Abstract:The article describes the concept of deploying IoT technologies within the environment of agrarian operations using a system approach with a focus on fuzzy logic. In addition to the introductory acquaintance with IoT and fuzzy theory, the paper focuses on specific possibilities of applying the fuzzy approach, especially in the case of animal husbandry. The main benefit for this field is the fulfillment of welfare principles and the achievement of economic savings based on optimization. The article also showcas… Show more
“…Alhasnawi et al in [47] developed a smart system to predict the irrigation requirements of a field utilizing the sensing and detecting of ground parameters like soil moisture, and environmental conditions along with the online weather forecast data. Novák et al explained how to deploy IoT technologies within agriculture operations with a focus on fuzzy logic in [48]. There are many studies on using IoT in different applications such as in [49]- [51].…”
Section: Fig1 the Missing Links In National Collaboration In Agriculmentioning
This paper describes efforts by National Authority for Remote Sensing and Space Sciences (NARSS) to help the Egyptian government to manage and monitor the national projects. We successfully developed a geospatial data sharing portal (NARSSGeoPortal) as part of the government need to build national Decision Support System (DSS). We were able to solve the software development issues as well as the satellite imagery sourcing issues, but the main challenge remains around how to collect complete and correct data from the public about their private businesses nationwide. The most challenging is how to engage the public and encourage the business owners who are the main sources of data to provide the government Geoportal with data about their businesses. It is also challenging to engage the scientists and experts from government research centers into the data sharing Geoportal. Furthermore, it is a challenge to integrate the government research centers with the public businesses’ daily operation. The data sharing Geoportal is built for all national projects and government authorities, however, in this paper we focus on the Agriculture authorities and farming businesses where the challenge is how to collect correct and complete data per acre about the seeds, fertilizers, water, pest control and all other farm related data that the satellite imagery does not provide. The goal is to integrate the farms into unified national monitoring, and control system while developing advanced smart farms with the use of Internet of Things (IoT). The proposed collaboration agriculture platform fills the gap between two groups. The first group includes the government authorities, financial institutions, and research centers. The second group includes farmers, supply chain, and agriculture engineers. The platform show how employment can be generated by transforming the national ecosystem. The paper also fills a major gap in industry as well as in academia by providing the first Bluetooth Low Energy computer aided design tool that will facilitate testing, designing, deploying, managing and debugging of real Bluetooth Low Energy networks.
“…Alhasnawi et al in [47] developed a smart system to predict the irrigation requirements of a field utilizing the sensing and detecting of ground parameters like soil moisture, and environmental conditions along with the online weather forecast data. Novák et al explained how to deploy IoT technologies within agriculture operations with a focus on fuzzy logic in [48]. There are many studies on using IoT in different applications such as in [49]- [51].…”
Section: Fig1 the Missing Links In National Collaboration In Agriculmentioning
This paper describes efforts by National Authority for Remote Sensing and Space Sciences (NARSS) to help the Egyptian government to manage and monitor the national projects. We successfully developed a geospatial data sharing portal (NARSSGeoPortal) as part of the government need to build national Decision Support System (DSS). We were able to solve the software development issues as well as the satellite imagery sourcing issues, but the main challenge remains around how to collect complete and correct data from the public about their private businesses nationwide. The most challenging is how to engage the public and encourage the business owners who are the main sources of data to provide the government Geoportal with data about their businesses. It is also challenging to engage the scientists and experts from government research centers into the data sharing Geoportal. Furthermore, it is a challenge to integrate the government research centers with the public businesses’ daily operation. The data sharing Geoportal is built for all national projects and government authorities, however, in this paper we focus on the Agriculture authorities and farming businesses where the challenge is how to collect correct and complete data per acre about the seeds, fertilizers, water, pest control and all other farm related data that the satellite imagery does not provide. The goal is to integrate the farms into unified national monitoring, and control system while developing advanced smart farms with the use of Internet of Things (IoT). The proposed collaboration agriculture platform fills the gap between two groups. The first group includes the government authorities, financial institutions, and research centers. The second group includes farmers, supply chain, and agriculture engineers. The platform show how employment can be generated by transforming the national ecosystem. The paper also fills a major gap in industry as well as in academia by providing the first Bluetooth Low Energy computer aided design tool that will facilitate testing, designing, deploying, managing and debugging of real Bluetooth Low Energy networks.
“…Digitalization is not aimed at optimizing the data process, but rather at benefiting from efficiency advantages when digitalized data is used to automate processes and facilitate better accessibility (Abrham, Wang, 2017). Rather than simply turning existing data into digital, digitization includes the data collected by digital technologies, the trends they establish, and the ability to make better business decisions by using advanced technological approaches and data analysis such as, for example, fuzzy logic (Novák et al, 2020). By using digital information technology to change business processes, to evaluate, redesign or rethink our business, digitization brings us closer to our ultimate goal: the transformation of the business process.…”
Section: Digitalization and The Use Of Information Technology During mentioning
This paper tackles the economic impacts of COVID-19 pandemic on the labor markets and human capital. Specifically, it looks into the issues the pandemic brought upon the human resources and personnel during coronavirus lockdowns. Our results identify that in spite of all the adverse effects of the pandemic such as the excessive burden on the healthcare system, great economic losses and disruptions on the labor market (such as the loss of human capital and widening gaps in gender inequality) due to the lockdowns in many countries intended to slow down the spread of the infection with the purpose of flattening the curve representing the numbers of the COVID-19 patients, the current situation had many positive economic effects. For instance, we find that the recent pandemic helped to increase the financial inclusion and enabled broader access to financial system. In addition, during the past few months, digitalization and the use of information technology deepened and progressed in both large and small enterprises as well as in the higher education institutions. Moreover, COVID-19 pandemic helped to develop the awareness about the climate change among many people by demonstrating how the decrease in economic activity can have a profound effect on cutting CO2 emissions. Furthermore, we find that COVID-19 pandemic contributed to optimizing work load and cutting unnecessary work in many large and small business companies and public institutions. It is likely that most of them will continue with this optimization and digitalization of work after the pandemic is over. Last but not least, we note the enhanced family life and interpersonal relations that would without any doubt contribute to the quality of human capital and the level of happiness. Our results might be useful for public officials and labor market specialists who would want to grasp the consequences of the COVID-19 pandemic and to find ways how to smoothen its impacts.
“…Digitalization is not aimed at optimizing the data process, but rather at benefiting from efficiency advantages when digitalized data is used to automate processes and facilitate better accessibility (Abrham, Wang, 2017). Rather than simply turning existing data into digital, digitization includes the data collected by digital technologies, the trends they establish, and the ability to make better business decisions by using advanced technological approaches and data analysis such as, for example, fuzzy logic (Novák et al, 2020). By using digital information technology to change business processes, to evaluate, redesign or rethink our business, digitization brings us closer to our ultimate goal: the transformation of the business process.…”
Section: Digitalization and The Use Of Information Technology During mentioning
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