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ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU From May until October, the cows graze in a nature reserve area of 250 hectares, comprised of a delta of many mud flats and salt marshes with trenches that fill up twice a day with the salty Schelde water. FRUIT FARMING TECHNOLOGY TRAILS IN THE EU In high-value crops, crop quality is key, as it determines the price that can be achieved. In contrast to commodities like corn or grain which need a big surface area to provide a sustainable farming income, high value crops require less surface area to achieve that. MEAT FARMING TECHNOLOGY TRAILS IN THE EU The team brings existing data streams on a pig farm together in one dashboard. Moreover, they enrich the dashboard with external data from the slaughterhouse and include data analysis, for example in light of boar taint prevention. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU From May until October, the cows graze in a nature reserve area of 250 hectares, comprised of a delta of many mud flats and salt marshes with trenches that fill up twice a day with the salty Schelde water. FRUIT FARMING TECHNOLOGY TRAILS IN THE EU In high-value crops, crop quality is key, as it determines the price that can be achieved. In contrast to commodities like corn or grain which need a big surface area to provide a sustainable farming income, high value crops require less surface area to achieve that. MEAT FARMING TECHNOLOGY TRAILS IN THE EU The team brings existing data streams on a pig farm together in one dashboard. Moreover, they enrich the dashboard with external data from the slaughterhouse and include data analysis, for example in light of boar taint prevention. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making. VEGETABLE FARMING TECHNOLOGY TRAILS IN THE EU Vegetables. With the vegetable sector amounting to around 10% of the total agricultural output value in the EU, vegetables represent one of the most important food categories in European supermarkets. EVENTS RELATED TO THE INTERNET OF FOOD AND FARM The Internet of Food and Farm 2020 project is delighted to invite you to its final event. As IoF2020 is coming to an end, we are now celebrating its legacy.NEWS - IOF2020
Latest news on farming innovation in Europe. ATLAS Horizon 2020 Project - Open Call The ATLAS Horizon 2020 project (Agricultural Interoperability and Analysis System) is developing an open, distributed, and extensible data platform based on a microservice architecture that will offer innovative, data-driven services inagriculture.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
INTERNET OF FOOD AND FARM 2020 Internet of Food and Farm 2020 - IoF2020 D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx D3.6 ENHANCEMENT AND CONFIGURATION OF OPEN PLATFORMS AND The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sus-tainable food value chain. With the help of IoT technologies higher yields and better -quality produce are EVENTS RELATED TO THE INTERNET OF FOOD AND FARM The Smart Connectivity Digital Innovation Hub Network is organizing a webinar. The ScODIHNet initiative is contributing to the European Industry Digitalisation helping companies to improve their processes, products, and services through the use of connectivity technologies. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU From May until October, the cows graze in a nature reserve area of 250 hectares, comprised of a delta of many mud flats and salt marshes with trenches that fill up twice a day with the salty Schelde water. MEAT FARMING TECHNOLOGY TRAILS IN THE EU The team brings existing data streams on a pig farm together in one dashboard. Moreover, they enrich the dashboard with external data from the slaughterhouse and include data analysis, for example in light of boar taint prevention. D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU From May until October, the cows graze in a nature reserve area of 250 hectares, comprised of a delta of many mud flats and salt marshes with trenches that fill up twice a day with the salty Schelde water. MEAT FARMING TECHNOLOGY TRAILS IN THE EU The team brings existing data streams on a pig farm together in one dashboard. Moreover, they enrich the dashboard with external data from the slaughterhouse and include data analysis, for example in light of boar taint prevention. D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT Introducing Internet of Food & Farm 2020. The internet of things (IoT) has revolutionary potential. A smart web of sensors, actuators, cameras, robots, drones and other connected devices allows for an unprecedented level of control and automated decision-making.NEWS - IOF2020
Latest news on farming innovation in Europe. ATLAS Horizon 2020 Project - Open Call The ATLAS Horizon 2020 project (Agricultural Interoperability and Analysis System) is developing an open, distributed, and extensible data platform based on a microservice architecture that will offer innovative, data-driven services inagriculture.
EVENTS RELATED TO THE INTERNET OF FOOD AND FARM The Internet of Food and Farm 2020 project is delighted to invite you to its final event. As IoF2020 is coming to an end, we are now celebrating its legacy. VEGETABLE FARMING TECHNOLOGY TRAILS IN THE EU Vegetables. With the vegetable sector amounting to around 10% of the total agricultural output value in the EU, vegetables represent one of the most important food categories in European supermarkets. ARABLE TECHNOLOGY TRAILS IN THE EU Introduction. One of the biggest problems farmers face is the interoperability of farming equipment due to different digital standards. This lack of interoperability is not only obstructing the adoption of new IoT technologies and slowing down their growth in Europe, it also inhibits the gain of production efficiency through smart farming methods. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. D3.6 ENHANCEMENT AND CONFIGURATION OF OPEN PLATFORMS AND D3.6. Enhancement and Configuration of Open Platforms and reusable Components.docx Page 2 of 106 . DOCUMENT IDENTIFICATION . ProjectAcronym IoF2020
EVENTS RELATED TO THE INTERNET OF FOOD AND FARM The Smart Connectivity Digital Innovation Hub Network is organizing a webinar. The ScODIHNet initiative is contributing to the European Industry Digitalisation helping companies to improve their processes, products, and services through the use of connectivity technologies. D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU The demands for sustainable production in the competitive pig farming industry can only be met when the whole production chain from farm to fork becomes more efficient. To optimise the management of pig farms, data collection and analysis are key. This use case focuses on linking data across the value chain to provide the pig farmers with the MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU The demands for sustainable production in the competitive pig farming industry can only be met when the whole production chain from farm to fork becomes more efficient. To optimise the management of pig farms, data collection and analysis are key. This use case focuses on linking data across the value chain to provide the pig farmers with the MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farming industry. The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sustainable food value chain. With the help of IoT technologies higher yields and better qualityproduce are
MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
EVENTS RELATED TO THE INTERNET OF FOOD AND FARM March 16 - Day 1: State of the art technology. In a series of transversal workshops, you have the occasion to learn everything that happened in the 33 IoF2020 use cases to detail. What is the technology used, the issues faced and the solutions. March 17 – Day 2: Lessons learned during the project’s research and impact of IoF2020. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Quality data to calibrate sensors remotely will improve milk quality monitoring. In the dairy trial, IoT technology helps to use resources more efficiently, ensure high quality milk, improve animal welfare and decrease environmental impact. The use cases will utilize the platform 365Farmnet to enable the seamless exchange of IoT data and services. ARABLE TECHNOLOGY TRAILS IN THE EU Arable farming represents the largest agricultural sector in the EU in terms of acreage (60% in 2013) and number of primary production holdings. The sector has important ambitions, such as increasing production for food, feed, bio-based products and energy with the same or less input. At the same time, the sector faces several challenges. INTERNET OF FOOD AND FARM 2020 Overall, IoT and other technologies can help organic farmers to better deal with diversity, maintaining and enhancing it. There are at least four reasons why IoT can be, and in certain cases already is, of great help to organic: 1) Organic farming is knowledge intensive and the more information farmers have, the better they can apply prevention ARABLE TECHNOLOGY TRAILS IN THE EU Introduction. In the European Union, arable farming is the largest agricultural sector. However, the sector is facing increasing competition and scrutiny, as consumers look for greater transparency, sustainable practices, and improved energy efficiency. This use case offers a great opportunity for farmers to address the consumers’concerns
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 NEWS - DECISION SUPPORT SYSTEMS FOR AGRICULTURE - IOF2020 DSS are software-based systems that gather and analyse data from a variety of sources. Their purpose is to smoothen the decision-making process for management, operations, planning, or optimal solution path recommendation. In the agricultural sector, it helps farmers to solve complex issues related to crop production. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU The demands for sustainable production in the competitive pig farming industry can only be met when the whole production chain from farm to fork becomes more efficient. To optimise the management of pig farms, data collection and analysis are key. This use case focuses on linking data across the value chain to provide the pig farmers with the MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU The demands for sustainable production in the competitive pig farming industry can only be met when the whole production chain from farm to fork becomes more efficient. To optimise the management of pig farms, data collection and analysis are key. This use case focuses on linking data across the value chain to provide the pig farmers with the MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farming industry. The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sustainable food value chain. With the help of IoT technologies higher yields and better qualityproduce are
MEAT FARMING TECHNOLOGY TRAILS IN THE EU Animal output for meat production accounts for 24.8% of the total EU-28 agricultural output. The sector has been dealing with numerous challenges such as animal welfare, foreign competition, climate impact and antibiotic resistance. The meat trial aims to demonstrate how technology can help face these challenges. Early warning systemsincrease
EVENTS RELATED TO THE INTERNET OF FOOD AND FARM March 16 - Day 1: State of the art technology. In a series of transversal workshops, you have the occasion to learn everything that happened in the 33 IoF2020 use cases to detail. What is the technology used, the issues faced and the solutions. March 17 – Day 2: Lessons learned during the project’s research and impact of IoF2020.FINAL EVENT
The Internet of Food & Farm 2020 (IoF2020) project came to an end on 31 March 2021. Hence, we celebrated its legacy with a final digital event, gathering partners, experts and members of the European institutions. The event addressed three main aspects, which are relevant for the project and the agricultural sector alike: state ofthe art
ARABLE TECHNOLOGY TRAILS IN THE EU Arable farming represents the largest agricultural sector in the EU in terms of acreage (60% in 2013) and number of primary production holdings. The sector has important ambitions, such as increasing production for food, feed, bio-based products and energy with the same or less input. At the same time, the sector faces several challenges. ARABLE TECHNOLOGY TRAILS IN THE EU The interaction between the use case, the standard development organisations AEF and AgGateway and the European Agricultural Machinery Associations (CEMA) has spurred the motivation to extend their research in a subsidy project called ATLAS (Agricultural Interoperability and Analysis Systems). The results obtained during the IoF2020 projects ARABLE TECHNOLOGY TRAILS IN THE EU Introduction. In the European Union, arable farming is the largest agricultural sector. However, the sector is facing increasing competition and scrutiny, as consumers look for greater transparency, sustainable practices, and improved energy efficiency. This use case offers a great opportunity for farmers to address the consumers’concerns
KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D1.4 DATA MANAGEMENT PLAN D1.4 Data Management Plan . 2 / 44 . DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm 2020 NEWS - DECISION SUPPORT SYSTEMS FOR AGRICULTURE - IOF2020 DSS are software-based systems that gather and analyse data from a variety of sources. Their purpose is to smoothen the decision-making process for management, operations, planning, or optimal solution path recommendation. In the agricultural sector, it helps farmers to solve complex issues related to crop production. INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farming industry. The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sustainable food value chain. With the help of IoT technologies higher yields and better qualityproduce are
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ARABLE TECHNOLOGY TRAILS IN THE EU The interaction between the use case, the standard development organisations AEF and AgGateway and the European Agricultural Machinery Associations (CEMA) has spurred the motivation to extend their research in a subsidy project called ATLAS (Agricultural Interoperability and Analysis Systems). The results obtained during the IoF2020 projects DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farming industry. The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sustainable food value chain. With the help of IoT technologies higher yields and better qualityproduce are
INTERNET OF FOOD AND FARM 2020 The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farmingindustry.
ARABLE TECHNOLOGY TRAILS IN THE EU The interaction between the use case, the standard development organisations AEF and AgGateway and the European Agricultural Machinery Associations (CEMA) has spurred the motivation to extend their research in a subsidy project called ATLAS (Agricultural Interoperability and Analysis Systems). The results obtained during the IoF2020 projects DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. The awareness of the potential negative impact of livestock farming on both the environment and animal welfare is rising in Europe. Dairy processors, NGOs and the general public challenge the livestock farming sector to provide dairy cows with more access to pastures. This can be used as an ammonia emission reduction measurewhile
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Introduction. Early lameness is a considerable problem in the dairy industry. It causes pain and discomfort for the cow, while lowering fertility and milk yield for the farmer. FRUIT FARMING TECHNOLOGY TRAILS IN THE EU Smart spraying technology supports the proactive prevention of application errors that result in crop damage or yield losses. In addition to that, the operating efficiency is increased through targeted crop protection and instant information on treatment quality. As a result, this use case helps farmers to produce high-qualityfruits in a
MEAT FARMING TECHNOLOGY TRAILS IN THE EU To achieve this goal, Ignacio Gomez and Carlos Callejero, the Use Case coordinators, and their team and partners relied on several testbeds to validate a holistic approach, integrating all the stakeholders of a typical beef supply chain (crop farm, cow-calf farm, feedlot, slaughterhouse or industry and consumers) to consider the variability of beef cattle production systems in Europe. KPI CATALOGUE FOR EACH USE CASE KPI Catalogue for each use case. 2 / 22. DOCUMENT IDENTIFICATION . Project Acronym IoF2020 Project Full Title . Internet of Food and Farm2020
D3.1 - GUIDELINES FOR USE CASE ANALYSIS & DESIGN D3.1 - Guidelines for Use Case Analysis & Design 2 / 27 DOCUMENT IDENTIFICATION Project Acronym IoF2020 Project Full Title Internet of Food and Farm 2020 Project Number 731884 Starting Date stJanuary 1 , 2017 Duration 4 years H2020 Call ID & Topic IOT-01-2016 Date of the DoA 2017-2021 Website www.iof2020.eu File Name IoF2020-D3.1-UC-Analysis-Design-Guidelines-V11.docx ABOUT THE INTERNET OF FOOD AND FARM 2020 PROJECT The project Internet of Food & Farm 2020 (IoF2020) explores the potential of IoT-technologies for the European food and farming industry. The goal is ambitious: to make precision farming a reality and to take a vital step towards a more sustainable food value chain. With the help of IoT technologies higher yields and better qualityproduce are
TECHNOLOGY RESOURCES TECHNOLOGY RESOURCES. IoF2020 has developed and tested a series of IoT components and solutions. Wether you are a professional in an agriculture related field, a developer, a policy maker or just curious about the potential of IoT, the sections below will help you navigate and learn how IoF2020 uses components and data for helping the EUagriculture.
DAIRY FARMING TECHNOLOGY TRAILS IN THE EU Quality data to calibrate sensors remotely will improve milk quality monitoring. In the dairy trial, IoT technology helps to use resources more efficiently, ensure high quality milk, improve animal welfare and decrease environmental impact. The use cases will utilize the platform 365Farmnet to enable the seamless exchange of IoT data and services. DAIRY FARMING TECHNOLOGY TRAILS IN THE EU The average duration of heat is 15 to 18 hours, but heat duration may vary from 8 to 30 hours among cows. This makes the time window for artificial insemination rather short and shows how important a personalised decision support system is for the farmer in theseregards.
MEAT FARMING TECHNOLOGY TRAILS IN THE EU The demands for sustainable production in the competitive pig farming industry can only be met when the whole production chain from farm to fork becomes more efficient. To optimise the management of pig farms, data collection and analysis are key. This use case focuses on linking data across the value chain to provide the pig farmers with the MEAT FARMING TECHNOLOGY TRAILS IN THE EU Three critical points define the efficiency and product quality of poultry meat. In each step, IoT technology linkages between these steps add significant value. Firstly, the farm level: monitor and combine environmental conditions such as temperature, humidity, CO2, ammonia and luminosity alongside the birds’ feed and waterconsumption.
ARABLE TECHNOLOGY TRAILS IN THE EU The use case’s solar-powered sensors deployed across over 200 farms covering over 2 000 hectares of land in most across Germany, Hungary and Romania. The farms included were either organic or conventional farms, growing arable crops such as maize, wheat, potatoes and sweet potatoes. A few sensors were even installed in pumpkin and carrot EVENTS RELATED TO THE INTERNET OF FOOD AND FARM Follow us on Social Media . Project communication. MSc. Edwin Hecker Schuttelaar & Partners Brussels, Belgium + 32 (0)2 502 2008 edwin.hecker@schuttelaar-partners.com INTERNET OF FOOD AND FARM 2020 Internet of Food and Farm 2020 - IoF2020 D3.6 ENHANCEMENT AND CONFIGURATION OF OPEN PLATFORMS AND D3.6. Enhancement and Configuration of Open Platforms and reusable Components.docx Page 2 of 106 . DOCUMENT IDENTIFICATION . ProjectAcronym IoF2020
This project's research activities officially ended in March 2021. Legacy in SmartAgriHubs Portal * Use case catalogue* About
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EDUCATION
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IoF2020: the EU-funded project that makes precision farming a reality.GOVERNANCE
The IoF2020 consortium was led by Wageningen University & Research.PARTNERS
Over 120 partners from the food value chain participate in IoF2020. TECHNOLOGY RESOURCES IoF2020 has developed and tested a serious of IoT components andsolutions.
LARGE SCALE PILOT PROGRAMMECONTACT
Get in touch with the IoF2020 consortium.VEGETABLES
Combine sensor data to execute cultivation patterns automatically.ARABLE
Add IoT technology to existing networks and databases to enableprecision farming.
MAP
See where the IoF2020 use-cases are located in Europe.DAIRY
Use real-time sensor and location data to create added value in thedairy chain.
FRUITS
Use data to increase fruit quality, yield and product traceabilityfrom farm to shelf.
MEAT
Optimize animal health, production chain transparency andtraceability.
TECHNOLOGY RESOURCES IoF2020 has developed and tested a series of IoT components andsolutions.
BLOG
Contributions from external as well as internal stakeholders.COVID-19
How did IoF2020 support the agri-food sector during the globalpandemic.
COMMUNICATIONS
Discover the newsletter magazine and other materials.DEMONSTRATIONS
See all demonstration activities of the use cases.EDUCATION
Take a look at all education activities performed.DELIVERABLES
Accelerating novel technologies in the EU food and farming sector.FINAL EVENT
Celebrating the legacy of IoF2020.ARABLE
Add IoT technology to existing networks and databases to enableprecision farming.
DAIRY
Use real-time sensor and location data to create added value in thedairy chain.
FRUITS
Use data to increase fruit quality, yield and product traceabilityfrom farm to shelf.
VEGETABLES
Combine sensor data to execute cultivation patterns automatically.MEAT
Optimise animal health, production chain transparency andtraceability.
MAP
See where the IoF2020 use cases are located in Europe.*
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FARM MACHINE INTEROPERABILITY Exchanging data between field machinery and farm management information systems for supporting cross-over pilot machinecommunication.
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WITHIN-FIELD MANAGEMENT ZONING Defining specific field management zones by developing and linking sensing and actuating devices with external data, mainly in potato.Explore use case
PRECISION CROP MANAGEMENT Introducing smart wheat crop management by sensor data embedded in a low-power, long-range network infrastructure, mainly in wheat.Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
REMOTE MILK QUALITY
Assuring remote quality of accurate instruments, analysis and pro-active control in the dairy chain.Explore use case
HAPPY COW
Improving dairy farm productivity through IoT technology and machine learning technologies.Explore use case
HERDSMAN+
Managing herd alerts by a high-node count distributed sensor network and a cloud-based platform for decision-making.Explore use case
GRAZING COW MONITOR
Monitoring and managing the outdoor grazing of cows by GPS tracking within ultra-narrow band communication networks.Explore use case
HERDSMAN+
Managing herd alerts by a high-node count distributed sensor network and a cloud-based platform for decision-making.Explore use case
HERDSMAN+
Managing herd alerts by a high-node count distributed sensor network and a cloud-based platform for decision-making.Explore use case
AUTOMATED OLIVE CHAIN Realizing automated field control, product segmentation, processing and commercialisation of olives and olive oil.Explore use case
FRESH TABLE GRAPES CHAIN Implementing real-time monitoring and control of water supply, crop protection of table grapes, and predicting shelf life.Explore use case
FRESH TABLE GRAPES CHAIN Implementing real-time monitoring and control of water supply, crop protection of table grapes, and predicting shelf life.Explore use case
FRESH TABLE GRAPES CHAIN Implementing real-time monitoring and control of water supply, crop protection of table grapes, and predicting shelf life.Explore use case
INTELLIGENT FRUIT LOGISTICS Achieving fresh fruit logistics through virtualization of fruit products by intelligent trays within a low-power long-range networkinfrastructure.
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BIG WINE OPTIMISATION Optimising the cultivation and processing of wine by sensor-actuator networks and big data analysis within a cloud framework.Explore use case
BIG WINE OPTIMISATION Optimising the cultivation and processing of wine by sensor-actuator networks and big data analysis within a cloud framework.Explore use case
AUTOMATED OLIVE CHAIN Realizing automated field control, product segmentation, processing and commercialisation of olives and olive oil.Explore use case
PIG FARM MANAGEMENT
Optimising pig production management by interoperable on-farm sensors and slaughterhouse data.Explore use case
PIG FARM MANAGEMENT
Optimising pig production management by interoperable on-farm sensors and slaughterhouse data.Explore use case
POULTRY CHAIN MANAGEMENT Optimising production, transport and processing of poultry meat by automated ambient monitoring and control, and data analyses.Explore use case
CITY FARMING FOR LEAFY VEGETABLES Implementing value chain innovation for leafy vegetables in convenience foods by integrated indoor climate control and logistics.Explore use case
ADDED-VALUE WEEDING DATA Boosting the value chain by harvesting weeding data of organic vegetables obtained by advanced vision systems.Explore use case
ADDED-VALUE WEEDING DATA Boosting the value chain by harvesting weeding data of organic vegetables obtained by advanced vision systems.Explore use case
ADDED-VALUE WEEDING DATA Boosting the value chain by harvesting weeding data of organic vegetables obtained by advanced vision systems.Explore use case
ENHANCED QUALITY CERTIFICATION SYSTEM Achieving enhanced trust and simplification of quality certification systems by use of sensors, mixed reality and intelligent chainanalyses.
Explore use case
CHAIN-INTEGRATED GREENHOUSE PRODUCTION Developing a full sensor-actuator-based system in tomato greenhouses to integrate the value chain and quality innovations.Explore use case
MEAT TRANSPARENCY AND TRACEABILITY Enhancing transparency and traceability by supporting pro-active auditing processes, data quality and availability in the sustainablepork sector.
Explore use case
DATA-DRIVEN POTATO PRODUCTION By combining IoT technology with earth observation data, this project helps farmers reduce the costs of potato production and improve quality, while reducing their environmental footprint.Explore use case
DATA-DRIVEN POTATO PRODUCTION By combining IoT technology with earth observation data, this project helps farmers reduce the costs of potato production and improve quality, while reducing their environmental footprint.Explore use case
DATA-DRIVEN POTATO PRODUCTION By combining IoT technology with earth observation data, this project helps farmers reduce the costs of potato production and improve quality, while reducing their environmental footprint.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
DECISION-MAKING OPTIMISATION IN BEEF SUPPLY CHAIN Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality.Explore use case
TRACEABILITY FOR FOOD AND FEED LOGISTICS Establishing a detection system that guarantees the correct logistics of feed and a complete traceability of the delivery process.Explore use case
TRACEABILITY FOR FOOD AND FEED LOGISTICS Establishing a detection system that guarantees the correct logistics of feed and a complete traceability of the delivery process.Explore use case
EARLY LAMENESS DETECTION THROUGH MACHINE LEARNING Using machine learning to identify early lameness in cattle at an early stage to increase animal welfare and lower treatment costs.Explore use case
EARLY LAMENESS DETECTION THROUGH MACHINE LEARNING Using machine learning to identify early lameness in cattle at an early stage to increase animal welfare and lower treatment costs.Explore use case
POTATO DATA PROCESSING EXCHANGE Using soil mapping, growth models and harvesting data to optimise traceability in potato processing.Explore use case
POTATO DATA PROCESSING EXCHANGE Using soil mapping, growth models and harvesting data to optimise traceability in potato processing.Explore use case
SMART ORCHARD SPRAY APPLICATION Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards.Explore use case
SMART ORCHARD SPRAY APPLICATION Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards.Explore use case
SMART ORCHARD SPRAY APPLICATION Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards.Explore use case
SMART ORCHARD SPRAY APPLICATION Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards.Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
BEVERAGE INTEGRITY TRACKING Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Explore use case
DIGITAL ECOSYSTEM UTILISATION Translating data into customised services to trace production practices and achieve a more efficient use of resources.Explore use case
DIGITAL ECOSYSTEM UTILISATION Translating data into customised services to trace production practices and achieve a more efficient use of resources.Explore use case
DIGITAL ECOSYSTEM UTILISATION Translating data into customised services to trace production practices and achieve a more efficient use of resources.Explore use case
FEED SUPPLY CHAIN MANAGEMENT Optimise the animal feed supply chain and logistical efficiency through IoT-based silo stock monitoring.Explore use case
FEED SUPPLY CHAIN MANAGEMENT Optimise the animal feed supply chain and logistical efficiency through IoT-based silo stock monitoring.Explore use case
FEED SUPPLY CHAIN MANAGEMENT Optimise the animal feed supply chain and logistical efficiency through IoT-based silo stock monitoring.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
SOLAR-POWERED FIELD SENSORS Using solar-powered field sensors to analyse crop requirements and nutrient deficiencies, in order to save water, resources and costs.Explore use case
SOLAR-POWERED FIELD SENSORS Using solar-powered field sensors to analyse crop requirements and nutrient deficiencies, in order to save water, resources and costs.Explore use case
SOLAR-POWERED FIELD SENSORS Using solar-powered field sensors to analyse crop requirements and nutrient deficiencies, in order to save water, resources and costs.Explore use case
SMART ORCHARD SPRAY APPLICATION Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards.Explore use case
INTEROPERABLE PIG HEALTH TRACKING Improving animal welfare and sustainability of livestock production by monitoring physiological parameters through IoT sensors.Explore use case
WITHIN-FIELD MANAGEMENT ZONING BALTICS Using spectral data analysis and IoT technology for optimised decision-making in potato and wheat.Explore use case
WITHIN-FIELD MANAGEMENT ZONING BALTICS Using spectral data analysis and IoT technology for optimised decision-making in potato and wheat.Explore use case
PRECISION MINERAL SUPPLEMENTATION Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment.Explore use case
MULTI-SENSOR COW MONITORING Achieving more efficient and sustainable livestock farming through a unique Smart Rumen Monitoring System and cloud-based data processingapplication.
Explore use case
MULTI-SENSOR COW MONITORING Achieving more efficient and sustainable livestock farming through a unique Smart Rumen Monitoring System and cloud-based data processingapplication.
Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
SOYA PROTEIN MANAGEMENT Improving protein production by combining sensor data and translating them into effective machine task operations.Explore use case
TRIALS
* Arable
* Meat
* Dairy
* Fruits
* Vegetables
* All kinds
* Organic
* Integrated
Within-field management zoning Defining specific field management zones by developing and linking sensing and actuating devices with external data, mainly in potato. Added-value weeding data Boosting the value chain by harvesting weeding data of organic vegetables obtained by advanced vision systems. Potato Data Processing Exchange Using soil mapping, growth models and harvesting data to optimise traceability in potato processing. Fresh table grapes chain Implementing real-time monitoring and control of water supply, crop protection of table grapes, and predicting shelf life. Soya protein management Improving protein production by combining sensor data and translating them into effective machine task operations. Solar-powered field sensors Using solar-powered field sensors to analyse crop requirements and nutrient deficiencies, in order to save water, resources and costs. Interoperable Pig Health Tracking Improving animal welfare and sustainability of livestock production by monitoring physiological parameters through IoT sensors.Herdsman+
Managing herd alerts by a high-node count distributed sensor network and a cloud-based platform for decision-making.Happy Cow
Improving dairy farm productivity through IoT technology and machine learning technologies. Poultry Chain Management Optimising production, transport and processing of poultry meat by automated ambient monitoring and control, and data analyses. Decision-Making Optimisation in Beef Supply Chain Creation of shared value for the beef supply chain from IoT and blockchain to increase production efficiency and product quality. Farm machine interoperability Exchanging data between field machinery and farm management information systems for supporting cross-over pilot machinecommunication.
Remote Milk quality
Assuring remote quality of accurate instruments, analysis and pro-active control in the dairy chain. Intelligent fruit logistics Achieving fresh fruit logistics through virtualization of fruit products by intelligent trays within a low-power long-range networkinfrastructure.
City farming for leafy vegetables Implementing value chain innovation for leafy vegetables in convenience foods by integrated indoor climate control and logistics. Within-field Management Zoning Baltics Using spectral data analysis and IoT technology for optimised decision-making in potato and wheat.Grazing cow monitor
Monitoring and managing the outdoor grazing of cows by GPS tracking within ultra-narrow band communication networks. Feed Supply Chain Management Optimise the animal feed supply chain and logistical efficiency through IoT-based silo stock monitoring. Traceability for food and feed logistics Establishing a detection system that guarantees the correct logistics of feed and a complete traceability of the delivery process. Precision crop management Introducing smart wheat crop management by sensor data embedded in a low-power, long-range network infrastructure, mainly in wheat. Automated olive chain Realizing automated field control, product segmentation, processing and commercialisation of olives and olive oil. Meat Transparency and traceability Enhancing transparency and traceability by supporting pro-active auditing processes, data quality and availability in the sustainablepork sector.
Multi-sensor cow monitoring Achieving more efficient and sustainable livestock farming through a unique Smart Rumen Monitoring System and cloud-based data processingapplication.
Data-driven potato production By combining IoT technology with earth observation data, this project helps farmers reduce the costs of potato production and improve quality, while reducing their environmental footprint. Big wine optimisation Optimising the cultivation and processing of wine by sensor-actuator networks and big data analysis within a cloud framework. Enhanced quality certification system Achieving enhanced trust and simplification of quality certification systems by use of sensors, mixed reality and intelligent chainanalyses.
Digital ecosystem utilisation Translating data into customised services to trace production practices and achieve a more efficient use of resources. Chain-integrated greenhouse production Developing a full sensor-actuator-based system in tomato greenhouses to integrate the value chain and quality innovations. Precision Mineral Supplementation Precision mineral feeding of dairy cows to reduce resources, benefit animal welfare and the environment. Beverage Integrity Tracking Ensuring the quality of wine during transport, by tracking wine from producer to consumer with IoT sensors that register temperature,humidity and shock.
Pig farm management
Optimising pig production management by interoperable on-farm sensors and slaughterhouse data. Smart Orchard Spray Application Leveraging smart spraying technologies to optimise the operating efficiency and treatment quality on orchards. Early Lameness detection through machine learning Using machine learning to identify early lameness in cattle at an early stage to increase animal welfare and lower treatment costs. EXPLORE THE IOF2020 PROJECT AND ITS COMPONENTS IN THE IOT CATALOGUEGo to IOT catalogue
FOLLOW US ON SOCIAL MEDIA PROJECT COMMUNICATIONMSc. Edwin Hecker
Schuttelaar & PartnersBrussels, Belgium
+ 32 (0)2 502 2008
edwin.hecker@schuttelaar-partners.comPROJECT MANAGEMENT
Dr. ir. George Beers Wageningen University and Research Wageningen, The Netherlands+31 (0)70 3358337
george.beers@wur.nl
iof20001@wur.nl
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IoF2020 has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 731884Details
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