Attention landscape architecture students and recent graduates! Vectorworks is giving away $500 USD to support your travel to the ASLA 2024 Conference in Washington, D.C. this October. ✈️ Don’t miss this opportunity to advance your career and network with professionals. Visit their Instagram to see entry details now: https://lnkd.in/eeUv4EpC &utm_source=linkedin&utm_content=adtracking_aslagiveaway
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God gave me a chance to have a certificate in Structure, just one thing I need is to implement knowledge in practice
Experienced Structural, Civil & Geo Engineering Lead | Senior Project Manager | Innovator in Earthquake-Resistant Design & Construction
The concept showcased here is a fascinating display of "tensegrity" — a portmanteau of 'tensional integrity.' Tensegrity structures maintain their stability by a balance between tension and compression components. The marvel of this kind of architecture is that it creates a stable form with components that do not touch each other in a conventional supportive way, defying the common perceptions of structure and form. The ability to sustain weights, as seen with the plant, depends on the precise balance of forces. It's a powerful metaphor for the delicate balance of forces in various systems, whether in architecture, biology, or social dynamics. Such innovative designs can revolutionize the way we think about building and balancing structures, leading to more efficient use of materials and space. It is for education only. Credits: Home Science #Tensegrity #StructuralEngineering #Architecture #Innovation #Science #DesignThinking #HomeScience #EngineeringExcellence
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Innovative concepts could be applied in real life , to ?
Experienced Structural, Civil & Geo Engineering Lead | Senior Project Manager | Innovator in Earthquake-Resistant Design & Construction
The concept showcased here is a fascinating display of "tensegrity" — a portmanteau of 'tensional integrity.' Tensegrity structures maintain their stability by a balance between tension and compression components. The marvel of this kind of architecture is that it creates a stable form with components that do not touch each other in a conventional supportive way, defying the common perceptions of structure and form. The ability to sustain weights, as seen with the plant, depends on the precise balance of forces. It's a powerful metaphor for the delicate balance of forces in various systems, whether in architecture, biology, or social dynamics. Such innovative designs can revolutionize the way we think about building and balancing structures, leading to more efficient use of materials and space. It is for education only. Credits: Home Science #Tensegrity #StructuralEngineering #Architecture #Innovation #Science #DesignThinking #HomeScience #EngineeringExcellence
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📕 Handbook of Digital 3D Reconstruction of Historical Architecture 👉 Chaired by Jun. Professor and Time Machine Organisation secretary Sander Münster, a network of experts from various research institutions all around Europe recently published this handbook for students, experts and interested parties who want to learn more about digital 3D reconstruction of historical architecture. 👉 The book provides answers to the core questions of the subject: What is a digital 3D model or a digital 3D reconstruction? How are they created and what are they used for? 👉 Practical instructions, condensed knowledge, explanations of technical terms and references to example projects, literature and further references provide information of varying density and thus enable an individual introduction to the subject. 👉 The book combines extensive knowledge on the topic of “digital 3D reconstruction of historical architecture” and provides practical instructions for independent implementation. Up to now, there has been no cross-disciplinary vocabulary for technical terms in this field, so this publication makes a start. ▶️ https://lnkd.in/dbybi53m
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Building DMAP IND ©️2022. Passionate JuniorArchitect, with a distinctive approach in design. Proficient in sketching, writing and visualization, adept at transforming ideas into reality.
DMAP SERIES POST 01 Defying Mediocrity in Architecture: Life Beyond Existentialism (#DMAProject) Embarking on my architectural journey back in 2019, during my first year of undergrad, I encountered a pivotal moment that shifted my perspective entirely. Amidst the bustling corridors of academia, I found myself grappling with existential questions, questioning the very purpose of my collegiate existence. This period of introspection, though initially daunting, proved to be a catalyst for profound personal growth. As the world around me slowed during the unprecedented lockdown, I delved deeper into self-reflection and exploration. Immersing myself in the timeless works of architectural luminaries and literary giants, I sought solace in the realm of ideas and creativity. It was during this transformative phase that I began to craft narratives reflective of my own journey, each word a testament to my evolving character. Yet, as I ventured into the realm of publishing, I encountered setbacks and rejections that left me questioning my path. Despite the challenges, my insatiable thirst for knowledge and keen observation of life's minutiae propelled me forward. Through the lens of literature, I learned to perceive the world not merely as a collection of nonfictional anecdotes, but as a tapestry of endless possibilities waiting to be unraveled. Over the course of two years, I immersed myself in the pursuit of understanding, refining my perspective with each passing day. It was amidst the quietude of my office space that inspiration struck—an epiphany that transcended the confines of mediocrity, urging me to forge a path of extraordinary significance. Stay tuned for Part 2 as I delve deeper into this transformative journey. #DefyMediocrity #ArchitecturalTransformation #PersonalGrowth #DMAPind
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#ICYMI: Robotics Institute researcher, Aryan R. Rad, collaborated with architecture colleagues to launch Robot Made 2024 — a design build course that provided #engineering and #architecture students with hands-on experience designing and constructing mass timber structures using digital fabrication techniques. Watch the students' project come to life in the video below 🤖 ⬇ #robotics #roboticsresearch #uoftrobotics
🚨 Pushing the limits of timber design and digital fabrication! 🌟 🤖 Witness the power of digital fabrication come to life! 🌲 Earlier this summer, AnnaLisa Meyboom from UBC School of Architecture and Landscape Architecture, Nicholas Hoban from University of Toronto - John H. Daniels Faculty of Architecture, Landscape, and Design, and I from the Department of Civil & Mineral Engineering, University of Toronto launched Robot Made 2024, a groundbreaking Design Build course. This program merged research with hands-on learning, training University of Toronto’s #Engineering and #Architecture students in an exhilarating journey from #computational_design to real-world construction. Using parametric robot control and computational methods for both geometry processing and simulation-based science in #structural_engineering, participants designed and built a full-scale timber pavilion, pushing the limits of design for manufacturing and assembly. We used #COMPAS, an open-source computational framework for research, collaboration, and development across Architecture, Engineering, Fabrication, and Construction, primarily developed at Swiss NCCR Digital Fabrication. Our methods, algorithms, tools, and findings are available here: https://compas.dev/#/ #DigitalFabrication #Timber #Sustainablity #ArchitectureMeetsEngineering University of Toronto Engineering
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The sight of this historical and architectural marvel engulfed in fire sent shocks through the collective consciousness, leaving us with a lingering question: Could Notre Dame be restored to her original magnificence? The answer is YES. The key to this remarkable rebuild is state-of-the-art technology and the innovative methodology known as Building Information Modeling (BIM). Read more here: https://lnkd.in/dEyrHFsE
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Finding Your Path: Navigating the Uncertainty of Career Choices Explore the challenges of choosing a career at a young age and the dilemmas it presents. Discover the struggle between pursuing physical engineering or architecture, and the importance of following your dreams. #CareerChoices #FindingYourPath #YouthfulDreams #FutureAmbitions #CareerDilemmas #DecisionsMatter #PassionVsPracticality #PursueYourDreams #CareerCrossroads #DreamChaser
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Looking forward to this important discussion as we stand at the threshold of spacial computing.
HAND DRAWING? WHY IT STILL MATTERS FOR ARCHITECTS IN THE DIGITAL AGE. Join us for a symposium with perspectives from embodied cognition, neuroscience, teachers, and practitioners. Carnegie Mellon University’s McConomy Auditorium, Saturday February 17, 2024, 9am–2:30pm. RSVP for in-person and Zoom options at https://lnkd.in/d9ejhRwV Keynote: Juhani Pallasmaa, author, The Eyes of the Skin; The Thinking Hand; Architecture and Neuroscience (with Harry Mallgrave, Michael A. Arbib). What is the case for freehand drawing for architects in the digital age? Current architecture students draw less and less by hand and now develop their proposals predominantly with design software. We need a clearer and unsentimental understanding of just what might be lost with this sea change. This symposium will enlist practitioners, teachers, and scientists alike in addressing the visual/haptic content of freehand drawing and the value it still has for the field. Here is a schedule of conversations and some of the questions we’ll address in each: - Perspectives from Science • Is there evidence that the haptic/gestural content of freehand drawing helps in sustaining three-dimensional visualization? - Perspectives from Practice •.In your practice, when do you tend to use freehand drawing the most? When the least? Supported by the Doug Cooper, A 1970, Fund for Drawing and Architecture The symposium is eligible for 6 AIA CEUs.
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Artifiical Intelligence prompt engineering enthusiast, civil structural designer, hydraulic modeler, indie android app and games developer/publisher, 3D modeller/visualizer
Here is the first sequel to my previous post, featuring the beauty of the seahorse. An urban design/planning, architectural, civil engineering, and construction challenge. Excerpt from my post: " The seahorse is the most beautiful tiny aquatic animal, often overlooked because of it's miniscule size, so I thought why not feature it's beauty in a grand scale through futuristic buildings modeled based on it. It inspired me to conceive an idea of a futuristic beach front city with seahorse themed green buildings in a reclaimed, man-made island that I generated using prompt engineering on Copilot/Designer ai image generator, powered by DALL-E from Microsoft." https://lnkd.in/gmRr4WnW
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1/1Title: Architectural Communication Dynamics: Analyzing Pyramid Structures and the Influence of Gravitational Fields on Design and Measurement Measurement and Composition of Communication Dynamics Measurement Techniques: Accurate measurement is critical in architectural design. Key techniques include: 1. Precision Tools: Using advanced tools and technologies for precise measurement of weights and dimensions. 2. Data Integration: Incorporating measurement data into design models to ensure structural accuracy. Composition of Communications: The integration of communication dynamics into architectural design involves: 1. Symmetrical Design: The role of symmetry in creating balanced and aesthetically pleasing pyramid structures. 2. Dynamic Adjustments: Adapting design parameters based on gravitational and gamma ray considerations. Case Study: Pyramid Design and Gravitational Analysis Example: Analyzing the design and construction of a pyramid structure in relation to gravitational fields and gamma rays. Key findings include: 1. Structural Integrity: How gravitational analysis informs the design of stable pyramid structures. 2. Height and Weight Optimization: The impact of gravitational and gamma ray considerations on optimizing pyramid dimensions. Results: Effective communication and understanding of gravitational and gamma ray effects are essential for designing stable and efficient pyramid structures. Conclusion The integration of architectural communication dynamics, gravitational fields, and gamma rays is crucial for designing and constructing stable pyramid structures. By understanding the impact of these factors on weight distribution, height, and measurement, architects can create efficient and resilient infrastructures. Future research will continue to explore the intersection of these disciplines, contributing to advancements in architectural design and construction. References • Baker, B., & Khandekar, A. (2011). Structural Design and Analysis. Wiley. • Harris, C. M., & Piersol, A. G. (2002). Harris’ Shock and Vibration Handbook. McGraw-Hill. • Koehler, J., & Mason, J. (2010). Architectural Dynamics: Understanding the Role of Communication in Design. Springer. • Wright, H. (2009). The Physics of Building Structures. Cambridge University Press. • Zhang, S., & Liang, J. (2015). Gamma Rays and Gravitational Fields in Structural Engineering. Elsevier. Courtesy to Amelia Williams NewComb Dressage USA 🇺🇸 Courtesy to Priya Waller Media and Communications Experts UK 🇬🇧
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