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A framework to develop and monitor national e-agriculture through information and communication technologies, including online courses and SMS messaging for cropsforecasts
This book addresses the challenges for developing and emerging trends in Internet-of-Things (IoT) for smart agriculture platforms. It also describes data analytics & machine learning, cloud architecture, automation & robotics and aims to overcome existing barriers for smart agriculture with commercial viability. It discusses IoT-based monitoring systems for analyzing the crop environment, and methods for improving the efficiency of decision-making based on the analysis of harvest statistics. The book explores a range of applications including intelligent field monitoring, intelligent data processing and sensor technologies, predictive analysis systems, crop monitoring, and weather data-enabled analysis in IoT agro-systems. This volume will be helpful for engineering and technology experts and researchers, as well as for policy-makers.
This book addresses the links between climate change and the threats it poses to sustainable development, from a distance education perspective. Discussing current trends and challenges in sustainable development education, climate literacy and innovations in climate change education, it contributes to the global debate on the implementation of education for sustainability. It also assesses the role that e-learning can play in this process, addressing pedagogical concepts as well as the wide range of technological options now available.
The first part of the Manual introduces the main steps of forest road network planning and gives guidance on road construction under different site conditions. It demonstrates good practices to minimize the area used for building purposes, to keep the environmental impact as low as possible and to maintain forest productivity. It describes the machinery suitable for the different construction phases and compares the advantages of machine types. The second part of the Manual introduces the goals and best practices of regular forest road maintenance which is a key operation that enables multi-purpose use of forests. It gives an overview on the main causes of forest road degradation and explains the different maintenance regimes and maintenance activities.
Agriculture is becoming increasingly knowledge intensive: farmers have to make more and more complex decisions on the use of their land, the selection of the agricultural commodities they plant, the choice of markets on which to sell their agricultural products and other key decisions that impact their livelihoods and that of society. The development of ICTs is a major driver of economic growth. It is also an accelerator for innovation and change. FAO has been promoting the use of ICTs in agriculture and has focused on ICT innovation in improving agricultural production and value chains. However, innovation is an elusive combination of people, processes and technologies. Many projects put technology alone at the core of proposed solutions intended to address emerging and existing challenges, but this is not a sustainable solution in many cases. Recently, FAO and the International Telecommunication Union, have jointly prepared a National e-Agriculture Strategy Guide which aims to help countries mainstream ICTs into agriculture and develop or revitalize e-agriculture strategies in line with agricultural goals and priorities. This paper is intended to assist policy-makers and stakeholders of e-agriculture in transition economies to map the policy and technological environment in their countries, would show case e-agriculture initiatives in Central and Eastern Europe and Central Asia and provide with recommendations on formulation of e-agriculture strategies.
While the digital revolution is reaching rural areas in many developing countries, the rural digital divide continues to present considerable challenges. The problem is even more acute for women, who face a triple divide: digital, rural and gender. This publication looks at the benefits of Information and Communication Technologies (ICTs) when placed in the hands of men and women working in agriculture and in rural areas. It examines the challenges to be overcome and makes recommendations so that rural communities can take full and equal advantage of the technologies. FAO’s E-agriculture 10 Year Review Report on implementation of the World Summit on the Information Society (WSIS) of the Action Line C7. ICT Applications: e-agriculture concludes that while substantial progress has been made in making ICTs available and accessible for rural communities, challenges remain with respect to the following seven critical factors for success: content, capacity development, gender and diversity, access and participation, partnerships, technologies, and finally, economic, social, and environmental sustainability. This publication analyses with the gender lens the seven factors of success, followed by an overview of the general existing barriers to women’s access to, control and use of ICTs. Finally, it offers a series of recommendations for better integration of gender in ICT initiatives, based on gender mainstreaming throughout the seven critical factors of success, illustrated with concrete examples
Advances in information and communication technologies (ICTs) have made information available to more people than ever before. These advances have also substantially increased their capacity to connect with each other in a continuously expanding number of ways. Rural women are currently (and have always been) last in line in terms of ICT access and use, even though women stand more to gain than most from active participation and engagement with these resources. Evidence suggests that the ICT sector is both urban- and male-centric, ranging from the design of ICTs to the gender of sector employees and decision-makers. Representation in the media is also predominantly male. The aim of this paper is to bring rural communities, and women and other marginalized groups in particular, back into the centre of conversations on ICTs and ICT4D.
Digital agriculture has the potential to contribute to a more economically, environmentally and socially sustainable agriculture and meet the agricultural goals of a country or a region more effectively, and both ICTs and agriculture are important enablers in achieving SDGs. Most stakeholders have long recognized the need for national e-agricultural strategies. Nevertheless, most of the countries have not yet implemented a national strategy for the agricultural sector's use of ICTs. ITU Offices for Europe and CIS regions in collaboration with FAO Regional Office for Europe and Central Asia developed this report on state of Digital Agriculture and Strategies developed in 18 countries. The emerging role of ICTs in Europe and CIS region is clearly observed and experienced as an engine for agricultural development, especially in view of the growing demand for reliable information and its quick access at all levels of the industry. The state of the digital agriculture ecosystem differs from country to country and is also fragmented by the regions, within the individual countries. There is an overwhelming wave of innovation in this area where a digital agriculture strategy can be helpful in finding the right path.
What Is Agricultural Robotics Every day, we are reminded that the robot revolution is advancing. From self-driving cars to automated cashiers, robots are increasingly becoming a part of our daily lives. While most of our attention has been focused on robots in the manufacturing industry, there is one essential field of activity that they may affect more than any other. Indeed, Food is an absolute requirement that must be produced at whatever cost. As a result, we require either more farmers or new methods of producing food with little manpower. The robots are on their way to save the day. Are you prepared for agricultural robotics? How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Agricultural Robot Chapter 2: Agricultural Drone Chapter 3: Driverless Tractor Chapter 4: Farmbot Chapter 5: Open-Source Ecology Chapter 6: Cloud Seeding Chapter 7: Aerial Seeding Chapter 8: Mechanized Agriculture Chapter 9: Agricultural Machinery Chapter 10: Precision Agriculture Chapter 11: Information and Communications Technology in Agriculture Chapter 12: Machine Vision (II) Answering the public top questions about agricultural robotics. (III) Real world examples for the usage of agricultural robotics in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technology in each industry to have 360-degree full understanding of agricultural robotics' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of agricultural robotics.