Relevant bibliographies by topics / Agricultural architecture

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Agricultural architecture'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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Journal articles on the topic "Agricultural architecture"

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Utami, Amalia Dian, Sri Yuliani, and Ummul Mustaqimah. "PENERAPAN ARSITEKTUR EKOLOGIS PADA STRATEGI PERANCANGAN SEKOLAH MENENGAH KEJURUAN PERTANIAN DI SLEMAN." ARSITEKTURA 15, no. 2 (November 1, 2017): 340. http://dx.doi.org/10.20961/arst.v15i2.15402.

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<p><em>The design of Sleman Agricultural Vocational High School (SMK Pertanian Sleman) with the approach of ecological architecture is motivated by three things : the existence of agricultural potential in Sleman, the prospect of Agricultural Vocational School in Sleman, and the need to apply ecological architecture on buildings constructed in predominantly agricultural area. SMK Pertanian Sleman aims to educate the community in the surrounding area, create innovations, and aplace to learn modern agriculture. The method used is architectural design that combines the ecological architecture essence according to Heinz Frick, Wanda Widigdo, and V.A. Metallinaou which is combined with ecological architectural components according to Ken Yeang. The result is the design of educational facility which includesclassrooms, laboratories, mini market where students can sell their agricultre product, and other support rooms. </em></p><p><em> </em></p><strong><em>Keywords</em></strong><em>: school of agriculture, ecological architecture, Sleman</em>
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Godoy, Eduardo P., Rubens A. Tabile, Robson R. D. Pereira, Giovana T. Tangerino, Arthur J. V. Porto, and Ricardo Y. Inamasu. "Design and implementation of an electronic architecture for an agricultural mobile robot." Revista Brasileira de Engenharia Agrícola e Ambiental 14, no. 11 (November 2010): 1240–47. http://dx.doi.org/10.1590/s1415-43662010001100015.

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A current trend in the agricultural area is the development of mobile robots and autonomous vehicles for remote sensing. One of the major challenges in the design of these robots is the development of the electronic architecture for the integration and control of the devices. Recent applications of mobile robots have used distributed architectures based on communication networks. A technology that has been widely used as an embedded network is the CAN protocol. The implementation of the ISO11783 standard represents the standardization of the CAN for application in agricultural machinery. This work describes the design and implementation of an electronic architecture for a mobile agricultural robot. The discussions are focused on the developed architecture, the wireless communication system for teleoperation and the distributed control based on CAN protocol and ISO11783. The evaluation of the developed system was based on the analysis of performance parameters such as motor response and architectural time delay obtained with the robot operation. The results show that the developed architecture can be applied for teleoperation and distributed control of agricultural robots meeting the requirements for accurate robot movement and an acceptable response time for robot control commands and supervision.
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Giray, Görkem, and Cagatay Catal. "Design of a Data Management Reference Architecture for Sustainable Agriculture." Sustainability 13, no. 13 (June 30, 2021): 7309. http://dx.doi.org/10.3390/su13137309.

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Effective and efficient data management is crucial for smart farming and precision agriculture. To realize operational efficiency, full automation, and high productivity in agricultural systems, different kinds of data are collected from operational systems using different sensors, stored in different systems, and processed using advanced techniques, such as machine learning and deep learning. Due to the complexity of data management operations, a data management reference architecture is required. While there are different initiatives to design data management reference architectures, a data management reference architecture for sustainable agriculture is missing. In this study, we follow domain scoping, domain modeling, and reference architecture design stages to design the reference architecture for sustainable agriculture. Four case studies were performed to demonstrate the applicability of the reference architecture. This study shows that the proposed data management reference architecture is practical and effective for sustainable agriculture.
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Tummers, J., A. Kassahun, and B. Tekinerdogan. "Reference architecture design for farm management information systems: a multi-case study approach." Precision Agriculture 22, no. 1 (June 1, 2020): 22–50. http://dx.doi.org/10.1007/s11119-020-09728-0.

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AbstractOne of the key elements of precision agriculture is the farm management information system (FMIS) that is responsible for data management, analytics and subsequent decision support. Various FMISs have been developed to support the management of farm businesses. A key artefact in the development of FMISs is the software architecture that defines the gross level structure of the system. The software architecture is important for understanding the system, analysing the design decisions and guiding the further development of the system based on the architecture. To assist in the design of the FMIS architecture, several reference architectures have been provided in the literature. Unfortunately, in practice, it is less trivial to derive the application architecture from these reference architectures. Two underlying reasons for this were identified. First of all, it appears that the proposed reference architectures do not specifically focus on FMIS but have a rather broad scope of the agricultural domain in general. Secondly, the proposed reference architectures do not seem to have followed the proper architecture documentation guidelines as defined in the software architecture community, lack precision, and thus impeding the design of the required application architectures. Presented in this article is a novel reference architecture that is dedicated to the specific FMIS domain, and which is documented using the software architecture documentation guidelines. In addition, the systematic approach for deriving application architectures from the proposed reference architecture is provided. To illustrate the approach, the results of multi-case study research are shown in which the presented reference architecture is used for deriving different FMIS application architectures.
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Fahad, Muhammad, Tariq Javid, Hira Beenish, Adnan Ahmed Siddiqui, and Ghufran Ahmed. "Extending ONTAgri with Service-Oriented Architecture towards Precision Farming Application." Sustainability 13, no. 17 (August 31, 2021): 9801. http://dx.doi.org/10.3390/su13179801.

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The computer science perspective of ontology refers to ontology as a technology, however, with a different perspective in terms of interrogations and concentrations to construct engineering models of reality. Agriculture-centered architectures are among rich sources of knowledge that are developed, preserved, and released for farmers and agro professionals. Many researchers have developed different variants of existing ontology-based information systems. These systems are primarily picked agriculture-related ontological strategies based on activities such as crops, weeds, implantation, irrigation, and planting, to name a few. By considering the limitations on agricultural resources in the ONTAgri scenario, in this paper, an extension of ontology is proposed. The extended ONTAgri is a service-oriented architecture that connects precision farming with both local and global decision-making methods. These decision-making methods are connected with the Internet of Things systems in parallel for the input processing of system ontology. The proposed architecture fulfills the requirements of Agriculture 4.0. The significance of the proposed approach aiming to solve a multitude of agricultural problems being faced by the farmers is successfully demonstrated through SPARQL queries.
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Steiner, Frederick R., and Kenneth R. Brooks. "Agricultural Education and Landscape Architecture." Landscape Journal 5, no. 1 (1986): 19–32. http://dx.doi.org/10.3368/lj.5.1.19.

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Kalichkin, V. K., R. A. Koryakin, and P. K. Kutsenogiy. "Architecture and principles of work of agrarian intelligent system." Siberian Herald of Agricultural Science 49, no. 4 (September 28, 2019): 65–75. http://dx.doi.org/10.26898/0370-8799-2019-4-8.

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The architecture of an agrarian intelligent system is proposed, which forms the basis for a selflearning management decision support system. The system is designed to cover all stages of the preliminary analysis – from the agricultural problem formulation to the provision of an analytical report, forecast or recommendation. Based on the knowledge generated by the system, a person who does not even have a special education in agriculture can make an adequate managerial decision. The system consists of the following set of modules and blocks: the space of agricultural tasks, the space of data sources, data storage, journals, the space of models, the documentation space of decision support, the task (as an element of space), formalization of user data, formation of an input data array for applying the model, the model output data, indicators, models, the access to journals, data selection, the active circuit of the agrarian intelligent system, nodes of the agrarian intelligent system. In the future this system will be able to automate the mаnаgement of agricultural processes within the framework of the approach referred to as “Smart farming”. It is also proposed to use, in addition to the well-known models (imitation, optimization, and others), the concept of agent modeling, on which many modern foreign systems of predictive technologies in agriculture are based. The fl exibility of the system allows one to adapt it in order to solve the widest range of agricultural producer problems depending on the enterprise production specialization, climatic conditions of agricultural activities, the choice of cultivated crops and the level of intensifi cation of agricultural technologies. The system is built as fl exible and wide as possible in order to adapt to various requests, including those that may arise in the future, but have not yet been formulated at present.
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Mayoral, Eduardo. "Growing Architecture through Mycelium and Agricultural Waste." International Journal of the Constructed Environment 1, no. 4 (2012): 87–132. http://dx.doi.org/10.18848/2154-8587/cgp/v01i04/37506.

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Fujii, Akihiro. "Agricultural Application of Web of Things Architecture." Impact 2019, no. 10 (December 30, 2019): 61–63. http://dx.doi.org/10.21820/23987073.2019.10.61.

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The Internet of Things (IoT) is a term that describes a system of computing devices, digital machines, objects, animals or people that are interrelated. Each of the interrelated 'things' are given a unique identifier and the ability to transfer data over a network that does not require human-to-human or human-to-computer interaction. Examples of IoT in practice include a human with a heart monitor implant, an animal with a biochip transponder (an electronic device inserted under the skin that gives the animal a unique identification number) and a car that has built-in sensors which can alert the driver about any problems, such as when the type pressure is low. The concept of a network of devices was established as early as 1982, although the term 'Internet of Things' was almost certainly first coined by Kevin Ashton in 1999. Since then, IoT devices have become ubiquitous, certainly in some parts of the world. Although there have been significant developments in the technology associated with IoT, the concept is far from being fully realised. Indeed, the potential for the reach of IoT extends to areas which some would find surprising. Researchers at the Faculty of Science and Engineering, Hosei University in Japan, are exploring using IoT in the agricultural sector, with some specific work on the production of melons. For the advancement of IoT in agriculture, difficult and important issues are implementation of subtle activities into computers procedure. The researchers challenges are going on.
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Kerkstra, Klass. "Landscape architecture at the Wageningen Agricultural University." Landscape and Urban Planning 30, no. 3 (December 1994): 187–95. http://dx.doi.org/10.1016/0169-2046(94)90058-2.

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Dissertations / Theses on the topic "Agricultural architecture"

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Morkel, CA. "An agricultural high school for Ceres." Thesis, Faculty of Engineering and the Built Environment, 2021. http://hdl.handle.net/11427/33395.

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It is essential for this country that a progressive policy shall be adopted in the field of agriculture for it can be said that the agricultural industry of the Republic plays a leading part in the development of its potential resources and is of great importance to the country's wellbeing. It is the backbone of the country's economic structure, being equalled to in importance only by our mining industry.
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Weitz, Nikki. "The Farmstead: Building, Labor and Identity in Agricultural Ohio." University of Cincinnati / OhioLINK, 2019. http://rave.ohiolink.edu/etdc/view?acc_num=ucin155361391274056.

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Kinkaid, Eden. "The architecture of ecology: Systems design for sustainable agricultural landscapes." Ohio University Honors Tutorial College / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=ouhonors1366983104.

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Mans, Jacob w. "Recycling the Family Farm: exploring implement architecture." University of Cincinnati / OhioLINK, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1276955639.

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Wilson, Erin Marie. "Landscape architecture in the Ag-Ed classroom: cultivating the next generation of designers." Kansas State University, 2016. http://hdl.handle.net/2097/32684.

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Master of Landscape Architecture
Landscape Architecture/Regional and Community Planning
Howard D. Hahn
Landscape architecture education in schools have been focused primarily on elementary and secondary Common Core courses. In many states, career-oriented programs such as agricultural education serve as a platform to teach necessary skills to be successful in all aspects of the agricultural industry. With the shift in lifestyles and technology, agricultural education (Ag-Ed) today has branched out from the traditional farm management courses to food science, natural resources, and landscaping design as well as many others. At schools like Lennox High School in Lennox, South Dakota, students learn plant identification, fundamentals of landscape design, and design graphics. How comprehensive are students' awareness of the landscape architecture profession before, during, and after taking a landscaping course? What are the possibilities of reinforcing foundational skills learned in the landscaping coursework through an outdoor learning environment similar to practical application of other vocational-type courses? How could students be presented a snapshot of the landscape architecture profession that connects the current and future curriculum taught in the Ag-Ed classroom? In order to better understand the landscape architectural aspects of current Ag-Ed, a mixed methods approach was used. First, national, state, and local Ag-Ed curricula standards were reviewed to track how Ag-Ed courses and priorities have changed over time. Next, Ag-Ed students were surveyed before, during, and after taking the Landscaping and Horticultural course offered at Lennox High School to assess potential changes in awareness. Lastly, students currently taking the landscaping course participated in a three-day workshop where they developed ideas for their outdoor learning environment to support current and future Ag-Ed courses and landscape architecture. After the workshop, these students took a post-survey to evaluate ideas produced in the workshop, the future implementation of the workshop, and their level of awareness of the landscape architecture profession. Results from the surveys and workshop show a refinement and increase in landscape architecture awareness, a desire for more hands-on learning conducted outside, and an enthusiasm for using their creativity to design a project for future Ag-Ed students. In subsequent years, future iterations of the workshop will advance planning and design proposals toward implementation.
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Tuttle, William D. (William Davis). "Limited development as a tool for agricultural preservation in Massachusetts." Thesis, Massachusetts Institute of Technology, 1988. http://hdl.handle.net/1721.1/78081.

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Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Architecture; and, (M.C.P.)--Massachusetts Institute of Technology, Dept. of Urban Studies and Planning, 1988.
Includes bibliographical references (leaves 192-197).
Limited development offers the hope of turning market development pressure which threatens open land into a means for financing its protection. In theory, the profit from developing a small portion of a parcel can be used to subsidize the protection of the remainder. This thesis critically examines the financial, institutional, and agricultural effectiveness of limited development as a tool for protecting farmland. An alternative accounting methodology is proposed which expresses cash flows as sources and uses of subsidies for the support of non-market land uses, allowing comparison of limited development and traditional tools for financing land conservation. The model also attempts to determine the extent to which limited development profits are due to enhancement of development land value by the restriction of adjacent open space, market appreciation in real estate prices, and deal-making and subdivision of land. The model assumes the perspective of a non-profit limited developer. The model is then applied to three Massachusetts case studies of farmland preservation through limited development. The agricultural viability of the protected farmland is briefly examined in each case study. The thesis concludes that limited development often provides only a minor supplement to public subsidy programs and private contributions in the protection of farmland, although it can supply significant subsidies in some cases. Furthermore, limited development can put a non-profit into the awkward and risky role of a for-profit developer. Agriculturally, limited development leaves small farm parcels adjacent to residential use. While not ideal, such a pattern is typical of metropolitan areas, and one to which some farmers have successfully adapted.
by William D. Tuttle, III.
M.C.P.
M.S.
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Thiesen, Thais H. Ms. "A Framework for assessing Alternative Agro-Ecosystems: finding Multi-Functional Solutions for Sustainable urban landscapes." FIU Digital Commons, 2016. http://digitalcommons.fiu.edu/etd/3042.

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Creating sustainable urban landscapes in light of growing population pressures requires interdisciplinary multi-functional solutions. Alternative agro-ecosystems described as food forests, permaculture gardens, and/or edible landscapes among others could offer potential ways to address the social, economic and ecological goals of various stakeholders simultaneously. The present research used a unique rubric, the Permaculture and Agro-ecosystems Sustainability Scorecard (PASS) that combines existing agricultural and landscape sustainability indicators in order to assess alternative agro-ecosystems. The rubric evaluates provisioning, regulating, supporting and cultural ecosystem services such as pollinator presence, biodiversity, pesticides and fertilizer use, carbon sequestration and human interactions. The PASS was used to score twelve sites in South Florida that meet specific criteria in the small farm, residential and public space categories. The results showed that the majority of the sites scored highest in the supporting services provided, followed by regulating and cultural services and lowest in the economic services category.
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Palacios, Jonathan, Erik Maquera, and Carlos Toledo. "Hydraulic Technology, Agricultural Expansion, And Non-Monumental Settlements During The Lima Period." Pontificia Universidad Católica del Perú, 2016. http://repositorio.pucp.edu.pe/index/handle/123456789/113331.

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The purpose of this article is to provide new evidence that contributes to an understanding of the processes that led to the creation of Late Lima monumental centers. is evidence comes from the Huachipa plains and non-monumental settlements located in the middle Rimac Valley such as San Antonio-Huachipa, El Golf de Huampaní (also known as El Vallecito), and Pancha Paula located in the Chillon valley.
El propósito de este trabajo es aportar nueva evidencia que contribuya a explicar los procesos que dieron origen a los centros monumentales Lima Tardío, con evidencia procedente de la llanura de Huachipa y asentamientos no monumentalesdel valle medio del Rímac como San Antonio-Huachipa, El Golf de Huampaní (en adelante El Vallecito) y Pancha Paula en el valle del Chillón.
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ANDREWS, ABBY S. "Persistent Variation: An Architectural Response to the Human Experience." University of Cincinnati / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1212077858.

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Stephan, Jean. "Architecture 3D et microclimat lumineux de l'arbre." Phd thesis, Clermont-Ferrand 2, 2007. http://www.theses.fr/2007CLF21754.

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L'effet de deux méthodes de conduite contrastées (Central Leader vs. Conduite Centrifuge) est étudié sur trois cultivars de pommiers architecturalement distincts ; 'Scarletspur Delicious' , 'Golden Delicious' et 'Granny Smith'. Les arbres sont digitalisés en 3D en utilisant un outil électromagnétique à l'échelle des pousses deux fois en cours de première année et avant la récolte en deuxième année. Les pousses sont décrites et classifiées selon leur longueur et leur typologie (fructifères vs. Végétatives). Le bois porteur est également décrit en deuxième année en mettant l'accent sur la stratégie de taille (bois porteur taillé vs. Non taillé). Des expérimentations virtuelles sont réalisées à travers la reconstruction du feuillage, la création de maquettes 3D et la simulation de l'interception de la lumière, à l'échelle de l'arbre, des types de pousses et des pousses individuelles. Un modèle simplifié pour l'estimation de l'interception de la lumière par les arbres isolés est proposé, en utilisant des paramètres de structure du feuillage. La démographie et la séquence des pousses sont principalement affectées par le cultivar, avec une faible influence du mode de conduite. Une tendance similaire est observée à l'échelle de l'arbre pour les paramètres de structure du feuillage et de la lumière. La distribution spatiale des pousses et la densité de surface foliaire se différencient selon le mode de conduite. 'Scarletspur Delicious' est un arbre de forme réduite et compacte par rapport aux deux autres cultivars qui possèdent des arbres plus ouverts et plus grands. L'effet des systèmes de conduite se traduit par une plus grande proportion de pousses végétatives longues et réitérées (R-LVS) sur les arbres en Central Leader. Ces derniers présentent une distribution hétérogène de la surface foliaire et de l'interception de la lumière des deux types de pousses causées par les R-LVS qui augmentent l'ombrage mutuel des pousses. Ces différences varient en fonction des cultivars et sont plus tranchées chez Granny Smith. Les paramètres étudiés montrent que le système de conduite pourrait avoir un impact direct sur le développement et le positionnement spatial des pousses. Ceci affecte notablement la floraison et la production, même si la croissance et la structure de l'arbre dépendent essentiellement du cultivar
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Books on the topic "Agricultural architecture"

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Maryn, Sonia. The Chernochan machine shed: Ukrainian farm practices in East Central Alberta. [Edmonton]: Alberta Culture, 1985.

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Maryn, Sonia. The Chernochan machine shed: A land use and structural history. [Calgary]: Alberta Culture, 1985.

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Maryn, Sonia. The Chernochan machine shed: A land use and structural history. [Edmonton]: Alberta Culture, 1985.

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Ervin, Brenda. Country faith: Rural America stories of faith from forty of the most inspirational people of our time. [Hartland, MI]: Rural America Books, 2009.

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White, Edward T. Interviews with architects about facility programming. Tucson: Architectural Media Ltd., 1991.

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Zhemchuzhina v Gorkakh: Arkhitekturnyĭ ansamblʹ selʹskokhozi︠a︡ĭstvennoĭ akademii. Minsk: Izdatelʹstvo Viktora Khursika, 2010.

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Thorbeck, Dewey. Architecture and Agriculture. Milton Park, Abingdon, Oxon ; New York, NY : Routledge, 2017. |: Routledge, 2016. http://dx.doi.org/10.4324/9781315676166.

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Canada, Canada Agriculture and Agri-Food. Putting Canada first : an architecture for agricultural policy in the 21st century =: Le Canada en tête : un cadre pour la politique agricole au XXIe siècle. Ottawa, Ont: Agriculture and Agri-Food Canada, 2002.

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Creating Old World Wisconsin: The struggle to build an outdoor history museum of ethnic architecture. Madison, Wis: The University of Wisconsin Press, 2013.

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Agricultural marketing enterprises for the developing world: With case studies of indigenous private, transnational, cooperative, and parastatal enterprise. Cambridge [Cambridgeshire]: Cambridge University Press, 1987.

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Book chapters on the topic "Agricultural architecture"

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He, Zhiyong, Lecai Cai, Hongchan Li, and Jujia Xu. "The Service Architecture of Agricultural Informatization." In Computer and Computing Technologies in Agriculture III, 32–39. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-12220-0_6.

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Andreotti, Jacopo, Denis Faruku, and Roberto Giordano. "Cross-Fertilization Between Architecture and Agricultural: A Circular Supply Chain." In Sustainability in Energy and Buildings 2020, 243–54. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-8783-2_20.

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Shwetha, B. V., N. S. Bhat, and T. Neethu. "Nesting Behaviour, Structure and Architecture of Apis florea." In The Future Role of Dwarf Honeybees in Natural and Agricultural Systems, 95–105. First edition. | Boca Raton, FL : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9781003033936-7.

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Sachs, Wolfgang, and Tilman Santarius. "Towards a New Architecture of Agricultural Trade in the World Market." In Food Ethics, 185–203. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-1-4419-5765-8_12.

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Nebot, Patricio, Joaquín Torres-Sospedra, and Rafael Martínez. "A Case Study on Agriture: Distributed HLA-Based Architecture for Agricultural Robotics." In Advances in Intelligent and Soft Computing, 353–60. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-19934-9_45.

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Hinsinger, Philippe, Michael J. Bell, John L. Kovar, and Philip J. White. "Rhizosphere Processes and Root Traits Determining the Acquisition of Soil Potassium." In Improving Potassium Recommendations for Agricultural Crops, 99–117. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-59197-7_4.

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AbstractPlants acquire K+ ions from the soil solution, and this small and dynamic pool needs to be quickly replenished via desorption of surface-adsorbed K from clay minerals and organic matter, by release of interlayer K from micaceous clay minerals and micas, or structural K from feldspars. Because of these chemical interactions with soil solid phases, solution K+ concentration is kept low and its mobility is restricted. In response, plants have evolved efficient strategies of root foraging. Root traits related to root system architecture (root angle and branching), root length and growth, together with root hairs and mycorrhiza-related traits help to determine the capacity of plants to cope with the poor mobility of soil K. Rooting depth is also important, given the potentially significant contribution of subsoil K in many soils. Root-induced depletion of K+ shifts the exchange equilibria, enhancing desorption of K, as well as the release of nonexchangeable, interlayer K from minerals in the rhizosphere. Both these pools can be bioavailable if plant roots can take up significant amounts of K at low concentrations in the soil solution (in the micromolar range). In addition, roots can significantly acidify their environment or release large amounts of organic compounds (exudates). These two processes ultimately promote the dissolution of micas and feldspars in the rhizosphere, contributing to the mining strategy evolved by plants. There are thus several root or rhizosphere-related traits (morphological, physiological, or biochemical) that determine the acquisition of K by crop species and genotypes.
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Papajorgji, Petraq, Ryan Clark, and Eric Jallas. "The Model Driven ArchitectureModel Driven Architecture MDA Approach: A Framework for Developing Complex Agricultural Systems." In Springer Optimization and Its Applications, 1–18. Boston, MA: Springer US, 2008. http://dx.doi.org/10.1007/978-0-387-75181-8_1.

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Francese, Dora, Ana-Maria Dabija, Ovidiu-Horaţiu Teleche, and Nicolina Mastrangelo. "Employing Second Matter from Agricultural Sector in Architecture: A Comparison Between the Italian and Romanian Situation." In Progress in Clean Energy, Volume 2, 369–83. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17031-2_26.

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Zhiguo, Sun, Xia Hui, and Wang Wensheng. "An Architecture for the Agricultural Machinery Intelligent Scheduling in Cross-Regional Work Based on Cloud Computing and Internet of Things." In Computer and Computing Technologies in Agriculture IV, 9–15. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-18333-1_2.

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Guillermo, Juan Carlos, Andrea García-Cedeño, David Rivas-Lalaleo, Mónica Huerta, and Roger Clotet. "IoT Architecture Based on Wireless Sensor Network Applied to Agricultural Monitoring: A Case of Study of Cacao Crops in Ecuador." In Advances in Intelligent Systems and Computing, 42–57. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-04447-3_3.

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Conference papers on the topic "Agricultural architecture"

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Gomes, Jonas S., José Maria N. David, Regina Braga, Wagner Arbex, Bryan Barbosa, Wneiton Luiz Gomes, and Leonardo M. Gravina Fonseca. "e-LivestockProv: An Architecture based on Provenance to Manage Traceability in Precision Livestock Farming." In Workshop de Práticas de Ciência Aberta para Engenharia de Software. Sociedade Brasileira de Computação, 2021. http://dx.doi.org/10.5753/opensciense.2021.17145.

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The use of sensors in the agricultural sector generates a large volume of heterogeneous data that must be processed, stored, and analyzed to support decisions. In addition, decisions taken in agriculture need to be traceable due to the diversity of data and devices present in different agricultural contexts. With provenance, we can trace and analyze data to improve future decisions and avoid the usefulness ones. This article presents the e-LivestockProv architecture, focusing on data provenance.
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Harrison, Ariane Lourie. "Architecture and Analogous Habitats." In AIA/ACSA Intersections Conference. ACSA Press, 2020. http://dx.doi.org/10.35483/acsa.aia.inter.20.5.

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Harrison Atelier proposes architecture for multiple species in projects that range from pavilion-scale agricultural infrastructure to speculations for new urban ecologies. Such built work represents the application of principles from architectural theories of the posthuman, namely a focus that seeks to integrate habitats for non-humans into architectural design concerns. The Pollinators Pavilion by architect Ariane Harrison, seeks a larger role for architecture in environmental activism and focuses on biodiversity conservation and materials exploration. Harrison Atelier uses artificial intelligence and automated scientific monitoring strategies to create and analyze habitat systems and increase building awareness.
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Jain, Lokesh, Harish Kumar, and R. K. Singla. "Hybrid architecture for localized agricultural information dissemination." In 2014 Recent Advances in Engineering and Computational Sciences (RAECS). IEEE, 2014. http://dx.doi.org/10.1109/raecs.2014.6799533.

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Mondal, Sabyasachi, Alex Williamson, Zhengjia Xu, and Antonios Tsourdos. "Autonomous Architecture for UAV-based Agricultural Survey." In AIAA Scitech 2020 Forum. Reston, Virginia: American Institute of Aeronautics and Astronautics, 2020. http://dx.doi.org/10.2514/6.2020-2298.

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David Kohanbash, Marcel Bergerman, Karen M Lewis, and Stewart J Moorehead. "A Safety Architecture for Autonomous Agricultural Vehicles." In 2012 Dallas, Texas, July 29 - August 1, 2012. St. Joseph, MI: American Society of Agricultural and Biological Engineers, 2012. http://dx.doi.org/10.13031/2013.41743.

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Abdullah, Rusli, Azmi Jaafar, Hamidah Ibrahim, Mohd Hasan Selamat, Suhaimi Napis, and Rodziah Atan. "Knowledge Management system architecture in agricultural industries environment." In 2008 International Symposium on Information Technology. IEEE, 2008. http://dx.doi.org/10.1109/itsim.2008.4631648.

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"Community Based Adaptation to Climate Change through Integrated Agricultural Approach." In International Conference on Green Buildings, Civil and Architecture Engineering. Universal Researchers, 2015. http://dx.doi.org/10.17758/ur.u1215306.

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Sacala, Ioan Stefan, Ioan Dumitrache, Mihnea Alexandru Moisescu, Aurelian Mihai Stanescu, and Simona Iuliana Caramihai. "Agricultural enterprise architecture based on cyber physical systems paradigm." In 2017 International Conference on Engineering, Technology and Innovation (ICE/ITMC). IEEE, 2017. http://dx.doi.org/10.1109/ice.2017.8280031.

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Lamrhari, Soumaya, Hamid Elghazi, Tayeb Sadiki, and Abdellatif El Faker. "A profile-based Big data architecture for agricultural context." In 2016 International Conference on Electrical and Information Technologies (ICEIT). IEEE, 2016. http://dx.doi.org/10.1109/eitech.2016.7519585.

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Sun, Ling, and Zesheng Zhu. "A RS/GIS-based architecture for monitoring agricultural disasters." In 2012 IEEE International Conference on Computer Science and Automation Engineering (CSAE). IEEE, 2012. http://dx.doi.org/10.1109/csae.2012.6272717.

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Reports on the topic "Agricultural architecture"

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Hunter, Fraser, and Martin Carruthers. Iron Age Scotland. Society for Antiquaries of Scotland, September 2012. http://dx.doi.org/10.9750/scarf.09.2012.193.

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The main recommendations of the panel report can be summarised under five key headings:  Building blocks: The ultimate aim should be to build rich, detailed and testable narratives situated within a European context, and addressing phenomena from the longue durée to the short-term over international to local scales. Chronological control is essential to this and effective dating strategies are required to enable generation-level analysis. The ‘serendipity factor’ of archaeological work must be enhanced by recognising and getting the most out of information-rich sites as they appear. o There is a pressing need to revisit the archives of excavated sites to extract more information from existing resources, notably through dating programmes targeted at regional sequences – the Western Isles Atlantic roundhouse sequence is an obvious target. o Many areas still lack anything beyond the baldest of settlement sequences, with little understanding of the relations between key site types. There is a need to get at least basic sequences from many more areas, either from sustained regional programmes or targeted sampling exercises. o Much of the methodologically innovative work and new insights have come from long-running research excavations. Such large-scale research projects are an important element in developing new approaches to the Iron Age.  Daily life and practice: There remains great potential to improve the understanding of people’s lives in the Iron Age through fresh approaches to, and integration of, existing and newly-excavated data. o House use. Rigorous analysis and innovative approaches, including experimental archaeology, should be employed to get the most out of the understanding of daily life through the strengths of the Scottish record, such as deposits within buildings, organic preservation and waterlogging. o Material culture. Artefact studies have the potential to be far more integral to understandings of Iron Age societies, both from the rich assemblages of the Atlantic area and less-rich lowland finds. Key areas of concern are basic studies of material groups (including the function of everyday items such as stone and bone tools, and the nature of craft processes – iron, copper alloy, bone/antler and shale offer particularly good evidence). Other key topics are: the role of ‘art’ and other forms of decoration and comparative approaches to assemblages to obtain synthetic views of the uses of material culture. o Field to feast. Subsistence practices are a core area of research essential to understanding past society, but different strands of evidence need to be more fully integrated, with a ‘field to feast’ approach, from production to consumption. The working of agricultural systems is poorly understood, from agricultural processes to cooking practices and cuisine: integrated work between different specialisms would assist greatly. There is a need for conceptual as well as practical perspectives – e.g. how were wild resources conceived? o Ritual practice. There has been valuable work in identifying depositional practices, such as deposition of animals or querns, which are thought to relate to house-based ritual practices, but there is great potential for further pattern-spotting, synthesis and interpretation. Iron Age Scotland: ScARF Panel Report v  Landscapes and regions:  Concepts of ‘region’ or ‘province’, and how they changed over time, need to be critically explored, because they are contentious, poorly defined and highly variable. What did Iron Age people see as their geographical horizons, and how did this change?  Attempts to understand the Iron Age landscape require improved, integrated survey methodologies, as existing approaches are inevitably partial.  Aspects of the landscape’s physical form and cover should be investigated more fully, in terms of vegetation (known only in outline over most of the country) and sea level change in key areas such as the firths of Moray and Forth.  Landscapes beyond settlement merit further work, e.g. the use of the landscape for deposition of objects or people, and what this tells us of contemporary perceptions and beliefs.  Concepts of inherited landscapes (how Iron Age communities saw and used this longlived land) and socal resilience to issues such as climate change should be explored more fully.  Reconstructing Iron Age societies. The changing structure of society over space and time in this period remains poorly understood. Researchers should interrogate the data for better and more explicitly-expressed understandings of social structures and relations between people.  The wider context: Researchers need to engage with the big questions of change on a European level (and beyond). Relationships with neighbouring areas (e.g. England, Ireland) and analogies from other areas (e.g. Scandinavia and the Low Countries) can help inform Scottish studies. Key big topics are: o The nature and effect of the introduction of iron. o The social processes lying behind evidence for movement and contact. o Parallels and differences in social processes and developments. o The changing nature of houses and households over this period, including the role of ‘substantial houses’, from crannogs to brochs, the development and role of complex architecture, and the shift away from roundhouses. o The chronology, nature and meaning of hillforts and other enclosed settlements. o Relationships with the Roman world
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