Student in SAIC, chicago
Gernot stangl @ xarch - kunsthaus graz. Multiple Attractor Points and Line Spreading. Attractor Points. Rhino > grasshopper > karamba > space frame deflection. [FORMul[a]RCH] Parametric Wireframe Bracelet (update on Point Attractor Grasshopper User Object) Been a while since the last time. I had to make a few adjustments to the Point Attractor GH User object so that it outputs tree or branched data. The reason for this update is this discussion on the GH forum, which then led to a really impressive jewellery design, more specifically a wireframe bracelet.
Ifigenia Lambrou from Ikreate was kind enough to share some pictures of the final product of the algorithm using the Point Attractor. Here is a short description of the project named Parametric Wireframe Bracelet. “Ikreate is a design studio founded in 2012, that focuses in jewellery and home decoration designs using rapid prototyping methods. The idea of designing parametric jewelleries through Grasshopper was a challenge due to the possibilities available plus the multiple outcomes. “One of a kind” jewellery idea was into our field, so as the ability of personalising them, according to the user.
Like this: Like Loading... Delta Search. Metropol Parasol - J. Mayer H. Architects. The canopy stands out from the surrounding facades as a topologically folded entity. Photo © Fernando Alda By Martin Søberg J. MAYER H.'s playful Metropol Parasol regenerates a central, run-down square in Seville, Spain, by bringing together diverse functions, past and present, into a new powerful urban statement. Movement is a keyword when describing J. MAYER H.' Metropol Parasol is situated in the historical center of Seville on Plaza de la Encarnación, one of the largest squares in this area of the city. The canopy stands out from the surrounding facades as a topologically folded entity.
Leveling programmes Metropol Parasol integrates the various historical layers and urban functions of the site. Metropol Parasol is one of the largest timber constructions in the world. Innovative construction principles The canopy is constructed of vertical laminated wood plates following a 1.5 by 1.5 cutting pattern. Are they trees, mushrooms, or a giant cloud? Purposeful boldness Metropol Parasol. A Long Journey Home. Despite the late hour, the sun wasn't setting over St. Petersburg as maestro Valery Gergiev welcomed 100 guests at 11 p.m. for a private inaugural concert at the new Mariinsky Theatre. Beyond the windows of what will be the staff cafeteria, the city's historic skyline shimmered in the pale light of the White Nights.
The celebrated conductor says he hopes the new opera house—most of which is still a construction site—would be a place for music for years to come. Then he corrects himself: "For centuries. " The new building is one of Mr. Gergiev's legacies to the renowned Mariinsky. The Mariinsky's opera, ballet and orchestra are expected to move into the modern, glass-and-limestone structure by this time next year.
The journey to find a more modern house for the theater has been a long one, with operatic plot twists and plenty of drama. More than a decade ago, Mr. Mr. The radical design caused a sensation. "Don't you think we have too much poetry of dying here? " "The cohesion of St. Mr. Composite panel for facade cladding - REYNOBOND® DURAGLOSS® 5000 - Reynobond Architecture. Delta Search. Cantilever House | Living Steel. The objective of this project is to produce a low-cost, high-quality, manufactured building system that is easily adaptable to specific sites and programs. All material and structural systems are selected from relatively common, non-proprietary systems with multiple manufacturers so that built-in competition encourages low costs and long-term availability of components.
Coordinating and combining existing manufactured systems distributes capital investment in system detailing, inventory and prototyping among a group of sophisticated manufacturers with already established, project-specific customization and component packaging and delivery systems. By creatively combining a small number of manufactured systems into one comprehensive system approach, there is no need to begin a costly design of an entirely new system, and there is the certainty of long-term applicability and wide-spread industry support. Design process Foundations Vierendeel truss structure Window wall enclosure Accessories. Communications: SAIC Logos. < Communications Home Services: Marketing and Advertising Media and Public Relations Graphic Design and Print Web, Portal and Online Media Enewsletters and Broadcasts Photography and Video Resources: Job Requests Brand Guidelines and Templates SAIC Logos Staff Contact Info Forms: Job Request (NOTE: In order to save this form with your entered data, you must use Acrobat Reader instead of Apple Preview.)
Business Card Request Creative Brief Blog Request Form Photo, Video, and Podcast Release Non-Exclusive License Web Gallery Submission Web Profile Submission Project Webspace Request Policies: Production Timelines Email Broadcast Policy Domain Name Policy Group/Project Webspace. Steel Project Case Study Gallery: OCAD Ontario College of Art and Design Addition, Alsop, Robbie/Young + Wright, Toronto. In November 2000, OCAD selected European firm Alsop Architects as design architect to work in a joint venture with Toronto-based Robbie/Young + Wright, the project architect, to produce OCAD's capital expansion project.
Ontario College of Art & Design (OCAD) broke ground in late 2002 in preparation for its $42.5 million expansion and renovation featuring the Sharp Centre for Design (SCD). By March 2003, foundations were in place and construction upwards began. The SCD was completed in Winter 2004. All new and renovated space was complete by August 2004. The official opening of the SCD, and the new and improved OCAD occurred in October 2004. For more information please visit The Team: Design Architect: Alsop Architects, London, England Local Architects: Robbie Young+Wright Architects, Inc. Structural Engineer. The unparalleled team effort behind North Carolina A&T University—s Samuel D. Proctor School of Education building Christopher R. Herron, P.E. North Carolina A&T University’s Samuel D. The 52-foot-long, 40-foot-wide, two-story-tall cantilever provides the visual impact.
The building is a three-story, steel-framed structure housing classrooms, an auditorium, conference rooms, study rooms, and offices, including the Dean of the School of Education, who is proud to be located on the top floor at the end of the cantilever. The cantilever The architect’s design concept envisioned the building as a symbol of the university looking toward the future. The north half of the building, separated from the remainder of the building by an expansion joint, is 102 feet long. The three columns between the two trusses were relied upon to resist the uplift forces. The building not only posed a challenge to support the gravity loads, it also had to cantilever to support the lateral loads. Christopher R. Structure grasshopper. Voronoi grasshopper. Project pattern brep loft.mov. Grasshopper Lecture 4: Data Trees, Structure.
Grasshopper Lecture 6: Supplemental. Covered Parking Design Ideas, Pictures, Remodel, and Decor. Voronoi Skyscraper. Finalist 2011 Skyscraper Competition Geoffrey Braiman, David Beil United States We live in a stacked world. The unending array of floor slabs do very little to further the human condition beyond limited, linear, regular, and expected. The city of the future is a multivalent hybrid reliant on strong infrastructure. As a matter of necessity, natural systems continually reorganize until the best possible solution is realized. 1. 2. 3. These three properties represent the tenets for successful future tower design.
The field of protein research developed an accurate formula for defining properties of foam, a natural-world analog of Three-dimensional Voronoi. In order for each program sphere to be modeled correctly, additional “ghost spheres” must be packed around the program sphere cluster. A packed, cellular structure encourages a new way of thinking. -> EVOLO SKYSCRAPERS 2 - Limited Edition Book. 30 Free Stone Pavement Textures. Parametric. Plateformes – Points de Vue. Three unusual points of view in the city, temporary architectural structures interact with the surrounding urban environment. The aim of the 3 projects is to give unusual sights over the city during a summer cultural event “Voyage à Nantes“ taking place every two years – mostly related to contemporary art. LE VORONOÏ / BOUFFAY NEIGHBOURHOOD – ALLÉE DE LA TREMPERIE From a platform located in the heart of one of Voronoi’s polygon ellipsoids (mathematic honeycomb structures corresponding to a particular breakdown of space according to growth-related phenomena), you can only see the entirety of the external environment from a single point of view: the centre of the platform.
Once you move, the honeycomb structure blurs your peripheral vision. BOLDUQ / BOUFFAY NEIGHBOURHOOD – RUE DE L’ÉMERY Suspended above the hustle and bustle of the quartier Bouffay, this platform sits snugly between different terraces. Location: Voyage à Nantes, Nantes, France Status: Student Seminar, built. Form-finding of reciprocal structures with Grasshopper and Galapagos. 547664.jpg (JPEG Image, 640 × 480 pixels) Grasshopper_resources [LAMA] [[grasshopper_resources]] Trace: • grasshopper_resources Show pagesourceOld revisions Recent changesSitemapLogin Main Sidebar Events LAMA Courses Tutorials Links Grasshopper Resources Grasshopper 3D Grasshopper Video Tutorials Lift Architects Design Reform Design Analyze WooJae Sung Mode Lab Digital Toolbox.
Welcome to designalyze.com | designalyze.com. Parametric sculpture. Parametric Explorations for an Outdoor Sculpture. An innovative outdoor sculpture at Washington University School of Architecture: This is a class project with mixed media (plywood and plastic), under the direction of Joe MacDonald of Urban A&O. It is an organic shape of concave shapes that play with light and shadows.
Designed, fabricated and assembled by Zephyr Anthony, Andrew Davis, Kyle Fant, Xiaoshuang Hu, Allyson Justmann, Andrew McCready, Kelly Peoples, Xiaofei Ren, Bo Sheng, Jordan Smith, Benjamin Stephenson, Duo Yu, Thomas Watkins. This research and design studio focused on parametric explorations or reticulation: division, marking, and assembly with the intention of forming programmatic and structural networks. They were seeking creative architectural solutions based on material properties, formal geometry and the spatial implications of a full scale installation. Students worked as a team when they approached the fabrication component of the studio.
-> EVOLO SKYSCRAPERS 2 - Limited Edition Book. Digitaltoolbox. Sahra:denCity (1of2) Grasshopper Rhino Tutorials & Training | Black Spectacles. Solar Shade Part 01. Building geometry optimization test using Octopus and Ladybug. Will alsop art school toronto. Sunflower Spiral. 13-Year-Old Makes Solar Power Breakthrough by Harnessing the Fibonacci Sequence.
While most 13-year-olds spend their free time playing video games or cruising Facebook, one 7th grader was trekking through the woods uncovering a mystery of science. After studying how trees branch in a very specific way, Aidan Dwyer created a solar cell tree that produces 20-50% more power than a uniform array of photovoltaic panels. His impressive results show that using a specific formula for distributing solar cells can drastically improve energy generation. The study earned Aidan a provisional U.S patent – it’s a rare find in the field of technology and a fantastic example of how biomimicry can drastically improve design.
Photo by Cristian Bortes Aidan Dwyer took a hike through the trees last winter and took notice of patterns in the mangle of branches. To see why they branch this way he built a small solar array using the Fibonacci formula, stepping cells at specific intervals and heights. His results did turn out to be incorrect though. Via Treehugger. Parametric Wood. FibonacciPhyllotaxis.pdf. Symmetry in Plants: Phyllotaxis. 1. Observing Spiral Patterns > 2. Spiral Applet > 3. Dynamical Model Applet > 4. Cylindrical Spirals > 5. Cylindrical Spirals Applet > 6. The Farey Tree and the Golden Mean 4. In the three previous sections, you explored spiral structures that are observed when looking at a flower from above, or a pine cone from below. In this section, we go over steps similar to Section 1, but instead of planar spiral, we observe and create planar ones.
Task 20: Using plants that you have available (eg. cylindrical pine cones, cacti, pineapples, palm trees, flowers stems from which you may want to cleanly cut the leaves), observe and count spirals winding up in opposite direction up the cylindrical surface. Task 21: Using the loose cylinder circles sheet, find a way to place one dot on each line in such a way that, as you close up the sheet into a cylinder, the dots form a regular spiral. Task 22: What kind of rule similar to that of the Remark in Task 2 are you applying to make your construction? Classification.html. Algorithmicdesign- ezio blasetti.