Готові списки джерел за темами / BioDIGOTA

Добірка наукової літератури з теми "BioDIGOTA"

Автор: Grafiati
Опубліковано: 14 березня 2023

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Статті в журналах з теми "BioDIGOTA"

1

Permatasari, Melania Iko, Intan Pratiwi, Raja Angraini Ahza Sazwita, and Much Fuad Saifuddin. "BioDigital human: Media pembelajaran di era new normal." Bioma : Jurnal Ilmiah Biologi 11, no. 1 (April 14, 2022): 50–60. http://dx.doi.org/10.26877/bioma.v11i1.9723.

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ABSTRAKMedia digital 3D berperan penting sebagai sarana bagi siswa untuk membangun pengetahuan pada pembelajaran jarak jauh. BioDigital Human merupakan aplikasi yang telah ada sejak lama, namun belum banyak digunakan oleh guru di Indonesia. Penelitian ini bertujuan untuk mengetahui persepsi siswa terhadap platform BioDigital Human dalam pembelajaran biologi pokok bahasan anatomi tubuh manusia. Jenis penelitian yang digunakan adalah penelitian kuantitatif dengan pendekatan survei. Instrumen penelitian berupa angket persepsi terhadap BioDigital Human yang terdiri dari 5 aspek yaitu aspek ketertarikan, aspek rasa senang, aspek motivasi, aspek pemahaman dan aspek keinginan. Teknik analisis data yang digunakan menggunakan analisis deskriptif kuantitatif. Sampel penelitian diambil secara acak yang diperoleh dari 100 siswa kelas XI MIPA SMA Negeri 1 Parakan. Hasil penelitian diperoleh pada aspek ketertarikan rerata respon sebesar 77%, aspek rasa senang sebesar 74%, aspek motivasi sebesar 75%, aspek pemahaman sebesar 79%, aspek keinginan sebesar 77%. Rerata respon siswa dari keseluruhan aspek terhadap platform BioDigital Human termasuk dalam kategori kuat. Rata-rata siswa tertarik, senang, dan semangat belajar. Kendala yang ditemukan dalam penggunaan BioDigital Human bagi siswa terdapat beberapa materi berbayar sehingga tidak dapat diakses dan materi disajikan dalam bahasa Inggris. Siswa mempunyai keinginan guru menggunakan BioDigital Human. Platform BioDigital Human memudahkan siswa memahami konsep abstrak dalam pembelajaran biologi. Kata Kunci: BioDigital Human; media pembelajaran; persepsi ABSTRACTBioDigital Human: Learning media in the new normal era. Three dimensional (3D) digital media plays a vital role in building the knowledge of students. BioDigital Human is an application that has been around for a long time but has not been widely used by teachers in Indonesia. This study aims to determine students' perceptions of the BioDigital Human platform in learning biology on human anatomy. The research method uses descriptive quantitative with a survey approach. The research instrument is a perceptual questionnaire on BioDigital Human consisting of 5 aspects, aspects of interest, aspects of pleasure, aspects of motivation, aspects of understanding, and aspects of desire. The data analysis technique used was descriptive quantitative analysis. The research sample was taken randomly from 100 students of class XI MIPA SMA Negeri 1 Parakan. The BioDigital Human platform perception obtained in the aspect of interest was 77 %, aspect of pleasure was 74 %, aspect of motivation was 75 %, aspect of understanding was 79 %, aspect of desire was 77 %. The average student response from all aspects to BioDigital Human are in strong category. On average, students are interested, happy, and eager to learn. Students have the teacher's desire to use BioDigital Human. The BioDigital Human platform makes it easy for students to understand abstract concepts in biology learning. Problems found in using BioDigital Human for students are that some paid materials are not accessible, and the material is presented in English Keywords: emotional intelligence; learning outcomes; naturalist intelligence
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2

Wang, W. "The Biodigital Brain." Science Translational Medicine 3, no. 89 (June 29, 2011): 89ec101. http://dx.doi.org/10.1126/scitranslmed.3002801.

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3

Abdallah, Yomna K., and Alberto T. Estévez. "Biodigital design and symbolism in the Sagrada Familia Biodigital Bridge." World Review of Science, Technology and Sustainable Development 1, no. 1 (2022): 1. http://dx.doi.org/10.1504/wrstsd.2022.10044035.

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4

Jauffret, Marie-Nathalie, and Vanessa Landaverde-Kastberg. "Portrait du personnage biodigital." Hermès 82, no. 3 (2018): 91. http://dx.doi.org/10.3917/herm.082.0091.

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5

Estévez, Alberto T., and Yomna K. Abdallah. "The New Standard Is Biodigital: Durable and Elastic 3D-Printed Biodigital Clay Bricks." Biomimetics 7, no. 4 (October 10, 2022): 159. http://dx.doi.org/10.3390/biomimetics7040159.

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In a previously published study, the authors explained the formal design efficiency of the 3D-printed biodigital clay bricks 3DPBDCB: a project that aimed to change the conventional methods of clay brick design and mass production. This was achieved by employing the behavioural algorithms of reaction-diffusion and the shortest path that were extracted from the exact material physical properties and hydrophilic behaviours of clay and controlled material deposition 3D printing to create sustainable clay bricks. Sustainability in their use in the built environment and their production processes, with full potential sustainability aspects such as passive cooling, thermal and acoustical insulation, and bio receptivity. The current work studies the mechanical properties of the 3D-printed biodigital clay bricks as elastic and durable clay bricks whose properties depend mainly on their geometrical composition and form. Each of the three families of the 3D-printed biodigital clay bricks (V1, V2, V3) includes the linear model of a double line of 0.5 cm thickness and a bulk model of 55% density were tested for compression and elasticity and compared to models of standard industrial clay bricks. The results revealed that the best elasticity pre-cracking was achieved by the V2 linear model, followed by the V3 linear model, which also achieved the highest post-cracking elasticity—enduring until 150 N pre-cracking and 200 N post-cracking, which makes the V3 linear model eligible for potential application in earthquake-resistant buildings. While the same model V3-linear achieved the second-best compressive strength enduring until 170 N. The best compressive strength was recorded by the V1 linear and bulk model enduring up to 240 N without collapsing, exceeding the strength and resistance of the industrial clay bricks with both models, where the bulk and the perforated collapsed at 200 N and 140 N, respectively. Thus, the mass production and integration of the V1 bulk and linear model and the V3 linear model are recommended for the construction industry and the architectural built environment for their multi-aspect sustainability and enhanced mechanical properties.
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6

Abdallah, Yomna K., and Alberto T. Estévez. "3D-Printed Biodigital Clay Bricks." Biomimetics 6, no. 4 (October 7, 2021): 59. http://dx.doi.org/10.3390/biomimetics6040059.

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Construction materials and techniques have witnessed major advancements due to the application of digital tools in the design and fabrication processes, leading to a wide array of possibilities, especially in additive digital manufacturing tools and 3D printing techniques, scales, and materials. However, possibilities carry responsibilities with them and raise the question of the sustainability of 3D printing applications in the built environment in terms of material consumption and construction processes: how should one use digital design and 3D printing to achieve minimum material use, minimum production processes, and optimized application in the built environment? In this work, we propose an optimized formal design of “Biodigital Barcelona Clay Bricks” to achieve sustainability in the use of materials. These were achieved by using a bottom-up methodology of biolearning to extract the formal grammar of the bricks that is suitable for their various applications in the built environment as building units, thereby realizing the concept of formal physiology, as well as employing the concept of fractality or pixilation by using 3D printing to create the bricks as building units on an architectural scale. This enables the adoption of this method as an alternative construction procedure instead of conventional clay brick and full-scale 3D printing of architecture on a wider and more democratic scale, avoiding the high costs of 3D printing machines and lengthy processes of the one-step, 3D-printed, full-scale architecture, while also guaranteeing minimum material consumption and maximum forma–function coherency. The “Biodigital Barcelona Clay Bricks” were developed using Rhinoceros 3D and Grasshopper 3D + Plugins (Anemone and Kangaroo) and were 3D printed in clay.
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7

Dollens, Dennis. "Architecture as Nature: A Biodigital Hypothesis." Leonardo 42, no. 5 (October 2009): 412–20. http://dx.doi.org/10.1162/leon.2009.42.5.412.

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The author's 2005 Leonardo publication documented a biology-based procedure for generating experimental digital architecture. The text evolved out of Louis Sullivan's morphological lexicon and design process as articulated in A System of Architectural Ornament. The present article is rooted in that paper but here infused with theoretical ideas from Leibniz, Deleuze, Rajchman and Dawkins emphasizing biodesign and bioarchitecture's role as part of nature. In addition, new projects and digitally grown tree/truss experiments illustrate generative, digital-botanic designs integrating biological simulation and/or 3D parametric components inspired by nature.
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Estévez, Alberto T., and Diego Navarro. "Biomanufacturing the Future: Biodigital Architecture & Genetics." Procedia Manufacturing 12 (2017): 7–16. http://dx.doi.org/10.1016/j.promfg.2017.08.002.

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9

Peters, Michael A., Petar Jandrić, and Sarah Hayes. "Biodigital Philosophy, Technological Convergence, and Postdigital Knowledge Ecologies." Postdigital Science and Education 3, no. 2 (January 11, 2021): 370–88. http://dx.doi.org/10.1007/s42438-020-00211-7.

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10

O’Riordan, Kate. "Writing Biodigital Life: Personal Genomes and Digital Media." Biography 34, no. 1 (2011): 119–31. http://dx.doi.org/10.1353/bio.2011.0001.

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Дисертації з теми "BioDIGOTA"

1

Costa, Couceiro Mauro. "Analogías biológicas en la arquitectura - del acercamiento biónico hacia los paradigmas de lo biodigital." Doctoral thesis, Universitat Internacional de Catalunya, 2009. http://hdl.handle.net/10803/9329.

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Se parte del argumento de que las analogías con las investigaciones en el campo de la biología son fuentes válidas de organización y estructuración de proyectos, además de una metodología capaz de autoorganizar y optimizar modelos, aportando nuevas herramientas y nuevos contenidos teóricos al campo de la arquitectura.

El objetivo principal se centró en descubrir cómo las nuevas tecnologías pueden redefinir y asistir en el proceso de creación de las analogías biológicas.
Además de una investigación histórica y filosófica, se crearon y experimentaron distintos programas de modelación en que, por una parte la analogía biológica de la forma se efectúa a través de la generación de emulaciones morfológicas naturales, y por otra, las analogías del proceso genético comienzan con el tratamiento paramétrico de la forma y con la manipulación del código.
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2

LEITE, CORREIA DE TOLEDO PEDRO FILIPE. "Digital-Based Analog Processing in Nanoscale CMOS ICs for IoT Applications." Doctoral thesis, Politecnico di Torino, 2022. http://hdl.handle.net/11583/2969648.

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3

Angad, Warang. "Architecture of Computational Ecosystems." Doctoral thesis, Universitat Internacional de Catalunya, 2022. http://hdl.handle.net/10803/673717.

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Industry 4.0 ha transformado rápida y significativamente la industria AEC a nivel mundial desde principios de la década de 2000. La profesión profesional de la arquitectura alográfica hasta finales de la década de 1990 ha visto un cambio de paradigma hacia una práctica más autográfica después de la inclusión del algoritmo en el desarrollo tradicional de la forma construida a través de los medios del diseño. Este advenimiento del algoritmo en la industria AEC viene con un sólido soporte de infraestructura del aumento sin precedentes del diseño computacional y la fabricación digital. Al observar la tasa de progreso tecnológico, es muy probable que el diseño computacional se vuelva más autónomo y la fabricación digital se vuelva más impulsada por los datos. Debido a esta mayor probabilidad en la ubicuidad del algoritmo, el diseño como herramienta para la racionalización de la forma, el espacio y el cerramiento y el diseño como herramienta para la creación de un documento de construcción se encuentra en el umbral de volverse redundante. La investigación y esta tesis se basan en el supuesto de que el diseño sería reemplazado por una lógica comunicacional entre la forma construida y el algoritmo
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4

Maksoud, Aref. "Parametric Design and Digital Fabrication: Journey with parametric design and digital fabrication in architecture." Doctoral thesis, Universitat Internacional de Catalunya, 2017. http://hdl.handle.net/10803/456562.

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Complexity and Strategies for parametric design in architecture. An application of practice led research. Nowadays a new specialist design role is emerging in the construction industry. The primary task related to this role is focused on the control, development and sharing of geometric information with members of the design team in order to develop a design solution. Individuals engaged in this role can be described as a parametric designers. Parametric design involves the exploration of multiple solutions to architectural design problems using parametric models. In the past these models have been defined by computer programs, now commercially available parametric software provides a simpler means of creating these models. It is anticipated that the emergence of parametric designers will spread and a deeper understanding of the role is required. This thesis is aimed at establishing an understanding of the tasks related to this new specialism and to develop a set of considerations that should be made when undertaking these tasks. The position of the parametric designer in architectural practice presents new opportunities in the design process this thesis also aims to capture these. Through research and design, this thesis seeks to answer two questions: what is parametric design and how can it benefit the field of architecture? Looking at historical and present-day sources, the evolution of computer aided design has been drawn out leading to the emergence of parametric design. An explanation and analysis of parametric tools, including a series of case studies, has been conducted to show how these tools are presently being utilized by designers.
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5

HUANG, PEI-TING, and 黃珮婷. "A Study on Warm-up Course with BioDigital Platform." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/30951796291272147788.

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碩士
亞洲大學
資訊工程學系碩士在職專班
105
It is important to warm the body to avoid sports injuries before exercise. Especially when the weather is colder, people are more likely to obtain muscle damage and other sports injuries if they haven’t done enough warm-up exercise. Therefore, it is a significant issue to teach students to do warm-up exercise in primary school since the first school year. However, in the textbook of Health and Physical education, the content about warm-up is too simple for the students to understand it. As a result, the students may still obtain sports injuries without enough warm-up exercise even though they have received the warm-up classes. Moreover, many athletes stopped their career because of severe sports injury. In this study, we use information technology to teach the knowledge of warm-up to students in Health and Physical education class. We apply the BioDigital web application to show the 3D structure of human anatomy and to demonstrate the meaning of warm-up exercise for the fifth grade students. The survey from the students shows that the teaching of warm-up with the help of BioDigital can promote the correctness of doing warm-up exercise. It also help to increase the learning motivation of students as well.
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Книги з теми "BioDIGOTA"

1

Arquitectura biodigital y genetica: Escritos = Biodigital architecture genetics : writings. Barcelona: ESARQ (Escola Téchnica Superior d'Arquitectura, Universitat Internacional de Catalunya), 2015.

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2

Arquitectura biodigital y genética: Escritos II = Biodigital architecture genetics : writings 2. Barcelona, Spain: Escola Téchnica Superior d'Arquitectura, Universitat Internacional de Catalunya, 2021.

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3

International conference of Biodigital Architecture and Genetics (1st June 1-3, 2011 Barcelona, Spain). Conferencia internacional de arquitectura biodigital y genética: International conference of biodigital architecture & genetics. Edited by Estévez, Alberto T., 1960- editor. Barcelona: ESARQ, 2011.

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4

O'Riordan, Kate. The genome incorporated: Constructing biodigital identity. Burlington, VT: Ashgate Pub., 2010.

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5

O'Riordan, Kate. The genome incorporated: Constructing biodigital identity. Farnham, Surrey, England: Ashgate Pub., 2010.

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6

The genome incorporated: Constructing biodigital identity. Burlington, VT: Ashgate Pub., 2010.

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7

International Conference of Biodigital Architecture and Genetics (3rd June 7-10, 2011 Barcelona, Spain). 3rd International Conference of Biodigital Architecture & Genetics. Edited by Estévez, Alberto T., 1960- editor and Universitat Internacional de Catalunya. Escola Tècnica Superior d'Arquitectura. Barcelona: ESARQ, 2017.

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8

Biodigital. Rosalita Associates, 2014.

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9

Fraile, Marcelo. Aruitectura Biodigital. Archidocs LLC, 2019.

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10

Fraile. Arquitectura Biodigital. Archidocs LLC, 2018.

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Частини книг з теми "BioDIGOTA"

1

Reader, John. "Biodigital Becoming." In Bioinformational Philosophy and Postdigital Knowledge Ecologies, 23–37. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-95006-4_2.

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Estévez, Alberto T. "Sustainable Living? Biodigital Future!" In Sustaining Resources for Tomorrow, 137–62. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-27676-8_8.

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3

Peters, Michael A., Petar Jandrić, and Sarah Hayes. "Postdigital-Biodigital: An Emerging Configuration." In Bioinformational Philosophy and Postdigital Knowledge Ecologies, 205–22. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-95006-4_11.

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4

Afsar, Secil, Alberto T. Estévez, and Yomna K. Abdallah. "Urbanization and Food in the Biodigital Age." In Climate Change and Pragmatic Engineering Mitigation, 269–94. New York: Jenny Stanford Publishing, 2021. http://dx.doi.org/10.1201/9781003256588-9.

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5

Jauffret, Marie-Nathalie, and Vanessa Landaverde Kastberg. "Biodigital Influencers: A New Alternative for Fighting Loneliness." In Emotions and Loneliness in a Networked Society, 283–307. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24882-6_15.

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Jauffret, Marie-Nathalie, and Frédéric Aubrun. "The Biodigital Rises: A New Digital Brand Challenge." In Social Computing and Social Media: Applications in Education and Commerce, 268–77. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-05064-0_20.

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Peters, Michael A., Petar Jandrić, and Sarah Hayes. "Biodigital Philosophy, Technological Convergence, and Postdigital Knowledge Ecologies." In Bioinformational Philosophy and Postdigital Knowledge Ecologies, 3–22. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-95006-4_1.

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Peters, Michael A., Petar Jandrić, and Sarah Hayes. "Biodigital Technologies and the Bioeconomy: The Global New Green Deal?" In Bioinformational Philosophy and Postdigital Knowledge Ecologies, 99–111. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-95006-4_6.

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Sinclair, Christine. "Competing Pedagogies for the Biodigital Imaginary: What Will Happen to Teachers?" In Bioinformational Philosophy and Postdigital Knowledge Ecologies, 277–300. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-95006-4_15.

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Liu, Rong, Bo Xu, and Chongyang Ye. "Biodigital Design and Functional Visualization of Multi-Class Personalized Compression Textiles for Ergonomic Fit." In Advances in Intelligent Systems and Computing, 488–99. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-20444-0_51.

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Тези доповідей конференцій з теми "BioDIGOTA"

1

Ito, Takahito, and Cesar A. Hidalgo. "Biodigital." In SIGGRAPH '19: Special Interest Group on Computer Graphics and Interactive Techniques Conference. New York, NY, USA: ACM, 2019. http://dx.doi.org/10.1145/3306214.3338542.

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Estévez, Alberto T. "Biodigital Architecture." In eCAADe 2009: Computation: The New Realm of Architectural Design. eCAADe, 2009. http://dx.doi.org/10.52842/conf.ecaade.2009.681.

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Estévez, Alberto T. "Application of Life Information in Architecture: Biodigital Architecture and Genetics." In ACADIA 2010: LIFE in:formation. ACADIA, 2010. http://dx.doi.org/10.52842/conf.acadia.2010.168.

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