Bin, Li (author), Shahzad, Muhammad (author), Khan, Hira (author), Bashir, Muhammad Mehran (author), Ullah, Arif (author), and Siddique, Muhammad (author)
Format:
Journal article
Publication Date:
2023-09-18
Published:
Switzerland: MDPI
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12959
20 pages, Sustainable agriculture is a pivotal driver of a nation’s economic growth, especially considering the challenge of providing food for the world’s expanding population. Agriculture remains a cornerstone of many nations’ economies, so the need for intelligent, sustainable farming practices has never been greater. Agricultural industries worldwide require sophisticated systems that empower farmers to manage their crops efficiently, reduce water wastage, and optimize yield quality. Yearly, substantial crop losses occur due to unpredictable environmental changes, with improper irrigation practices being a leading cause. In this paper, we introduce an innovative irrigation time control system for smart farming. This system leverages fuzzy logic to regulate the timing of irrigation in cotton crop fields, effectively curbing water wastage while ensuring that crops receive neither too little nor too much water. Additionally, our system addresses a common agricultural challenge: whitefly infestations. Users can adjust climatic parameters, such as temperature and humidity, through our system, which minimizes both whitefly populations and water consumption. We have developed a portable measurement technology that includes air humidity sensors, temperature sensors, and rain sensors. These sensors interface with an Arduino platform, allowing real-time climate data collection. This collected climate data is then sent to the fuzzy logic control system, which dynamically adjusts irrigation timing in response to changing environmental conditions. Our system incorporates an algorithm that generates highly effective (IF-THEN) fuzzy logic rules, significantly improving irrigation efficiency by reducing overall irrigation duration. By automating the irrigation process and precisely delivering the right amount of water, our system eliminates the need for human intervention, rendering the agricultural system more dependable in achieving successful crop yields. Water supply commences when the environmental conditions reach specific thresholds and halts when the requisite climate conditions are met, maintaining an optimal environment for crop growth.
8pgs, This paper presents a critical examination of smart farming. I follow other critical analyses in recognizing the centrality of innovation processes in generating smart farming products, services, arrangements, and problematic outcomes. I subsequently use insights from critical human geography scholarship on the significance of understanding topological transformations to move beyond interpretations that identify only a narrow range of smart farming problems, such as a lack of coordination or limited uptake by farmers. Instead, I examine a broader set of challenges produced by smart farming developments. The overriding concern, I argue, is that smart farming unfolds via the production of numerous ‘misconfigured innovations.’ Using insights from literature on responsible research and innovation I then probe the stakes of looking beyond the misconfigured innovations of smart farming and discuss how new technologies might come to play a role in producing emancipatory smart farming. I pay attention to research on the ‘internet of people,’ which paints a stark new picture of social life generally, and in particular how rural life might be computed and calculated according to new conceptualizations of sociality and spatiality.
29 pages., With modernize city approach, concept of IOT – Internet of things achieving popularity and becoming major source for smart innovations. Added advantage of internet application the technology enables sensing, processing and execution automatically and remotely on finger tip. IOT makes sure an easy availability and access to the information available at any corner of the world. In growing countries like INDIA, increase in urbanization led infrastructure expansion; most of the urban cities are now expanding in nearby towns and villages. So towns and villages are merging and becoming part of nearby cities. So the farms, farmer community and their domestic animals (livestock) are surrounded by concrete and eastern life style. Purpose behind this survey is to provide a bibliographic survey on IOT managed smart solutions to the farmers on their day-to-day work, loose housing, dairy farm and managing livestock to balance quality of life style in urban society towards achieving smart city target
25 pages, The consumption of food production demand for quality of food and the environmental impact of agriculture have led to utilize the information and communication technology in the agricultural sector. The Internet of Things (IoT) has become a contemporary technology, which is evolving quickly in recent years and brings many benefits with it to modernize the agriculture. The scientific groups and research institutes are working to deliver clarifications and solutions for the use of IoT to address various aspects of agriculture. The focal point of this research is to present an SLR (Systematic Literature
Review) by collecting the valid and innovative research on IoT in agriculture which has been done during 2019 at School of System and Technology, University of Management and Technology, Lahore, Pakistan. This SLR has been conducted through research articles which were published in the prestigious venues from 2006 to 2019. In order to conduct this SLR concerned studies have been clustered into different classifications: type of the concerned research, empirical type, technological solutions for agriculture like monitoring, control, prediction, logistics and their sub-domains. Moreover, an IoT based framework of smart agriculture has been presented that indicate the current solutions of agricultural problems. The selected 80 research papers have been classified as per defined criteria. The findings of this research have been discussed in
detail and summarize the practice of IoT in agriculture.
Jakku, Emma (author), Taylor, Bruce (author), Fleming, Aysha (author), Mason, Claire (author), Fielke, Simon (author), Sounness, Chris (author), and Thorburn, Peter (author)
Format:
Journal article
Publication Date:
2019-12
Published:
Netherlands: Elsevier
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 203 Document Number: D12272
13 pages, Advances in Smart Farming and Big Data applications have the potential to help agricultural industries meet productivity and sustainability challenges. However, these benefits are unlikely to be realised if the social implications of these technological innovations are not adequately considered by those who promote them. Big Data applications are intrinsically socio-technical; their development and deployment are a product of social interactions between people, institutional and regulatory settings, as well as the technology itself. This paper explores the socio-technical factors and conditions that influence the development of Smart Farming and Big Data applications, using a multi-level perspective on transitions combined with social practice theory. We conducted semi-structured interviews with 26 Australian grain farmers and industry stakeholders to elicit their perspectives on benefits and risks of these changes. The analysis shows that issues related to trust are central concerns for many participants. These include procedural concerns about transparency and distributional concerns about who will benefit from access to and use of "farmers' data". These concerns create scepticism about the value of `smart' technologies amongst some industry stakeholders, especially farmers. It also points to a divergence of expectations and norms between actors and institutions at the regime and niche levels in the emerging transition towards Smart Farming. Bridging this divide will require niche level interventions to enhance the agency of farmers and their local networks in these transactions, and, the cooperative design of new institutions at regime level to facilitate the fair and transparent allocation of risk and benefit in farming data information chains.
14 pages., Via online journal., During recent years, one of the most familiar name scaling new heights and creating a benchmark is Internet of Things (IoT). It is indeed the future of communication that has transformed Things (Objects) of the real world into smarter devices. The functional aspect of IoT is to unite every object of the world in such a manner that humans have the ability to control them via Internet. Furthermore, these objects also provide regular as well as timely updates on their current status to its end user. Although IoT concepts were proposed a couple of years ago, it may not be incorrect to quote that this term has become a benchmark for establishing communication among objects. In context to the present standings of IoT, identification of the most prominent applications in the field of IoT have been highlighted and a comprehensive review has been done specifically in the field of Precision Agriculture. This article evaluates contributions made by various researchers and academicians over the past few years. Furthermore, existing challenges faced while performing agricultural activities have been highlighted along with future research directions to equip novel researchers of this domain to assess the current standings of IoT and to further improve upon them with more inspiring and innovative ideas.
Ruiz-Carpio, Miguel Rafael (author), Safai, Cyrus (author), Djobo, Arafat (author), Gaichuk, Ivan (author), and Safai, Nick M. (author)
Format:
Paper
Publication Date:
2018
Published:
International
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 93 Document Number: D10863
Notes:
Poster/paper published in proceedings of the American Society for Engineering Education annual conference and exposition, Salt Lake City, Utah. 2018, pages 1-15., Motivating, promoting interest in teaching engineering subjects is always a challenge for undergraduate engineering students especially for junior and lower level students. This approach also brought social awareness to members of the group, as well as tolerance and responsibility. It also emphasized to the students a tolerant and an open-minded world, now and forevermore. A group of multinational, multicultural undergraduate students at Salt Lake Community College, majoring in Civil, Mechanical, Electrical and Computer engineering are working on a project involving vertical farming, hydroponic watering, and making the plant growing process smart.
Food and its availability is of major concern in all nations, especially the underdeveloped communities. Students get exposed to different engineering disciplines, and learn how to work in a multicultural team and become socially responsible in an ever increasing connected world. Each student also becomes a teacher to other students at times discussing his specialty and field of engineering.
24 pages, In this work, an exhaustive revision is given of the literature associated with advanced information and communication technologies in agriculture within a window of 25 years using bibliometric tools enabled to detect of the main actors, structure, and dynamics in the scientific papers. The main findings are a trend of growth in the dynamics of publications associated with advanced information and communication technologies in agriculture productivity. Another assertion is that countries, like the USA, China, and Brazil, stand out in many publications due to allocating more resources to research, development, and agricultural productivity. In addition, the collaboration networks between countries are frequently in regions with closer cultural and idiomatic ties; additionally, terms’ occurrence are obtained with Louvain algorithm predominating four clusters: precision agriculture, smart agriculture, remote sensing, and climate smart agriculture. Finally, the thematic-map characterization with Callon’s density and centrality is applied in three periods. The first period of thematic analysis shows a transition in detecting the variability of a nutrient, such as nitrogen, through the help of immature georeferenced techniques, towards greater remote sensing involvement. In the transition from the second to the third stage, the maturation of technologies, such as unmanned aerial vehicles, wireless sensor networks, and the machine learning area, is observed
