the market size of smart farming solutions for different applications including
precision crop farming, livestock monitoring management, indoor farming, aquaculture,
and others?
• What is the smart farming market size for different regions on the basis of various
solutions and applications?
• What are the key trends and opportunities in the market pertaining to countries included
in different geographical regions?
• How attractive is the market for different stakeholders present in the industry by analyzing
the futuristic scenario of smart farming?
• What are the major driving forces that tend to increase the demand for smart farming
during the forecast period?
• What are the major challenges inhibiting the growth of the global smart farming market?
• What kind of new strategies is 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 smart farming market by
analyzing their recent developments, product offerings and regional presence?
• How are agricultural robots transforming the contemporary farming practices?
sales@bisresearch.com www.bisresearch.com 1
MORE THAN
100
COMPANIES
RESEARCHED
ACROSS THE
VALUE CHAIN
METICULOUS
COMPILATION OF
MORE THAN 700
RESEARCH HOURS
EXCLUSIVE
INSIGHTS FROM
IN-DEPTH EXPERT
INTERVIEWS
CONTAINS 93
MARKET DATA
TABLES AND 203
FIGURES SPREAD
ACROSS 360
PAGES
GLOBAL SMART FARMING MARKET
Focus on Solution (Hardware Systems, Software, Services), Application (Precision Crop
Farming, Livestock Monitoring Management, Indoor Farming, and Aquaculture) and
Agricultural Robots – Analysis and Forecast (2018-2022)
2. sales@bisresearch.com www.bisresearch.com 2
TABLE OF CONTENTS
VIEW COMPLETE
TABLE OF CONTENTS
RESEARCH SCOPE
METHODOLOGY
COMPANY PROFILES
MARKET DYNAMICS
COMPETITIVE LANDSCAPE
INDUSTRY ANALYSIS
GLOBAL SMART FARMING
MARKET (BY SOLUTION)
AGRICULTURAL ROBOTS IN GLOBAL
SMART FARMING MARKET
GLOBAL SMART FARMING MARKET
(BY APPLICATION)
GLOBAL SMART FARMING MARKET
(BY REGION)
■ Precision Crop Farming
■ Ag Leader Technology
■ AGCO Corporation
■ CNH Industrial
■ Deere Company
■ Dickey-JOHN
■ Raven Industries
■ SST Development Group Inc
■ The Climate Corporation
■ Topcon Corporation
■ Trimble Inc.
■ Livestock Monitoring and
Management
■ Afimilk Ltd.
■ Allflex USA Inc.
■ Boumatic LLC
■ Dairymaster
■ DeLaval
■ Fullwood Ltd.
■ Indoor Farming
■ Cree Inc.
■ General Hydroponics
■ Osram Licht AG
■ Signify Holding
■ Aquaculture
■ AKVA Group ASA
■ Eruvaka Technologies
■ XpertSea
■ Agricultural Robotics (Exclusive)
■ 3D Robotics
■ DJI Innovations
■ Scope of the Report
■ Global Smart Farming Market
Research Methodology
• Drivers
• Restraints
• Opportunities
• Key Market Developments Strategies
• Market Share Analysis
• Industry Attractiveness • Opportunity Matrix
• Hardware Systems
• Automation and
Control Systems
• Sensing and
Navigation
Systems
• Indoor Farming
Equipment
• Other Hardware
Systems
• Software
• On-Cloud Delivery
Model
• On- Premise
Delivery Model
• Services
• Integration and
Deployment
• Maintenance and
Support
• Others Services
• Agricultural Robots in
Global Smart Farming
Market (by Type)
• Unmanned Aerial
Vehicles (UAVs)/
Drones
• Milking Robots
• Harvesting and
Picking Robots
• Others
• Agricultural Robots
in Global Smart
Farming Market (by
Application)
• Crop Management
• Dairy Farm
Management
• Soil Management
• Irrigation
Management
• Others
• Precision Crop Farming
• Precision Irrigation
• Yield Monitoring
and Forecasting
• Variable Rate
Application
• Crop Scouting
• Record Keeping
• Others
• Livestock Monitoring
and Management
• Milk Harvesting
• Animal Health
Monitoring and
Comfort
• Feeding
Management
• Heat Stress and
Fertility Monitoring
• Others
• Indoor Farming
• HVAC Management
• Lighting
Management
• Plant Development
Monitoring
• Others
• Aquaculture
• Feed Management
• Aquatic Species
Tracking and
Navigation
• Water Quality
Management
• Others
• Others
• North America
• North America (by
Solution)
• North America (by
Application)
• North America (by
Country)
• U.S.
• Canada
• Mexico
• Europe
• Europe by (by
Solution)
• Europe by (by
Application)
• Europe by (by
Country)
• Germany
• U.K.
• France
• Italy
• Spain
• Netherlands
• Rest of
Europe
• Asia-Pacific
• Asia-Pacific (by
Solution)
• Asia-Pacific (by
Application)
• Asia-Pacific (by
Country)
• China
• Japan
• Australia and
New Zealand
• India
• South Korea
• Thailand
• Rest of Asia-
Pacific
• Rest of the World
• Rest of the World
(by Solution)
• Rest of the World
(by Application)
• Rest of the World
(by Country)
• Brazil
• Argentina
• Israel
• South Africa
• Others
3. LIST OF TABLES
sales@bisresearch.com www.bisresearch.com 3
1 Analyzing the Threat of New Entrants
2 Analyzing Bargaining Power of Buyers
3 Analyzing the Bargaining Power of Suppliers
4 Analyzing the Threat from Substitutes
5 Analyzing the Intensity of Competitive Rivalry
6 Global Smart Farming Market (by Solution),
2017-2022
7 Hardware Systems in Global Smart Farming
Market (by Type), 2017-2022
8 Displays/Yield Monitors by Key Companies
9 Flow and Application Rate Control Valves by Key
Companies
10 Handheld Computers/Mobile Devices by Key
Companies
11 Agricultural Cameras by Key Companies
12 Other Automation and Control Systems by Key
Companies
13 Sensing Systems by Key Companies
14 GPS/GNSS Systems by Key Companies
15 Guidance and Steering Systems by Key
Companies
16 RFID Tags and Readers by Key Companies
17 Climate Control Systems by Key Companies
18 LED Grow Lights by Key Companies
19 Other Indoor Farming Equipment by Key
Companies
20 Other Hardware Systems by Key Companies
21 Software by Key Companies
22 Software in Global Smart Farming Market (by
Delivery Model), 2017-2022
23 Smart Farming Services Offered by Key
Companies
24 Services in Global Smart Farming Market, (by
Type), 2017-2022
25 Agricultural Robots in Global Smart Farming
Market, (by Type), 2017-2022
26 UAVs/Drones by Leading Companies for Smart
Farming
27 Milking Robots by Leading Companies for Smart
Farming
28 Harvesting and Picking Robots by Leading
Companies for Smart Farming
29 Other Agricultural Robots by Leading Companies
for Smart Farming
30 Agricultural Robots in Global Smart Farming
Market (by Application), 2017-2022
31 Driverless Tractors by Leading Companies for
Smart Farming
32 Global Smart Farming Market (by Application),
2017-2022
33 Precision Crop Farming in Global Smart Farming
Market, 2017-2022
34 Precision Irrigation Products Launched by Key
Companies
35 Yield Monitoring and Forecasting Products by Key
Companies
36 Variable Rate Application Products by Key
Companies
37 Crop Scouting Products by Key Companies
38 Record Keeping Products by Key Companies
39 Other Precision Crop Farming Products by Key
Companies
40 Livestock Monitoring and Management in Global
Smart Farming Market, 2017-2022
41 Milk Harvesting Systems and Services by Key
Companies
42 Animal Health Monitoring and Comfort Systems
and Services by Key Companies
43 Feeding Management Solutions by Key
Companies
44 Heat Stress and Fertility Monitoring Solutions by
Key Companies
45 Indoor Farming in Global Smart Farming Market,
2017-2022
46 HVAC Management Solutions by Key Companies
47 Lighting Management Solutions by Key
Companies
48 Plant Development Monitoring Solutions by Key
Companies
49 Other Indoor Farming Solutions by Key
Companies
50 Aquaculture in Global Smart Farming Market,
2017-2022
51 Feed Management Solutions by Key Companies
52 Aquatic Species Tracking and Navigation
Solutions by Key Companies
53 Water Quality Management Solutions by Key
Companies
54 Other Aquaculture Solutions by Key Companies
55 Products in Other Application Areas in Smart
5. sales@bisresearch.com www.bisresearch.com 5
LIST OF FIGURES
1 Macroeconomic Trends Impacting the Farming
Industry Growth
2 Drivers and Restraints-Global Smart Farming
Market
3 Global Smart Farming Market Snapshot
4 Global Smart Farming Market (by Solution),
2017 and 2022
5 Global Smart Farming Market (by Application),
$Million 2017-2022
6 Global Smart Farming Market (by Region), 2017-
2022
7 Global Smart Farming Market (by Country),
2017-2022
8 Agricultural Robots in Global Smart Farming
Market (by Type and by Application), 2017 and
2022
9 Market Dynamics
10 Impact Analysis of Drivers
11 Global Average Yield (by Crop Types), 2001,
2006, 2011, and 2016 (hectogramme/hectare)
12 Role of ICT in Farming
13 Mean Temperature Change of Meteorological
Year, 1961-2017 (Degree Celsius)
14 Projected Annual Growth Rate of Total Livestock
Production, 2015-2030
15 Global Dairy Cow Numbers, 2011-2014
16 Impact Analysis of Restraints
17 Contribution of 3D Printing Applications, 2017
and 2022
18 Applications of Blockchain Technology in
Agriculture
19 Strategies Adopted by the Key Players
20 Share of Key Market Strategies and
Developments
21 Product Launches and Development Share (by
Companies)
22 Business Expansion and Contracts Share (by
Companies)
23 Partnerships, Collaborations, and Joint Ventures
Share (by Companies)
24 Mergers and Acquisitions Share (by Companies)
25 Hardware Systems Manufacturers Market Share
Analysis, 2017
26 Software Providers Market Share Analysis, 2017
27 Market Share Analysis of Leading Companies in
Global Livestock Monitoring and Management
Market, 2017 (%)
28 Porter’s Five Forces Analysis for the Smart
Farming Market
29 Global Smart Farming Market Opportunity
Matrix, (by Region), 2017-2022
30 Global Smart Farming Market (by Solution)
31 Global Smart Farming Market (by Solution),
2017, 2018, and 2022
32 Hardware Systems in Global Smart Farming
Market, 2017-2022
33 Hardware Systems in Global Smart Farming
Market (by Type), 2017, 2018 and 2022
34 Automation and Control Systems (by Type),
2017-2022
35 Hardware Systems in Global Smart Farming
Market (Automation and Control Systems),
2017-2022
36 Sensing and Navigation Systems (by Type),
2017-2022
37 Hardware Systems in Global Smart Farming
Market (Sensing and Navigation Systems),
2017-2022
38 Indoor Farming Equipment (by Type), 2017-2022
39 Hardware Systems in Global Smart Farming
Market (Indoor Farming Equipment), 2017-2022
40 Other Hardware Systems Market in Global Smart
Farming Market, 2017-2022
41 Software in Global Smart Farming Market, 2017-
2022
42 Software in Global Smart Farming Market, By
Delivery Type 2017, 2018 and 2022
43 Advantages of On-Cloud Delivery Model
44 Advantages of On-Premise Delivery Model
45 Services in Global Smart Farming Market, 2017-
2022
46 Services in Global Smart Farming Market (by
Type), 2017-2022
47 Services in Global Smart Farming Market, (by
Type) 2017, 2018 and 2022
48 Services in Global Smart Farming Market
(Integration and Deployment), 2017-2022
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49 Services in Global Smart Farming Market
(Maintenance and Support), 2017-2022
50 Services in Global Smart Farming Market
(Others), 2017-2022
51 Agricultural Robots in Global Smart Farming
Market, 2017-2022
52 Opportunities and Challenges for Agricultural
Robots
53 Agricultural Robots in Global Smart Farming
Market, 2017-2022
54 Agricultural Robots in Global Smart Farming
Market (by Type), 2017, 2018, and 2022
55 Key Types of UAV/Drone
56 Major Applications of UAV/Drone for Smart
Farming
57 Benefits of Milking Robots
58 Agricultural Robots in Global Smart Farming
Market (by Application), 2017-2022
59 Agricultural Robots in Smart Farming Market (by
Application), 2017, 2018, and 2022
60 Advantages of Driverless Tractors in Farming
61 Global Smart Farming Market (by Application
Areas), 2017-2022
62 Global Smart Farming Market (by Application),
2017, 2018, and 2022
63 Precision Crop Farming Application Area (by
Type), 2017-2022
64 Precision Crop Farming in Global Smart Farming
Market, 2017, 2018, and 2022
65 Precision Crop Farming in Global Smart Farming
Market (Precision Irrigation), 2017-2022
66 Precision Crop Farming in Global Smart Farming
Market (Yield Monitoring and Forecasting), 2017-
2022
67 Precision Crop Farming in Global Smart Farming
Market (Variable Rate Application), 2017-2022
68 Precision Crop Farming in Global Smart Farming
Market (Crop Scouting), 2017-2022
69 Importance of Record Keeping
70 Types of Records to be Kept
71 FPrecision Crop Farming in Global Smart Farming
Market (Record Keeping), 2017-2022
72 Precision Crop Farming in Global Smart Farming
Market (Others), 2017-2022
73 Livestock Monitoring and Management
Application Area (by Type), 2017-2022
74 Livestock Monitoring and Management in Global
Smart Farming Market, 2017, 2018, and 2022
75 Performance Factors of Milk Harvesting System
76 Livestock Monitoring and Management in
Global Smart Farming Market (Milk Harvesting
Application), 2017-2022
77 Global Milk Production, 2013-2016
78 Dairy Cow Population and Production in Key
Economies, 2015
79 Livestock Monitoring and Management in Global
Smart Farming Market (Animal Health Monitoring
and Comfort), 2017-2022
80 Livestock Monitoring and Management in Global
Smart Farming Market (Feeding Management),
2017-2022
81 Advantages of Liquid Feeding System Over Dry
Feeding Systems
82 Livestock Monitoring and Management in Global
Smart Farming Market (Heat Stress and Fertility
Monitoring), 2017-2022
83 Livestock Monitoring and Management in Global
Smart Farming Market (Others), 2017-2022
84 Indoor Farming Application Area (by Type),
2017-2022
85 Indoor Farming in Global Smart Farming Market,
2017, 2018, and 2022
86 Indoor Farming in Global Smart Farming Market
(HVAC Management), 2017-2022
87 Indoor Farming in Global Smart Farming Market
(Lighting Management), 2017-2022
88 Indoor Farming in Global Smart Farming Market
(Plant Development Monitoring), 2017-2022
89 Indoor Farming in Global Smart Farming Market
(Others), 2017-2022
90 Aquaculture Application Area (by Type), 2017-
2022
91 Aquaculture in Global Smart Farming Market,
2017, 2018, and 2022
92 Aquaculture in Global Smart Farming Market
(Feed Management), 2017-2022
93 Aquaculture in Global Smart Farming Market
(Aquatic Species Tracking and Navigation),
2017-2022
94 Aquaculture in Global Smart Farming Market
(Water Quality Management), 2017-2022
95 Aquaculture in Global Smart Farming Market
(Others), 2017-2022
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96 Global Smart Farming Market, Market Share and
CAGR (by Region)
97 North America Smart Farming Market, 2017-
2022
98 North America Smart Farming Market (by
Solution), 2017, 2018, and 2022
99 North America Smart Farming Market (by
Application), 2017-2022
100 North America Smart Farming Market (by
Country), 2017-2022
101 Smartphone Market Penetration in the U.S.,
2012-2016 (%)
102 The U.S. Smart Farming Market, 2017-2022
103 Average Farm Size and the Number of Farms in
Canada, 2006, 2011, and 2016
104 Canada Smart Farming Market, 2017-2022
105 Mexico Smart Farming Market, 2017-2022
106 Europe Smart Farming Market, 2017-2022
107 Europe Smart Farming Market (by Solution)
2017, 2018, and 2022
108 Europe Smart Farming Market (by Application),
2017-2022
109 Europe Smart Farming Market (by Country),
2017-2022
110 Adoption Rate of Agricultural Innovations (by
German Farmers), 2016 (%)
111 Germany Smart Farming Market, 2017-2022
112 The U.K. Smart Farming Technology Adoption
Curve
113 The U.K. Smart Farming Market, 2017-2022
114 France Smart Farming Market, 2017-2022
115 Italy Smart Farming Market, 2017-2022
116 Spain Smart Farming Market, 2017-2022
117 The Netherlands Smart Farming Market, 2017-
2022
118 Rest-of-Europe Smart Farming Market, 2017-
2022
119 Asia-Pacific Smart Farming Market, 2017-2022
120 Asia-Pacific Smart Farming Market (by Solution),
2017-2022
121 Asia-Pacific Smart Farming Market (by
Application), 2017-2022
122 Asia-Pacific Smart Farming Market (by Country),
2017-2022
123 Employment in Agriculture (Percentage of total
employment) in China, 1991 and 2017
124 China Smart Farming Market, 2017-2022
125 Japan Smart Farming Market, 2017-2022
126 Australia and New Zealand Smart Farming
Market, 2017-2022
127 Land under Cultivation in India, 2010-2013
128 India Smart Farming Market, 2017-2022
129 South Korea Smart Farming Market, 2017-2022
130 Thailand Smart Farming Market, 2017-2022
131 Rest-of-Asia-Pacific Smart Farming Market,
2017-2022
132 Rest-of-the-World (RoW) Smart Farming Market,
2017-2022
133 Rest-of-the-World (RoW) Smart Farming Market
(by Solution), 2017-2022
134 Rest-of-the-World (RoW) Smart Farming Market
by Application, 2017-2022
135 Brazil Smart Farming Market, 2017-2022
136 Argentina Smart Farming Market, 2017-2022
137 Israel Smart Farming Market, 2017-2022
138 South Africa Smart Farming Market, 2017-2022
139 Other Countries of RoW Smart Farming Market,
2017-2022
140 Share of Key Companies
141 Ag Leader Technology: SWOT Analysis
142 AGCO Corporation: Overall Financials, 2015-
2017
143 AGCO Corporation: Net Revenue (by Region),
2015-2016
144 AGCO Corporation: Net Revenue (by Region),
2017
145 AGCO Corporation: Net Revenue by Business
Segment, 2015-2017
146 AGCO Corporation: SWOT Analysis
147 CNH Industrial: Overall Financials, 2015-2017
148 CNH Industrial: Net Revenue (by Region), 2015-
2017
149 CNH Industrial: Net Revenue by Business
Segment, 2015-2017
150 CNH Industrial: SWOT Analysis
151 Deere and Company: Overall Financials, 2015-
2017
152 Deere and Company: Net Revenue (by Region),
2015-2017
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153 Deere and Company: Net Revenue by Business
Segment, 2015-2017
154 Deere and Company: SWOT Analysis
155 DICKEY-John: SWOT Analysis
156 Raven Industries Inc.: Overall Financials, 2016-
2018
157 Raven Industries Inc.: Net Revenue (by Region),
2016-2018
158 Raven Industries Inc.: Net Revenue by Business
Segment, 2016-2018
159 Raven Industries Inc.: SWOT Analysis
160 SST Development Group, Inc.: SWOT Analysis
161 The Climate Corporation: SWOT Analysis
162 Topcon Corporation: Overall Financials, 2015-
2017
163 Topcon Corporation: Net Revenue (by Region),
2015-2017
164 Topcon Corporation: Net Revenue by Business
Segment, 2015-2017
165 Topcon Corporation: SWOT Analysis
166 Trimble Inc.: Overall Financials, 2015-2017
167 Trimble Inc.: Net Revenue (by Region), 2015-
2017
168 Trimble Inc.: Net Revenue by Business Segment,
2015-2016
169 Trimble Inc.: Net Revenue by Business Segment,
2017
170 Trimble Inc.: SWOT Analysis
171 Afimilk Ltd.: SWOT Analysis
172 Allflex Inc.: SWOT Analysis
173 Boumatic LLC: SWOT Analysis
174 Dairymaster: SWOT Analysis
175 DeLaval: SWOT Analysis
176 Fullwood Ltd.: SWOT Analysis
177 Cree Inc.: Overall Financials, 2015-2017
178 Cree Inc.: Net Revenue by Business Segment,
2015-2017
179 Cree Inc.: Net Revenue (by Region), 2015-2017
180 Cree Inc.: SWOT Analysis
181 General Hydroponics: SWOT Analysis
182 Osram Licht AG: Overall Financials, 2015-2017
183 Osram Licht AG: Net Revenue (by Region),
2015-2017
184 Osram Licht AG: Net Revenue by Business
Segment, 2015-2017
185 Osram Licht AG: SWOT Analysis
186 Signify Holding: Overall Financials, 2015-2017
187 Signify Holding: Net Revenue (by Region), 2015-
2017
188 Signify Holding: Net Revenue (by Business
Segment), 2015-2017
189 Signify Holding: SWOT Analysis
190 AKVA Group: Overall Financials, 2015-2017
191 AKVA Group: Net Revenue (by Region), 2015-
2017
192 AKVA Group: Net Revenue (by Business
Segment), 2015-2017
193 AKVA Group: SWOT Analysis
194 Eruvaka Technologies: SWOT Analysis
195 Xpert Sea: SWOT Analysis
196 3D Robotics: SWOT Analysis
197 DJI Innovations: SWOT Analysis
198 Smart Farming Market Scope
199 Report Design
200 Primary Interview Breakdown, by Companies,
Designation, and Region
201 Sources of Secondary Research
202 Data Triangulation
203 Top-Down and Bottom-Up Approach
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1 Research Scope BIS Methodology
1.1 Scope of the Report
The report is a thorough study of the smart farming market share and market size including the analysis
by different solution and application. The report also comprises detailed study of different types of
agricultural robots and its applications. The smart farming market by region has also been extensively
analyzed in this report including the market trends across the regions. Further, the market estimated in
different sections of the report considered “2017-2022” as the forecast period.
1.2 Smart Farming Market Research Methodology
The research methodology design adopted for this specific study includes a mix of data collected from
primary and secondary sources. The research exhaustively use both primary sources (in-house experts,
industry leaders and market players) and secondary sources (a host of paid and unpaid databases) along
with analytical tools to build forecast and predictive models.
Primary Data Sources
The primary sources involve the industry experts from the smart farming market. In the extensive primary
research process undertaken for this study, the primary sources further include industry experts and
key executives from prominent companies, research organizations and agricultural associations. All such
resources have been interviewed to obtain and verify both the qualitative and the quantitative aspects of
this research study.
The key data points taken from primary sources include:
• Validation and triangulation of all the numbers and graphs
• Validation of report’s segmentation and key qualitative findings
• Understanding the competitive landscape
• Validation of the numbers of the various market segments for smart farming
• Percentage split for regional analysis
The research includes interviews with participants throughout the value chain. An extensive questionnaire
was shared to get insights from the experts who didn’t participate in discussions. In some cases where
information was not available, Delphi method was used to arrive at mutual consent with BIS consultants
10. sales@bisresearch.com www.bisresearch.com 10
Secondary Data Sources
The research study involves the usage of extensive secondary sources such as databases, company
websites, and annual reports, among others. It also makes use of databases such as Hoovers, Bloomberg,
Business-week, and Factiva to collect useful information for an extensive, market-oriented, and commercial
study of the global market. Secondary research was done in order to obtain crucial information about the
industry’s value chain, market’s monetary chain, total pool of key players, and the prevalent systems and
application types. The following figure exhibits key secondary data sources considered
The following figure exhibits Secondary data Sources considered:
Figure 1.2 Secondary data Sources
PARAMETERS SOURCES
MARKET SIZE
(Value)
• Company Financials
• Magazines
• Journals
• Press Releases
• Paid Databases, and
• BIS Research Data Repository
REVENUE OF
COMPANIES
• Annual Reports
• Company Websites
• Public Databases, and
• BIS Research Data Repository
QUALITATIVE INFORMATION
(Market Dynamics,
Market Trends)
• Company Websites
• Annual Reports
• Press Releases, and
• BIS Research Data Repository
BIS Research Analysis
11. sales@bisresearch.com www.bisresearch.com 11
The process of market engineering involves calculation of the market statistics, market size estimation,
market forecast, market crackdown, and data triangulation (the methodology for these quantitative data
processes is explained in the further sections). An extensive primary research study was undertaken to
gather information, and authenticate the critical numbers arrived through segmentation types, industry
trends, and key players of each type of products in the market.
Figure 1.3 Data Triangulation
SECONDARY SOURCESPRIMARY SOURCES
• Annual reports of key industrial
players
• SEC Filings
• 10K reports
• Investor Presentations
• Journals
• Press Releases
• Paid Unpaid Databases
• Food Agriculture Organization
Reports
• Livestock Industry Associations
• USDA Foreign Agricultural Service
Reports
Interviews With:
• Stockmen
• Agronomists
• OEMs
• System Integrators
• Agriculture Consultants
DEMANDSIDE
Interviews With:
• Software Providers
• Service Providers
• Component Manufacturers
• Distributors
SUPPLYSIDE
INFORMATION SOURCED
Key Players Competitive Landscape
Macro-economic Factors
Opportunities/
Challenges
Market Estimates
Market Size and Market
Share (2017-2022)
Geographical
Analysis
PRIMARY
SOURCE
SECONDARY
SOURCE
DATA
TRIANGULATION
INFORMATION
SOURCED
BIS Research Analysis
REQUEST FOR
SAMPLE