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.
Hundal, Gaganpreet Singh (author), Laux, Chad Matthew (author), Buckmaster, Dennis (author), Sutton, Mathias J (author), and Langemeier, Michael (author)
Format:
Journal article
Publication Date:
2023-01-09
Published:
Switzerland: MDPI
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12835
16 pages, The production of row crops in the Midwestern (Indiana) region of the US has been facing environmental and economic sustainability issues. There has been an increase in trend for the application of fertilizers (nitrogen & phosphorus), farm machinery fuel costs and decreasing labor productivity leading to non-optimized usage of farm inputs. Literature describes how sustainable practices such as profitability (return on investments), operational cost reduction, hazardous waste reduction, delivery performance and overall productivity might be adopted in the context of precision agriculture technologies (variable rate irrigation, variable rate fertilization, cloud-based analytics, and telematics for farm machinery navigation). The literature review describes low adoption of Internet of Things (IoT)-based precision agriculture technologies, such as variable rate fertilizer (39%), variable rate pesticide (8%), variable rate irrigation (4%), cloud-based data analytics (21%) and telematics (10%) amongst Midwestern row crop producers. Barriers to the adoption of IoT-based precision agriculture technologies cited in the literature include cost effectiveness, power requirements, wireless communication range, data latency, data scalability, data storage, data processing and data interoperability. Therefore, this study focused on exploring and understanding decision-making variables related to barriers through three focus group interview sessions conducted with eighteen (n = 18) subject matter experts (SME) in IoT- based precision agriculture practices. Dependency relationships described between cost, data latency, data scalability, power consumption, communication range, type of wireless communication and precision agriculture application is one of the main findings. The results might inform precision agriculture practitioners, producers and other stakeholders about variables related to technical and operational barriers for the adoption of IoT-based precision agriculture practices.
29 pages., With modernize city approach, concept of IOT โ 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.