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Journal articles on the topic 'Internet in agriculture'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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1

Duan, Yun Peng, Chun Xi Zhao, and Zhuo Tian. "Application of the Internet of Things Technology in Agriculture." Applied Mechanics and Materials 687-691 (November 2014): 2395–98. http://dx.doi.org/10.4028/www.scientific.net/amm.687-691.2395.

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Across the Internet of things industry computer, communication, network, intelligent computing, sensors, embedded systems, several technical fields such as microelectronics, Internet of things technology applied in agriculture, can realize the wisdom agriculture and agricultural IOT, this paper expounds the concept of Internet of things and the relevant technology of the Internet of things and Internet of things technology in agriculture in many applications.
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Clark, Kathleen A. "Internet resources for agriculture." College & Research Libraries News 57, no. 6 (August 7, 2019): 359–64. http://dx.doi.org/10.5860/crln.57.6.359.

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Chu, Ruili, and Guanghai Tang. "Internet+ Agriculture: An Empirical Perspective of the Internet Effect in Agricultural Economy." Journal of Physics: Conference Series 1578 (July 2020): 012162. http://dx.doi.org/10.1088/1742-6596/1578/1/012162.

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Wang, Bin Peng. "The Design of Modern Agriculture Control System Based on Internet of Things." Applied Mechanics and Materials 513-517 (February 2014): 1519–22. http://dx.doi.org/10.4028/www.scientific.net/amm.513-517.1519.

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This paper involves the modern agricultural application control system which is based on internet of things, and this intelligent management system uses intelligent control technology such as S7-300, GSM,WSN and Zigbee to realize the modernization of rural security, agricultural production and residents living fully intelligent managed. This system applies precision agriculture, digital image processing, wireless data transmission and other fields, really combining digital management technology with embedded technology. At the same time, this system which is based on internet of things is the necessary path of modern agriculture informatization strategy. With the mature development of technology of internet of things in modern society, modern agriculture application management system based on internet of things will bring new change to agriculture and high efficiency of agricultural production.
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Kan, Ying Bo, Ling Ling Wang, Yi Shan Zhang, and En Ping Liu. "Research on Control System of Tropical Intelligent Agriculture in Hainan." Applied Mechanics and Materials 385-386 (August 2013): 923–26. http://dx.doi.org/10.4028/www.scientific.net/amm.385-386.923.

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Research on intelligent agriculture in our country has attracted great attention of the researchers now, but it is still under discovery. According to tropical agriculture in Hainan to IT's demand, the paper studies the key technology in the development of tropical intelligent agriculture, including automatic test technology, automatic control technology, Internet of Things and so on. This paper analyzes factors that affect tropical intelligent agricultures development, which include agricultural program, agricultural policies and regulations, agricultural technology situation, infrastructure construction, field management and other factors. The thesis builds a model between the development of tropical intelligent agriculture and its affecting factors. A developmental idea of tropical intelligent agriculture in Hainan is proposed on the basis of the model. The thesis analyzes the construction of intelligent agriculture control system in Hainan from the angles of data acquisition, data transfer, data analysis and data feed.
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Adamides, George. "A Review of Climate-Smart Agriculture Applications in Cyprus." Atmosphere 11, no. 9 (August 25, 2020): 898. http://dx.doi.org/10.3390/atmos11090898.

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Climate-smart agriculture is an approach for developing agricultural strategies to modernize agricultural systems using digital techniques, aiming for sustainable agriculture and ensuring food security under climate change. This article provides a systematic literature review of smart agriculture technologies towards climate-smart agriculture in Cyprus, including robotics, Internet of Things, and remote sensing. The paper starts with a review of climate-smart agriculture, presenting its importance in terms of optimizing agricultural production processes in order to address the interlinked challenges of food security and climate change. An extensive literature review of works published in the areas of robotics, Internet of Things, and remote sensing is undertaken, with particular attention paid to works carried out in relation to agriculture in Cyprus. The paper analyzes aspects of the climate-smart agriculture research situation in Cypriot agriculture, identifies gaps, and concludes with new directions.
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Kirubanand, VB, V. Rohini, and V. Laxmankumar. "Internet of Things in Agriculture to Revolutionize Traditional Agricultural Industry." ITM Web of Conferences 37 (2021): 01018. http://dx.doi.org/10.1051/itmconf/20213701018.

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Agriculture is familiarly called “Farming”. Agriculture is the basic art to cultivate food which is a necessary need to every living individual. Agriculture needs the practice of science for cultivating the soil factors and growing crops. In traditional farming, it includes more labor work and less yield quantity. This demerit can be overcome by the modern farming techniques which makes use of the advanced technology and focuses on maximizing the yield and maintaining the quality. Earlier the farmers used to figure out the type of the soil based on their suspicion and they would never think of the humidity, temperature, climatic condition and especially the level of water. IoT is trying to overcome all these factors by helping to assemble the information. This paper focuses on the soil moisture and soil type which lets the farmer know about the type of crops to be grown.
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Kumari, Akanksha, and Prabhat Kumar Sahu. "Internet of Things-Based Smart Drip Irrigation Using Arduino." Journal of Computational and Theoretical Nanoscience 17, no. 9 (July 1, 2020): 4598–603. http://dx.doi.org/10.1166/jctn.2020.9286.

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Agriculture is one of the primary sectors in the Indian economy. Over the past several years, agricultural scientific techniques and agricultural implements have developed in the region, replacing the traditional method of farming. By which the economic condition of the farmers has improved. In addition, there are still some small farmers in India who use the old traditional methods of farming of agriculture because they do not have the resources to use modern methods. Besides, it is the only region that has contributed not only to the development of itself but also to other areas of the country. Agriculture has a major contribution to the country’s GDP and national income. In addition, it requires a huge manpower and labour which constitutes about 80% of the total workforce. Employees work not only directly but indirectly in the agricultural sector. Irrigation is the use of controlled amounts of water at the required intervals to the plants. Effective irrigation will affect seed development, germination, root growth, utilization of nutrients, plant growth and revival, yield and quality of the entire development process. The farmer knows how much water he has to give to the crop and when crop is to be planted, but the best system of irrigation it is necessary to have the information about use of equipment, plant species, soil structure, soil preparation and It is also important to be aware of all these that at what stage to watering the plant. The aim of this research paper is to describe how the Internet of Things (IoT) framework plays an important role in the field of agriculture. Here to show the importance of IoT in agriculture, we choose “Smart Drip Irrigation System.”
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9

Shi, Xiaojie, Xingshuang An, Qingxue Zhao, Huimin Liu, Lianming Xia, Xia Sun, and Yemin Guo. "State-of-the-Art Internet of Things in Protected Agriculture." Sensors 19, no. 8 (April 17, 2019): 1833. http://dx.doi.org/10.3390/s19081833.

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The Internet of Things (IoT) has tremendous success in health care, smart city, industrial production and so on. Protected agriculture is one of the fields which has broad application prospects of IoT. Protected agriculture is a mode of highly efficient development of modern agriculture that uses artificial techniques to change climatic factors such as temperature, to create environmental conditions suitable for the growth of animals and plants. This review aims to gain insight into the state-of-the-art of IoT applications in protected agriculture and to identify the system structure and key technologies. Therefore, we completed a systematic literature review of IoT research and deployments in protected agriculture over the past 10 years and evaluated the contributions made by different academicians and organizations. Selected references were clustered into three application domains corresponding to plant management, animal farming and food/agricultural product supply traceability. Furthermore, we discussed the challenges along with future research prospects, to help new researchers of this domain understand the current research progress of IoT in protected agriculture and to propose more novel and innovative ideas in the future.
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Eksanika, Putri, and Sutisna Riyanto. "Pemanfaatan Internet oleh Penyuluh Pertanian." Jurnal Sains Komunikasi dan Pengembangan Masyarakat [JSKPM] 1, no. 1 (July 4, 2017): 65. http://dx.doi.org/10.29244/jskpm.1.1.65-80.

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The development of information technology and communication is increasingly perceived by the public, one of them internet. Agricultural extension worker as the spearhead of agricultural development has an important role in assisting the development of agriculture. Internet as a medium that stores a variety of information on agriculture and as a medium of communication can be used to support the agricultural extension activities. The purpose of this study is to analyze the understanding of agricultural extension worker to the internet, analyze the behavior of internet usage by agricultural extension worker, and analyze the utilization of the internet by agricultural extension worker. This study was conducted using a quantitative approach that is supported by qualitative data. Quantitative data collected using questionnaires to 16 people from the agricultural extension worker of BP3K Dramaga and 22 people from the agricultural extension worker of BP3K Cibungbulang, the qualitative data obtained through interviews and observations. Obtained data analyzed using descriptive analysis and correlation tests. The results showed that agricultural extensions worker is sufficient used the internet to support in agricultural extension activities.Keywords: information technology, communication, agricultural extension --------------------------------ABSTRAKPerkembangan teknologi informasi dan komunikasi semakin dirasakan oleh masyarakat, salah satunya internet. Penyuluh pertanian sebagai ujung tombak pembangunan pertanian memiliki peran penting dalam membantu perkembangan pertanian. Internet sebagai media yang menyimpan berbagai informasi tentang pertanian dan sebagai media komunikasi dapat digunakan untuk mendukung kegiatan penyuluhan pertanian. Tujuan dari penelitian ini adalah untuk menganalisis pemahaman penyuluh pertanian pada internet, menganalisis perilaku penggunaan internet oleh penyuluh pertanian, dan menganalisis pemanfaatan internet oleh penyuluh pertanian. Penelitian ini dilakukan dengan menggunakan pendekatan kuantitatif yang didukung oleh data kualitatif. Data kuantitatif dikumpulkan dengan menggunakan kuesioner untuk 16 orang dari penyuluh pertanian dari BP3K Dramaga dan 22 orang dari penyuluh pertanian dari BP3K Cibungbulang, data kualitatif diperoleh melalui wawancara dan observasi. Data yang diperoleh dianalisis menggunakan analisis deskriptif dan uji korelasi. Hasil penelitian menunjukkan bahwa penyuluh pertanian telah cukup menggunakan internet untuk mendukung kegiatan penyuluhan pertanian.Kata kunci: teknologi informasi, komunikasi, penyuluhan pertanian
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11

Anandhakrishnan, T., S. M. Jaisakthi, and Lohotsaurabh. "Internet of Things in Agriculture-Survey." Journal of Computational and Theoretical Nanoscience 15, no. 6 (June 1, 2018): 2405–9. http://dx.doi.org/10.1166/jctn.2018.7478.

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12

Gelb, E. M., and G. Bonati. "Evaluating internet for extension in agriculture." Journal of Agricultural Education and Extension 5, no. 3 (December 1998): 211–16. http://dx.doi.org/10.1080/13892249885300321.

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13

Auburn, Jill Shore. "Sustainable Agriculture on the Internet: Practical Uses." HortTechnology 6, no. 4 (October 1996): 325–31. http://dx.doi.org/10.21273/horttech.6.4.325.

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The Internet has experienced tremendous growth recently. The number of users, the amount and diversity of information available, and exposure in the mass media have all grown rapidly. Several authors recently have asserted that the media reports are overblown and that Internet is not as useful as most reports portray. Agricultural professionals need to assess whether or not the cost of using the Internet (in learning time as well as money) will benefit them in terms of increased knowledge and productivity. This paper describes current use of the Internet to answer practical questions from research and education, using a survey and practical examples from sustainable agriculture.
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14

Mishachandar, B., and S. Vairamuthu. "Crop Yield Estimation Using the Internet of Things." Journal of Information & Knowledge Management 20, Supp01 (January 30, 2021): 2140006. http://dx.doi.org/10.1142/s0219649221400062.

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Internet of Things (IoT) in the current era is liable for its drastic transforming impact on human life, especially in the agricultural sector. IoT has transformed conventional agriculture into smart agriculture making agriculture more feasible in recent days. In this paper, it is proposed to develop a smart agricultural solution for using technologies like Arduino, IoT and Wireless Sensor Network. The developed system prototype uses IoT to perform three main functions namely, self/smart irrigation, crop productivity estimation and alerts cattle grazing. It also provides easy accessibility of the sensed information using an Android-based application and Bluetooth for short-range communication. The features of this paper include monitoring temperature, moisture level, detecting presence of inflammable gases and an emergency alert notification to alert any decline in crop health and cattle grazing directly to the farmer’s smartphone using Android app and Bluetooth. The desirable yielding conditions of a crop are programmed in the android app and compared with the sensed information. With the difference in levels the crop yield is estimated beforehand. A complete health monitoring system is developed using Arduino to perform a periodic check on the growth of the crop and its yielding conditions. Because of its feasibility, energy efficiency and cost-effectiveness, the system can be used in water-deficient agricultural lands with less human intervention.
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15

Lazewski, Barbara. "Internet Resources in Agriculture: Favorite Sources of an Internet Trainer." Journal of Agricultural & Food Information 3, no. 2 (April 26, 1996): 57–64. http://dx.doi.org/10.1300/j108v03n02_08.

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16

Romaschenko, M. I., V. P. Kovalchuk, Y. O. Tarariko, Y. V. Soroka, A. V. Krucheniuk, and O. S. Demchuk. "Information management system for agricultural production on the Internet." Міжвідомчий тематичний науковий збірник "Меліорація і водне господарство" 104, no. 2 (November 27, 2016): 87–92. http://dx.doi.org/10.31073/mivg201602-64.

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The analysis of information support in the agricultural production has been done. IWPLR is developing now a «System of information support for agriculture», which has a two-level structure of decision-making and contains a database. At the level of «economy» the system, taking into account both the economic priorities and the wishes of the farms as well as soil-climatic and environmental constraints helps the agricultural producers (the users of the system) to define a set of priority crops using a subsystem «crop rotation». At the level of «field» the system, using the database helps the users to calculate the flow process charts for identified priority crops. The database of the system consists of five sections: «agriculture», «agri-resource potential» «reclamation», «mechanization and processing», «animal production» and provides some background information for agricultural producers.
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17

Mishra, Ashok K., Robert P. Williams, and Joshua D. Detre. "Internet Access and Internet Purchasing Patterns of Farm Households." Agricultural and Resource Economics Review 38, no. 2 (October 2009): 240–57. http://dx.doi.org/10.1017/s1068280500003233.

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The Internet is becoming an increasingly important management tool in production agriculture. Using data from the 2004 Agricultural Resource Management Survey (ARMS) and a double-hurdle estimation approach, we explore the adoption of computers with Internet access by and Internet purchasing patterns of farm households. Adoption of the Internet is positively related to age and education of the operator, off-farm work, presence of spouse, participation in government programs, farm size, and regional location of the farm. Internet purchasing patterns of farm households are positively related to the education of the operator and spouse, presence of teenagers, and regional location of the farm. Finally, farm businesses and their households are more likely to purchase a greater percentage of non-durable goods through the Internet as distances to markets increase.
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V, Suma. "Internet of Things (IoT) based Smart Agriculture in India: An Overview." Journal of ISMAC 3, no. 1 (February 26, 2021): 1–15. http://dx.doi.org/10.36548/jismac.2021.1.001.

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The increasing global population demands improved production to provide food in all sectors, especially in agriculture. Still, at certain periods, demand and supply will not match. Managing and sustaining capital and manpower is still a demanding challenge for improving agricultural production. Smart agriculture is a better option for growing food production, resource management, and labour. This research provides an overview of predictive analysis, Internet of Things (IoT) devices with cloud management, security units for multi-culture in the agriculture sector with considering farmer’s prior experiences. And also highlights the challenges and complications expected while integrating modern technology in the traditional farming practice experience. Based on the statistical and quantitative approaches gives better revolutionary changes in the current agriculture system. Besides, drone activation from IoT encounters crop status and stages, irrigation, plant leaves diseases in the green field. The sensors are activated for various purposes in IoT are discussed. Modern agriculture with state-of-the-art IoT devices and concepts is the main objective of this research. The systematic evaluation provides current and future trends in the agriculture sector.
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Zheng, Yanbing, Yongzhu Cong, Shuai Jiang, Zenghua Yang, and Zhendong Cui. "Innovation of Agricultural Products Trace-ability System in Internet + Eco Agriculture." IOP Conference Series: Materials Science and Engineering 750 (March 24, 2020): 012041. http://dx.doi.org/10.1088/1757-899x/750/1/012041.

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20

Bagal, Shubhada, Tejasvini More, and Ankita Paranjape Prof Supriya Yadav. "Intelligent Agriculture Mechanism using Internet of Things and Image Processing." International Journal of Trend in Scientific Research and Development Volume-3, Issue-2 (February 28, 2019): 798–800. http://dx.doi.org/10.31142/ijtsrd21485.

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21

Bhatnagar, Vivek, Gulbir Singh, Gautam Kumar, and Rajeev Gupta. "INTERNET OF THINGS IN SMART AGRICULTURE: APPLICATIONS AND OPEN CHALLENGES." International Journal of Students' Research in Technology & Management 8, no. 1 (January 26, 2020): 11–17. http://dx.doi.org/10.18510/ijsrtm.2020.812.

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Purpose of Study: The IoT is an emerging field nowadays and that can be used anywhere in automation, agriculture, controlling as well as monitoring of any object, which exists in the real world. We have to make use of IoT in Agriculture to increase productivity. Agro-industry processes could be more efficient by using IoT. It gives automation to agro-industry by reducing human intervention. In the current scenario, the sometime farmer doesn’t know the current status of the soil moisture and other things related to their land and don’t produce productive results towards crops. The purpose of this research study is to explore the usage of IoT devices and application areas that are being used in agriculture. Methodology: The methodology behind this study is to identify trends and review the open challenges, application areas and architectures for IoT in agro-industry. This survey is based on a systematic literature review where related research is grouped into four domains such as monitoring, control, prediction, and logistics. Main Findings: This research study presents a detailed work of the eminent researchers and designs of computer architecture that can be applied in agriculture for smart farming. This research study also highlights various unfolded challenges of IoT in agriculture. Implications: This study can be beneficial for farmers, researchers, and professionals working in agricultural institutions for smart farming. Novelty/Originality of the study: Various eminent researchers have been making efforts for smart farming by using IoT concepts in agriculture. But, a bouquet of unfolded challenges is still in a queue for their effective solution. This study makes some efforts to discuss past research and open challenges in IoT based agriculture.
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Vadlamudi, Siddhartha. "Internet of Things (IoT) in Agriculture: The Idea of Making the Fields Talk." Engineering International 8, no. 2 (December 20, 2020): 87–100. http://dx.doi.org/10.18034/ei.v8i2.522.

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The demand for agricultural crops is moving at a slower pace compared to the human population. There must be increased agricultural productivity. Ongoing innovative advances have added to the ascent of exactness agribusiness, empowering farmers to settle on better choices with more data about their soil, water, yield, and local environment, yet has been generally restricted to popularized and production of cash crops. The objective of smart agribusiness research is to ground a dynamic emotionally supportive network for the management of farms. IoT is being used in agriculture to get to know the crop field by utilizing sensors for monitoring, controlling in the field. It is used to get to know the crop field by utilizing sensors for monitoring, controlling in the field, etc. Recent developments in IoT, comparison between traditional and smart agriculture, and the roles of IoT in agriculture were analyzed in this study. The articles were purposively inspected while the qualitative data gathered was dissected utilizing content analysis. Summarily, the rise of smart agriculture has lowered the practice of traditional farming, as it has enhanced it in no small way. The research likewise showed that the lacuna in agriculture can be filled with IoT. Scalability in technology should be encouraged without affecting the functionalities of the existing infrastructures.
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Modani, Varsha, Ravindra Patil, and Pooja Puri. "Smart Greenhouse Multıfactor Monıtorıng Usıng Iot." International Journal of Engineering & Technology 7, no. 4.19 (November 27, 2018): 1016. http://dx.doi.org/10.14419/ijet.v7i4.19.28278.

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Agriculture plays vital role in the development of agricultural country. Agriculture supports directly or indirectly the economic growth of the country. The biggest thing that holds back the development in the agricultural productivity and efficiency is manual interventions. Agriculture put lots of emphasis on human care in detection and control of different factors such as environment which leads to wastage of manpower and also the desired results are not achieved due to human monitoring error. Greenhouse agriculture in large extent is in urgent need to control the environment factors which give optimum growth of plants. With internet era, proposed work is an integration of greenhouse with IoT. In proposed work Intel Galileo Gen 2 board is used to monitor and control environmental factors for greenhouse like temperature, humidity, soil moisture and light intensity. The user gets updated constantly about the condition of the greenhouse factors using IoT technology. To transmit the data over internet ESP8266Wi-Fi module is used. The experimental results are displayed on ThingSpeak cloud platform. This system avoids the use of dedicated server PC, with the help of internet connectivity user can access the data from anywhere at any time.
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Righetti, Timothy L., and Michael D. Halbleib. "Pursuing Precision Horticulture with the Internet and a Spreadsheet." HortTechnology 10, no. 3 (January 2000): 458–67. http://dx.doi.org/10.21273/horttech.10.3.458.

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Agriculture is changing. State-of-the-art computer systems that use GPS (global positioning systems) data, GIS (geographic information systems) software, remotely sensed images, automated sampling, and information analysis systems are transforming growers' ability to produce their crops. Currently, the farm service and agricultural sales industry, rather than the grower direct most information technology applications. Precision agriculture must become an information-driven and grower-driven process. Data evaluation has to be made simpler, less time consuming, and inexpensive. The purpose of this paper is to outline potential strategies and demonstrate how information can be processed and evaluated with readily available and inexpensive analytical tools.
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Wu, Zhuang, Yun Feng Zhao, and Yuan Lu. "NGI-Oriented Measure and Control System of Agriculture IOT." Applied Mechanics and Materials 568-570 (June 2014): 1389–93. http://dx.doi.org/10.4028/www.scientific.net/amm.568-570.1389.

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Agricultural IOT (Internet of things) is the integration of modern information and communication technology in agriculture. Based on 6LoWPAN wireless sensor networks, this paper puts forward a real-time monitoring system to agricultural environment, in order to improve the function of modern agricultural greenhouse control system. This system uses the 6LoWPAN as backbone to reach the goal of point-to-point communication between NGI (next generation Internet) and wireless sensor networks signed with IPv6. It is no specific gateway to protocol transition and carrying which makes it possible to realize real-time monitoring and controlling of agricultural environment, reduce energy consumption, shorten the delay time.
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Chen, Jie, Ting Hu, Jun Hui Wu, Hui Ping Si, and Kai Yan Lin. "Applications of Internet of Things in Facility Agriculture." Applied Mechanics and Materials 685 (October 2014): 517–23. http://dx.doi.org/10.4028/www.scientific.net/amm.685.517.

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In recent years, Facility Agriculture has been greatly developed in China, but there are still some problems. The application of Internet of Things point out a new orientation for the development of facility agriculture. In this paper, definition and features of IOT was described in details based on facility agriculture and IOT key technologies which were applied in facility agriculture were summarized. This paper finally introduced the present application of IOT in the facility agriculture and predicted its future trends.
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Korotchenya, V. M., G. I. Lichman, and I. G. Smirnov. "Digitalization of Technological Processes of Crop Production in Russia." Agricultural Machinery and Technologies 13, no. 1 (February 21, 2019): 14–20. http://dx.doi.org/10.22314/2073-7599-2018-13-1-14-20.

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Currently, the influence of program documents on digital agriculture development is rather great in our country. Within the framework of the European Association of Agricultural Mechanical Engineering, a relevant definition of agriculture 4.0 has been elaborated and introduced.Research purpose: offering general recommendations on the digitalization of agriculture in RussiaMaterials and methods. The authors make use of the normative approach: the core of digital agriculture is compared with the current state of the agricultural sector in Russia.Results and discussion. The analysis has found that digital agriculture (agriculture 4.0 and 5.0) is based on developed mechanized technologies (agriculture 2.0), precision agriculture technologies (agriculture 3.0), the use of such digital technologies and technical means as the Internet of things, artificial intelligence, and robotics. The success of introducing digital agriculture depends on the success of all the three levels of the system. However, the problem of the lack of agricultural machinery indicates insufficient development of mechanized technologies; poor implementation of precision agriculture technologies means the lack of experience of using these technologies by the majority of farms in our country; an insufficient number of leading Russian IT companies (such as Amazon, Apple, Google, IBM, Intel, Microsoft etc.) weakens the country’s capacity in making a breakthrough in the development of the Internet of things, artificial intelligence, and robotics.Conclusions.The authors have identified the need to form scientific approaches to the digitization of technological operations used in the cultivation of agricultural crops and classified precision agriculture technologies. They have underlined that the digitization of agricultural production in Russia must be carried out along with intensified mechanization (energy saturation); also, to introduce technologies of precision agriculture and digital agriculture, it is necessary to organize state-funded centers for training farmers in the use of these technologies. Finally, it is necessary to take measures to strengthen the development of the IT sphere, as well as formulate an integral approach to the problem of digitalization.
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Gill, Rana. "A Review on Various Techniques to Transform Traditional Farming to Precision Agriculture." Turkish Journal of Computer and Mathematics Education (TURCOMAT) 12, no. 2 (April 11, 2021): 131–35. http://dx.doi.org/10.17762/turcomat.v12i2.690.

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The agricultural sector is of great importance to fulfill food resources need of the country. Precision Agriculture (PA) with Internet of Things and Wireless Sensor Network is a transformation from traditional farming to smart farming. Wireless sensor networks and Internet of Things are considered as drivers to develop system which can change agriculture sector from manual to automatic. Advancement in the technology have pushed the growth of precision agriculture to very large extent despite of several challenges faced in this area. System for precision agriculture relies on hardware components mainly wireless sensors which act as a source for gathering of real time data. Depending upon the real time date retrieved by sensors automation in agriculture is done by adopting decision-based system. With Precision agriculture productivity is optimized by maintaining sustaniability as crop receives what is acutual requirement on the basis of new techniques and software platforms. This review article includes Inernet of Things (IoT), Wireless Sensors, Wireless communication and challenges faced in this area.
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Yu, Feng, You Sen Zhao, Su Fen Sun, Wei Zhang, and Ru Peng Luan. "The Integrated Platform of Crop Condition Monitoring Diagnosis." Advanced Materials Research 485 (February 2012): 275–79. http://dx.doi.org/10.4028/www.scientific.net/amr.485.275.

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Crop monitoring play an important role in the management of agricultural production. This paper presents an integrated platform of crop condition monitoring and diagnosis based on internet of things, as well as its structure and function design. The platform adopted the technology of the internet of things; it achieved fine management of seed and cultivates process by the means of agriculture information real-time collection and monitoring. The platform has certain application value in many agriculture activities, such as livestock management, aquaculture and other and so on.
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Fu, Xueqian, Yazhong Zhou, Feifei Yang, Lingxi Ma, Hai Long, Yujie Zhong, and Peng Ni. "A Review of Key Technologies and Trends in the Development of Integrated Heating and Power Systems in Agriculture." Entropy 23, no. 2 (February 23, 2021): 260. http://dx.doi.org/10.3390/e23020260.

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Petroleum agriculture, characterized by mechanization and chemistry, is developing rapidly in China. However, petroleum agriculture has not only brought food safety problems, but also caused great obstacles to the sustainable development of society. In view of the disadvantages of oil agriculture, we provide an upgrading plan for energy systems in agriculture. This work can help reduce carbon emissions and improve food security. We introduce the most advanced technologies in Chinese agricultural development and the technical scope includes new agricultural energy power generation, agricultural energy use and the safe operation of agricultural energy systems. We describe the detailed data of agricultural bioenvironmental and energy engineering to clarify the level of agricultural energy efficiency in China. The overall conclusion of this paper is that the deep integration of agriculture and energy internet has become the development trend of agricultural energy systems.
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Ni, Ran. "Design and Implementation of Intelligent Greenhouses Based on the Internet of Things." Applied Mechanics and Materials 631-632 (September 2014): 188–91. http://dx.doi.org/10.4028/www.scientific.net/amm.631-632.188.

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With the development of modern agriculture construction, various types of supporting agriculture automation equipment began to use and achieved good economic benefits, at the same time, linkage, information transfer between the various devices become the bottleneck to limit the scale of agricultural production. In this paper, the research object, describes the control, the temperature in the greenhouse automation equipment in humidity control, ventilation system, irrigation system, automation equipment and its linkage, linkage alarm mechanism, the Internet of things technology control system model and the hardware and software realization scheme is given based on. Finally through the network implementation of the joint of various types of equipment and system control and alarm in the greenhouse, avoids some potential risks in agricultural production, saving the modern agricultural production cost and management cost.
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Kustanti, Eni, Agus Rusmana, and Purwanti Hadisiwi. "The Utilization of Internet By Extension Specialist in Efforts to Accelerate Agriculture Information Disemination." Jurnal Penelitian dan Pengembangan Pertanian 39, no. 2 (December 14, 2020): 129. http://dx.doi.org/10.21082/jp3.v39n2.2020.p129-139.

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<p>One of the internet utilization inagricultural developmentby the Ministry Agriculture is to disseminate information of technology innovations to the agricultural extension specialist as intermediary users. This paper discusses the use of the internet by agricultural extension specialist in an effort to accelerate the dissemination of agricultural information. Several internet application used in the dissemination of agricultural information such as the IAARD(Indonesia Agency of Agricultural Research dan Development) website, cyber extension, agricultural digital libraries and social media.The intensity of using the internet by agricultural extension specialist for dissemination of agricultural informastion is still low with the frequency of 2-3 times a day and the duration of 1-2 hours a day because the task of agricultural extension in the field. The used of the internet by agricultural extension are depend on individual characteristic (age, length of work, media ownershipand education), perception on the internet, information needs, motivation and support of agencies. The agricultural extension used the internet for reports, content creation, and extension methods designed. Low internet acces capability and limited access facilities become obstacles on using the internet to obtain the necessary information. The ability of extension specialist to access the internet can meet the needs of agricultural information users and improve the competence of extension specialist themselves.</p><p>Keyword: Internet, dissemination, agricultural technology, extension.</p><p> </p><p><strong>Abstrak</strong></p><p>PEMANFAATAN MEDIA INTERNET OLEH PENYULUH DALAM UPAYA<br />PERCEPATAN DISEMINASI INFORMASI PERTANIAN</p><p>Salah satu pemanfaatan internet di Kementerian Pertanian adalah untuk diseminasi informasi teknologi pertanian kepada penyuluh sebagai pengguna perantara sebelum disampaikan ke petani dengan bahasa yang mudah dicerna. Tulisan ini membahas pemanfaatan internet oleh penyuluh dalam upaya percepatan diseminasi informasi pertanian. Beberapa aplikasi internet untuk diseminasi informasi pertanian diantaranya web Balitbangtan, cyber extension, perpustakaan digital pertanian, dan media sosial. Intensitas penggunaan internet oleh penyuluh untuk diseminasi informasi pertanian masih rendah dengan frekuensi 2-3 kali sehari dan durasi 1-2 jam sehari karena mereka lebih banyak berada di lapangan untuk tugas penyuluhan kepada petani. Penggunaan internet oleh penyuluh antara lain dipengaruhi oleh karakteristik individu (usia, lama bekerja, kepemilikan media, dan pendidikan), persepsi terhadap internet, kebutuhan informasi, motivasi dan dukungan lingkungan. Bagi penyuluh, internet digunakan untuk penyusunan laporan, pembuatan materi, program, dan mendesain metode penyuluhan. Kemampuan akses yang rendah dan keterbatasan sarana parasarana menjadi hambatan dalam pemanfaatan internet untuk memperoleh informasi yang diperlukan. Kemampuan penyuluh mengakses internet berperan penting dalam memenuhi kebutuhan pengguna informasi pertanian dan meningkatkan kompetensi penyuluh itu sendiri.</p><p>Kata kunci: Internet, diseminasi, teknologi pertanian, penyuluh.</p><p><em><br /></em></p>
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Yue, Shuyu, Yirong Du, and Xiao Zhang. "Research and Application of Agricultural Internet of Things Technology in Intelligent Agriculture." Journal of Physics: Conference Series 1769, no. 1 (January 1, 2021): 012020. http://dx.doi.org/10.1088/1742-6596/1769/1/012020.

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Xu, Da Wei, Shan Ren, and Li Ping Yang. "Things in Intelligent Agriculture Applications." Applied Mechanics and Materials 513-517 (February 2014): 444–47. http://dx.doi.org/10.4028/www.scientific.net/amm.513-517.444.

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In this paper, the Internet of things technology used in modern agriculture, the satellite, remote sensing, computer and automatic control, and other high and new technology applied in agricultural production, in order to improve the yield, reduce energy consumption. Of the international advanced technology and mature will be popularized to the country, with less people more agricultural development in our country, in order to solve the bottleneck, reduce pollution and waste, the road of agricultural sustainable development.
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Kang, Jin Cui, and Jing Long Gao. "Application of Ontology Technology in Agricultural Information Retrieval." Advanced Materials Research 756-759 (September 2013): 1249–53. http://dx.doi.org/10.4028/www.scientific.net/amr.756-759.1249.

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The agricultural information on the internet become more and more, it is very difficult to search accurate related information from such different information, in order to improve the efficiency of information retrieval on the internet, the intelligent searching technology of agricultural information based on ontology is proposed. The paper firstly introduces research on the agricultural ontology and information retrieval, and takes agriculture domain knowledge as research object, analyzes the characters of agricultural domain knowledge and semantics retrieval, then uses the agricultural ontology to make the structure of agriculture ontology knowledge, and constructs the related agricultural knowledge ontology and knowledge base, implementing the intelligent searching of the agricultural information. The results indicate that the application of agricultural ontology technology in the agricultural information retrieval not only achieves the intelligent retrieval of agricultural information, but also greatly improves the accuracy and reliability of agricultural information retrieval.
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Li, Chunling, and Ben Niu. "Design of smart agriculture based on big data and Internet of things." International Journal of Distributed Sensor Networks 16, no. 5 (May 2020): 155014772091706. http://dx.doi.org/10.1177/1550147720917065.

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With the wide application of Internet of things technology and era of large data in agriculture, smart agricultural design based on Internet of things technology can efficiently realize the function of real-time data communication and information processing and improve the development of smart agriculture. In the process of analyzing and processing a large amount of planting and environmental data, how to extract effective information from these massive agricultural data, that is, how to analyze and mine the needs of these large amounts of data, is a pressing problem to be solved. According to the needs of agricultural owners, this article studies and optimizes the data storage, data processing, and data mining of large data generated in the agricultural production process, and it uses the k-means algorithm based on the maximum distance to study the data mining. The crop growth curve is simulated and compared with improved K-means algorithm and the original k-means algorithm in the experimental analysis. The experimental results show that the improved K-means clustering method has an average reduction of 0.23 s in total time and an average increase of 7.67% in the F metric value. The algorithm in this article can realize the functions of real-time data communication and information processing more efficiently, and has a significant role in promoting agricultural informatization and improving the level of agricultural modernization.
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Liya, Xi, and Pen Yan. "Design and Application of A Development Framework Based-on Shared Farm Digital Control Platform." E3S Web of Conferences 189 (2020): 01003. http://dx.doi.org/10.1051/e3sconf/202018901003.

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Agriculture through science and technology is an effective way to promote the development of agricultural economy. In response to the problem of the shortage of urban arable land and the barrenness of rural land, it is combined with the sharing economy and agriculture through the Internet platform to propose the concept of using idle rural land to realize urban people’s online pastoral life. Based on this, the application research on the integration of agriculture and the Internet has been carried out. Taking the needs of shared farm management as an example, through the analysis and research of Nginx, Flask and FFmpeg technologies, the development framework of NFF (Nginx+Flask+FFmpeg) web server with live broadcast function is designed. Based on the NFF framework, the management about land use patterns and planting methods in shared farms have been realized. Real-time live broadcast of farms has also been realized, which establishes a connection between consumers, growers and managers, and draws closer The distance between consumers and farms. The article focuses on the design ideas and application methods of the NFF framework in the agricultural management system, and the application of Blueprint technology in the live broadcast module. From the perspective of the application of the shared farm management system, the NFF framework can ensure the stability and scalability of the system functions, while also reducing the difficulty of development and improving the efficiency of development. It provides design ideas and application methods for Internet technology in agriculture. It is helpful to promote the sustainable development of the concept of “Internet + Sharing”, provides a stage for the sharing economy to drive agricultural development, and provides a reference for the structure of a new agricultural management system.
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Jarolímek, J., and J. Vaněk. "The intensity and quality of Internet usage in the agriculture sector and possibilities of its further development – Information." Plant, Soil and Environment 49, No. 11 (December 10, 2011): 525–29. http://dx.doi.org/10.17221/4188-pse.

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The level of the usage of information and communication technologies (ICT) has a&nbsp;direct influence on the development and competitiveness of individuals, firms, production sectors, regions and even the whole continents. The availability of ICT, including the Internet, to agricultural enterprises in theCzechRepublicis already very satisfactory. Due to the structure of agricultural enterprises the penetration of Internet technologies in theCzechRepublicis more intensive than in most EU countries. Therefore an urgent issue is the level of the usage of these technologies that is not an issue related to finances anymore but it is a&nbsp;problem related to the knowledge and habits of users and availability of information and services. The project of the portal for the agriculture sector and countryside AGRIS has a&nbsp;significant impact on the level of the usage of Internet information and services in the agriculture sector.
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Mann, Stefan. "Web-based discourse on agriculture among the general public." British Food Journal 117, no. 1 (January 5, 2015): 388–99. http://dx.doi.org/10.1108/bfj-01-2014-0027.

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Purpose – The discourse about agriculture within Switzerland’s and Germany’s public is to be compared in order to obtain an idea about the impact of the different agricultural systems. The paper aims to discuss this issue. Design/methodology/approach – After a brief description of agricultural systems and policies in Germany and Switzerland, the discourse among the general public in the two countries in internet newsrooms and message boards is analyzed. The subjects of discussions are compared, and selected sequences are analyzed using objective hermeneutics. Findings – Results indicate that, in Germany, agriculture is largely perceived as a black box where food safety is a crucial issue. Although food safety also is discussed in Switzerland, Swiss discussants focus more on changes that should be implemented in agricultural production and policy systems. Research limitations/implications – The quantitative and qualitative evaluation of newsrooms and message boards reveals important insights, particularly in a comparative setting. Practical implications – A small-structured agriculture may contribute to generate trust in the reliability of food safety among consumers. Originality/value – The discourse on German and Swiss internet platforms on agricultural issues reveals significant differences which shows that such an analysis allows important insights.
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Szilágyi, Róbert. "Mobile Internet Usage Possibilities and Requirement in Agriculture." Acta Agraria Debreceniensis, no. 16 (December 6, 2005): 394–402. http://dx.doi.org/10.34101/actaagrar/16/3345.

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In this paper, I looked at the mobile Internet from technological, economical and sociological aspects and then pointed to several agricultural possibilities for theri usage. Examining the effects and driving forces of mobile communication, I can say that it is a very complex system. The social connections of mobile communication and the arising problems show that it affects several areas of everyday life. By looking at the business processes, all costs, advantages and disadvantages can be seen clearly. Overview the mobile Internet from the technological aspect and I discuss related technology and applicable utilities, as well as two possibilities for using wireless Internet: 3G and WiFi. Among the possible usages, I gave several examples to give an impression of all the diverse possibilities this technology offers. There are some really useful applications in customer service, precision farming, transport, agriculture and food industry. Finally, I talked about the mobile Internet in Hungary and in the other EU countries.
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Duan, Yan E. "Research on IOT Technology and IOT’s Application in Urban Agriculture." Advanced Materials Research 457-458 (January 2012): 785–91. http://dx.doi.org/10.4028/www.scientific.net/amr.457-458.785.

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The Internet of Things (IOT) is a self-styled term to describe a new network technology that make all of objects be able to communicate in the Internet via RFID and different sensor devices. It is the basis of intelligent management. In this paper, the concept of IOT was first explained from the side of technology and application etc. Then the model and architecture of IOT were analyzed in detail. Finally, this paper introduced the specific application of IOT in Urban agriculture, and gave the application frame model in agricultural production and agricultural product supply system.
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Wu, Fang, and Junhai Ma. "Evolution Dynamics of Agricultural Internet of Things Technology Promotion and Adoption in China." Discrete Dynamics in Nature and Society 2020 (August 6, 2020): 1–18. http://dx.doi.org/10.1155/2020/1854193.

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Internet of Things is the core technology of smart agriculture and can reform and upgrade traditional agriculture for reducing cost, reducing pollution, and increasing productivity and quality in China. From government-led and market economy perspectives, promotion mechanisms and sustainable adoption of agricultural Internet of Things technology are analyzed. In the initial application phase, the promotion of Internet of Things requires government support. For investigating the relationship between the government and farmers, this study builds an evolutionary game model and finds that increases of cost subsidy, farmers’ negative feedback, government’s positive feedback, and chemical agriculture cost can make the model evolve toward the strategy set: farmer adoption and government support. For long-term development, a sustainable model in competitive market is built by competition game and exponential replication equation. This paper analyzes the equilibrium of adoption ratio, long-run profit, and the conversion between equilibrium points under capacity sharing strategy in competitive market. It is also found that the market will eventually evolve to the technology selection strategy whose long-run average profit dominates the market. The innovations are that evolutionary game is used for analyzing the initial stage and competitive game and asynchronous update mechanism are used for analyzing the sustainable development adoption. At last, references are provided for agricultural Internet of Things development policy from the perspectives of initial promotion and long-run sustainability.
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Etowa, Egbe Bassey, and Olugbenga Wilson Adejo. "Occupational choice and agricultural labour efficiency in Nigeria: Impact of ICTs." Applied Studies in Agribusiness and Commerce 11, no. 1-2 (June 30, 2017): 111–17. http://dx.doi.org/10.19041/apstract/2017/1-2/14.

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Increased labour efficiency is imperative in the developing world and particularly in Nigerian Agriculture which should be in its leaping phase. The interaction between labour efficiency and ICTs is inevitable in the realisation of the nation’s agribusiness potentials. Following a vivid descriptive statistics on main occupations and access to ICTs among the Nigerian populace, this study assessed effects of ICTs on the probability that a working aged Nigerian chose agricultural occupation over non-agricultural occupations. In doing so, the study analysed the effects of access to ICTs on agricultural labour efficiency in Nigeria. Data used for the analysis were drawn from the Nigerian General Household Survey-Panel held in 2010-2011 period. Analytical framework for the study include: Logistic Regression and Multiple Regression Models. Results show that access to mobile phones, using the internet to obtain information, and using the internet to send or receive mails were significant factors of the probability that a Nigerian chose agriculture or its related activities as a main occupation. Again, access to personal computers, use of the internet for e-banking, e-learning and for reading e-newspapers had significant impact on agricultural labour efficiency in Nigeria. The study recommends that labour policies should find a place for the role of ICTs, particularly the internet. JEL. Code: Q12
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Rohtianado, Yedha Ristya, and Nuraini Wahyuning Prasodjo. "Hubungan Motivasi dan Penggunaan Internet dengan Tingkat Kepuasan pada Petani Perempuan." Jurnal Sains Komunikasi dan Pengembangan Masyarakat [JSKPM] 4, no. 2 (February 15, 2020): 249. http://dx.doi.org/10.29244/jskpm.4.2.249-260.

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Nowadays, the internet as an information and communication technology allows being used by all actors without exception, including those involved in agriculture. The use of the internet in the delivery of agricultural information has the opportunity to transform traditional agriculture into modern agriculture. The use of information and communication technology is very close to the identity of men. Women are often only used as objects and find various obstacles. It is suspected that there are differences among women using internet media. This research aims to analyze the relationship between characteristics and motivation with internet usage and the relation between internet usage with the level of satisfaction by women farmers. This research uses census methods to 33 women farmers KWT Puspa Sari in Kedung Badak Village. The results showed that age and income level has a significant correlation with frequency. Motivation factors have correlations with frequency and intensity. Meanwhile, the intensity has a correlation with satisfaction information.Keywords: internet, satisfaction, motivation, women farmers. ABSTRAKSaat ini internet sebagai teknologi informasi dan komunikasi yang memungkinkan untuk digunakan oleh semua pelaku tanpa terkecuali, termasuk pelaku yang menekuni bidang pertanian. Penggunaan internet dalam penyampaian informasi pertanian berpeluang untuk merubah pertanian tradisional menjadi pertanian modern. Pemanfaatan teknologi informasi dan komunikasi sangat dekat dengan identitas laki-laki. Kaum perempuan sering hanya dijadikan sebagai obyek dan menemukan berbagai kendala. Diduga terdapat perbedaan di kalangan perempuan dalam menggunakan media internet. Penelitian ini bertujuan untuk menganalisis hubungan karakteristik dan motivasi dengan penggunaan internet serta bagaimana hubungan penggunaan media internet dengan tingkat kepuasan pada petani perempuan. Penelitian ini menggunakan metode penelitian sensus kepada 33 petani perempuan anggota Kelompok Wanita Tani Puspa Sari di Kelurahan Kedung Badak. Hasil penelitian menunjukkan bahwa faktor usia dan tingkat penghasilan memiliki hubungan yang signifikan dengan frekuensi. Faktor motivasi memiliki hubungan dengan frekuensi dan intensitas. Sementara itu, intensitas memiliki hubungan dengan kepuasan informasi.Kata kunci: internet, kepuasan, motivasi, petani perempuan.
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Shi, De Lin. "Research and Design of Intelligent Agriculture Management System Based on the Internet of Things." Applied Mechanics and Materials 687-691 (November 2014): 1868–71. http://dx.doi.org/10.4028/www.scientific.net/amm.687-691.1868.

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The paper introduces the concept and general situation of Internet of Things technology system. From Hubei province development status and agriculture application level, we proposed a intelligent agriculture management system based on Internet of Things that can long distance inert high speed. According to project implementation condition, summarized the problem of agriculture Internet of Things in the development, discussed study direction in the future.
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Revathy, S., and S. Sathya Priya. "Internet of Things Applications in Agriculture: A Survey." Indian Journal of Public Health Research & Development 9, no. 12 (2018): 2539. http://dx.doi.org/10.5958/0976-5506.2018.02095.8.

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Alhasnawi, Bilal, Basil Jasim, and Bayadir Issa. "Internet of Things (IoT) for Smart Precision Agriculture." Iraqi Journal for Electrical and Electronic Engineering 16, no. 1 (April 12, 2020): 1–11. http://dx.doi.org/10.37917/ijeee.16.1.4.

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The scarcity of clean water resources around the globe has generated a need for their optimum utilization. Internet of Things (IoT) solutions, based on the application-specific sensors’ data acquisition and intelligent processing, are bridging the gaps between the cyber and physical worlds. IoT based smart irrigation management systems can help in achieving optimum water-resource utilization in the precision farming landscape. This paper presents an open-source technology-based smart system to predict the irrigation requirements of a field using the sensing of ground parameters like soil moisture, soil temperature, and environmental conditions along with the weather forecast data from the Internet. The sensing nodes, involved in the ground and environmental sensing, consider soil moisture, air temperature, and relative humidity of the crop field. This mainly focused on wastage of water, which is a major concern of the modern era. It is also time-saving, allows a user to monitor environmental data for agriculture using a web browser and Email, cost-effectiveness, environmental protection, low maintenance and operating cost and efficient irrigation service. The proposed system is made up of two parts: hardware and software. The hardware consists of a Base Station Unit (BSU) and several Terminal Nodes (TNs). The software is made up of the programming of the Wi-Fi network and the system protocol. In this paper, an MQTT (Message Queue Telemetry Transportation) broker was built on the BSU and TU board.
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Stočes, Michal, Jiří Vaněk, Jan Masner, and J. Pavlík. "Internet of Things (IoT) in Agriculture - Selected Aspects." Agris on-line Papers in Economics and Informatics VIII, no. 1 (March 30, 2016): 83–88. http://dx.doi.org/10.7160/aol.2016.080108.

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Sekaran, Kaushik, Maytham N. Meqdad, Pardeep Kumar, Soundar Rajan, and Seifedine Kadry. "Smart agriculture management system using internet of things." TELKOMNIKA (Telecommunication Computing Electronics and Control) 18, no. 3 (June 1, 2020): 1275. http://dx.doi.org/10.12928/telkomnika.v18i3.14029.

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unandan K.R, Ragh, Jason L. yndon Quadras, Guru nandan S, and Karthik S. Shetty. "Usage of Internet of Things in Agriculture Automation." International Journal of Computer Trends and Technology 58, no. 1 (April 25, 2018): 35–39. http://dx.doi.org/10.14445/22312803/ijctt-v58p106.

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