So, there are some Blender jobs out there for July 11, 2025. I guess if you're into that kind of thing, you might want to check them out. Like, Scopely is looking for an Art Lead for Monopoly GO! and OtherSide Entertainment needs a Sr. 3D Artist. Jagex is hiring a Marketing Artist for Runescape: Dragonwilds, and there’s also a freelance gig for a Parametric 3D Modeler at ABI3D. Not sure what else to say—just a regular day for job listings, I guess. #BlenderJobs #3DArt #JobListing #GameDevelopment #FreelanceWork

Ever wondered what it feels like to wield the power of a CAD app without selling a kidney? Enter Fusion 360, the “budget” superhero of parametric and collaborative design. It’s like they took all the complex engineering mumbo jumbo and distilled it into a drinkable form—minus the hangover, of course. You can collaborate with your friends while designing something that may or may not be a functional toaster. Who needs professional software when you can have “powerful” and “affordable” in the same breath? Just don’t forget to remind your wallet how much it appreciated the break. #Fusion360 #CAD #Design #BudgetTools #CollaborativeDesign

html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "; The MetaHuman client reel. Epic Games’ framework for generating realistic 3D characters for games is out of early access, and can now be used with any DCC app or game engine. Epic Games has officially launched MetaHuman, its framework for generating realistic 3D characters for games, animation and VFX work, after four years in early access.The core applications, MetaHuman Creator, Mesh to MetaHuman and MetaHuman Animator, are now integrated into Unreal Engine 5.6, the latest version of the game engine. In addition, Epic has updated the licensing for MetaHuman characters, making it possible to use them in any game engine or DCC application, including in commercial projects. There are also two new free plugins, MetaHuman for Maya and MetaHuman for Houdini, intended to streamline the process of editing MetaHumans in Maya and Houdini. A suite of tools for generating and animating realistic real-time 3D characters First launched in early access in 2021, MetaHuman is a framework of tools for generating realistic 3D characters for next-gen games, animation, virtual production and VFX.The first component, MetaHuman Creator, enables users to design realistic digital humans. Users can generate new characters by blending between presets, then adjusting the proportions of the face by hand, and customising readymade hairstyles and clothing. The second component, Mesh to MetaHuman, makes it possible to create MetaHumans matching 3D scans or facial models created in other DCC apps. The final component, MetaHuman Animator, streamlines the process of transferring the facial performance of an actor from video footage to a MetaHuman character. MetaHuman Creator was originally a cloud-based tool, while Mesh to MetaHuman and MetaHuman Animator were available via the old MetaHuman plugin for Unreal Engine. Now integrated directly into Unreal Engine 5.6 That changes with the end of early access, with MetaHuman Creator, Mesh to MetaHuman and MetaHuman Animator all now integrated directly into Unreal Engine itself.Integration – available in Unreal Engine 5.6, the latest version of the engine – is intended to simplify character creation and asset management worklows. Studios also get access to the MetaHuman source code, since Unreal Engine itself comes with full C++ source code access. However, the tools still cannot be run entirely locally: according to Epic, in-editor workflow is “enhanced by cloud services that deliver autorigging and texture synthesis”. Users can now adjust MetaHumans’ bodies, with a new unified Outfit Asset making it possible to create 3D clothing that adjusts automatically to bodily proportions. Updates to both MetaHuman Creator and MetaHuman Animator In addition, the official release introduces new features, with MetaHuman Creator’s parametric system for creating faces now extended to body shapes.Users can now adjust proportions like height, chest and waist measurements, and leg length, rather than simply selecting preset body types. Similarly, a new unified Outfit Asset makes it possible to author custom 3D clothing, rather than selecting readymade presets, with garments resizing to characters’ body shapes. MetaHuman Animator – which previously required footage from stereo head-mounted cameras or iPhones – now supports footage from mono cameras like webcams. The toolset can also now generate facial animation – both lip sync and head movement – solely from audio recordings, as well as from video footage. You can find fuller descriptions of the new features in Epic Games’ blog post. Use MetaHumans in Unity or Godot games, or sell them on online marketplaces Equally significantly, Epic has changed the licensing for MetaHumans.The MetaHuman toolset is now covered by the standard Unreal Engine EULA, meaning that it can be used for free by any artist or studio with under million/year in revenue. MetaHuman characters and clothing can also now be sold on online marketplaces, or used in commercial projects created with other DCC apps or game engines. The only exception is for AI: you can use MetaHumans in “workflows that incorporate artificial intelligence technology”, but not to train or enhance the AI models themselves. Studios earning more than million/year from projects that use MetaHuman characters need Unreal Engine seat licenses, with currently cost /year. However, since MetaHuman characters and animations are classed as ‘non-engine products’, they can be used in games created in other engines, like Unity or Godot, without incurring the 5% cut of the revenue that Epic takes from Unreal Engine games. The free MetaHuman for Maya plugin lets you edit MetaHumans with Maya’s native tools. New plugins streamline editing MetaHumans in Maya and Houdini Last but not least, Epic Games has released new free add-ons intended to streamline the process of editing MetaHumans in other DCC software.The MetaHuman for Maya plugin makes it possible to manipulate the MetaHuman mesh directly with Maya’s standard mesh-editing and sculpting tools. Users can also create MetaHuman-compatible hair grooms using Maya’s XGen toolset, and export them in Alembic format. The MetaHuman for Houdini plugin seems to be confined to grooming, with users able to create hairstyles using Houdini’s native tools, and export them in Alembic format. The plugins themselves are supplemented by MetaHuman Groom Starter Kits for Maya and Houdini, which provide readymade sample files for generating grooms. Price, licensing and system requirements MetaHuman Creator and MetaHuman Animator are integrated into Unreal Engine 5.6. The Unreal Editor is compatible with Windows 10+, macOS 14.0+ and RHEL/Rocky Linux 8+.The MetaHuman plugin for Maya is compatible with Maya 2022-2025. The MetaHuman for Houdini plugin is compatible with Houdini 20.5 with SideFX Labs installed. All of the software is free to use, including for commercial projects, if you earn under million/year. You can find more information on licensing in the story above. Read an overview of the changes to the MetaHuman software on Epic Games’ blog Download the free MetaHuman for Maya and Houdini plugins and starter kits Read Epic Games’ FAQs about the changes to licensing for MetaHumans Have your say on this story by following CG Channel on Facebook, Instagram and X. As well as being able to comment on stories, followers of our social media accounts can see videos we don’t post on the site itself, including making-ofs for the latest VFX movies, animations, games cinematics and motion graphics projects. #you #can #now #sell #metahumans

Heydar Aliyev Center | © Olivier Blanchette via Unsplash In contemporary architectural discourse, the building envelope is no longer a passive partition but a dynamic interface capable of interaction, regulation, and adaptation. Amid rising environmental complexity and performance demands, composite materials are emerging as enablers of this transformation. Their potential goes far beyond lightweight strength; composites are redefining what intelligence means in architectural materiality. As the industry pivots toward energy-conscious design, real-time responsiveness, and multi-functional skins, composites provide structural solutions and performative systems. In this context, the envelope becomes a site of intelligence. From Passive Shells to Active Systems For centuries, architectural skins served primarily as barriers, blocking weather, enclosing space, and symbolizing permanence. But the 21st century demands more. We require façades that filter air and light, mediate thermal flux, integrate sensors, and generate power. Traditional materials, limited by monolithic performance and weight, have struggled to adapt. Composites, by contrast, are inherently systemic. They are engineered layers rather than singular substances. Through the integration of fibers and matrices, composites enable architectural envelopes that perform structurally while accommodating embedded systems such as thermal insulation, acoustic control, impact resistance, and photoreactivity. These characteristics make them prime candidates for high-performance envelopes in buildings and infrastructure alike. In the Qatar Integrated Railway Project, composite roofing and FRP façade panels were employed to meet the demands of the harsh desert environment. This solution reduced structural loads and improved thermal performance while ensuring long-term durability in a climate defined by extremes. Performance Layering and Embedded Intelligence What distinguishes composites from conventional materials is their capacity to combine multiple performance layers in one unified system. Instead of applying insulation, waterproofing, and cladding in sequence, a composite panel can consolidate these into a single prefabricated, high-performance element. A compelling example is the Eco Casa in Australia, designed by Ian Wright, which used frameless DuFLEX composite panels. The result was an environmentally conscious home with significantly reduced material waste, enhanced thermal performance, and minimized emissions. These outcomes demonstrate how composites offer design efficiency and ecological responsibility. The capacity for prefabrication and integration is particularly valuable in settings where labor conditions, transportation logistics, or weather exposure make traditional multi-layered construction inefficient or impractical. Composites with a Nervous System: Sensing the Built Environment Recent innovations in smart composites extend these capabilities further. By embedding fiber-optic or piezoresistive sensors into composite assemblies, architects and engineers can develop building skins that sense stress, temperature changes, humidity, or vibration in real-time. These responsive façades can feed data into building management systems, enabling performance optimization or alerting maintenance teams to signs of wear or structural fatigue. This functionality has been successfully explored in transport infrastructure. The King Abdullah High-Speed Rail Station in Saudi Arabia used 27-meter composite sandwich panels to span vast distances with minimal support. The lightweight system reduced the need for extensive reinforcement while enabling thermal and mechanical performance in a climate that demands resilience. Such examples are foundational to a future in which architecture does not merely resist the environment but interprets it. Formal Freedom Meets Functional Responsiveness Guangzhou Opera House | © Scarbor Siu via Unsplash Beyond embedded intelligence, composites also expand formal expression. Their moldability, especially with parametric design and digital fabrication, allows for envelopes that curve, fold, and morph in unattainable ways with conventional rigid materials. The Guangzhou Opera House, designed by Zaha Hadid Architects, is a defining example. Advanced composite assemblies that merged structural demands with formal ambition enabled its seamless curvatures and sharp transitions. These systems supported high-precision details and complex geometries while reducing material weight and installation complexity. This freedom extends to smaller-scale yet equally ambitious projects. At the Tilburg School for VAVO, translucent composite panels embedded with knitted textiles reference local craft while offering thermal performance and design cohesion. Such examples show that intelligence in architecture includes cultural sensitivity as well as technical adaptability. Toward Circular and Regenerative Envelopes The sustainability potential of composites is often overlooked. While early generations relied heavily on fossil-derived materials, newer systems use bio-based resins, natural fibers like flax and basalt, and recyclable matrices that fit into circular design models. Composite panels can now be designed for disassembly, repurposing, or reintegration into new construction, minimizing waste and conserving embodied energy. The Pasarela de Almuñécar in Spain exemplifies this ethos. As the world’s longest carbon-fiber walkway, it replaced heavier materials and extended structural lifespan while reducing maintenance. The project signals how composites can fulfill both technical and ecological ambitions. Efforts to embed digital tracking into panels, such as RFID tags, also support long-term monitoring and facilitate reuse planning. This vision aligns with emerging concepts like material passports, which will play a critical role in lifecycle accountability. Pasarela de Almuñécar in Spain | © Luis Garcia, CC by 3.0 Overcoming Barriers to Adoption Despite the clear advantages, composite adoption in architecture still faces notable hurdles. First is the challenge of integration with legacy materials such as concrete, stone, or steel. Connection detailing requires careful coordination to ensure structural continuity and thermal performance. Second is the perception of cost. While composites may require a higher upfront investment, their lower maintenance demands, improved energy performance, and reduced structural requirements often result in favorable long-term economics. Finally, regulatory frameworks continue to evolve. Building codes have been slow to reflect the unique properties of composites, although this is changing as standardization increases and successful pilot projects proliferate. A Vision for the Future: Architecture as Adaptive Intelligence Composites are not merely substitutes for traditional materials. They represent a paradigm shift in how we understand performance, integration, and the role of material in space-making. As architecture becomes increasingly data-driven, climate-responsive, and energy-conscious, the intelligent envelope will become the norm rather than the exception. Composites make this future feasible by offering structural capability, aesthetic freedom, environmental stewardship, and embedded intelligence within a single engineered solution. From high-speed rail terminals to cultural landmarks, these materials are shaping a new kind of architecture that listens, learns, and evolves. It is no longer sufficient for architecture to stand still. The next generation of buildings must adapt, interact, and perform. Composites make that future tangible. Learn More Explore how composite materials are redefining the building envelope in the construction sector and beyond: Visit Composites.Archi by ArchEyes Team Leave a comment #intelligent #envelope #how #composites #think

Parametric design is a transformative approach to product development that integrates interconnected parameters to enhance a product’s performance and adaptability. This approach maximizes the relationships between parameters like color, size, and material by defining and adjusting them to improve design results. In contrast to conventional design systems, parametric design encourages creativity by making it possible to create adaptable and dynamic solutions that are suited to changing requirements. The use of sophisticated algorithms makes it easier to create intricate patterns and structures, changing the way engineers and designers approach architectural, industrial, and urban planning projects. Parametric design is based on systems that are naturally based on parametric principles and are inspired by biological and natural patterns. The Flip chair, inspired by the natural beauty of wind-blown grass, combines asymmetry and craftsmanship to create a unique seating experience. Designers focused on the “flip” as the central element, allowing the bent wood to flow through gradual transitions, and infusing the piece with vitality. The challenging process of steam-bending thick wood was repeated multiple times, ensuring that each chair is handmade, one-of-a-kind, and exhibits a distinctive form, making it an elegant yet functional addition to any space. Developed with the support of the National Taiwan Craft Research and Development Institute, the Flip chair seamlessly blends traditional craftsmanship with modern parametric design. The result is a chair that not only offers aesthetic appeal but also carries a story of innovation and meticulous workmanship. Its organic texture and thoughtful design make it a statement piece that is ideal for those seeking a functional yet artistic element to complement their home or office decor. What are the Applications of Parametric Design? Parametric design enables the creation of customized product designs by allowing users to adjust shape, size, and functionality based on specific inputs. This approach combines various algorithms and parameters to create and refine designs that enhance the functionality and aesthetics of the product. Designers begin by defining key parameters, which can then be adjusted to optimize efficiency and performance. CAD software and similar tools are commonly used in this process and by utilizing parameters, the design process becomes more controlled and enables innovative solutions. Multiple design options can be explored quickly which heps in reducing time and waste, and making parametric design a powerful tool for innovation. Located in Jakarta’s business district, the Stalk Tree-Hugger, designed by RAD+ar, integrates five existing tall trees with a parametric fabric structure that creates an engaging play of light and shadows. This innovative design combines a restaurant and lounge, offering a unique spatial experience while blending seamlessly with the surrounding greenery. The shifting shadows from the trees foster an intimate, inviting atmosphere, while the dynamic tensile structures, swaying with the wind, create a nature-centric ambiance. The 750-square-meter bar restaurant showcases minimal intervention in nature, providing a versatile space for commercial activities. The lightweight steel-timber thatch roof offers both shade and support to the parametric fabric, transforming into a lantern at night, enhancing the cityscape and event ambiance. Designed by Antonius Richard and the RAD+ar team, the project emphasizes reducing environmental impact while maintaining the commercial value of the land. With constant movement and changing lighting, the design creates a relaxing, tranquil space, where visitors can observe and interact with nature. The Generico Chair, created by Marco Hemmerling and Ulrich Nether, exemplifies the power of generative algorithms in computational or parametric design. This innovative process allows the software to optimize the design to meet specific parameters and results in a lightweight yet strong structure. The chair’s Voronoi-inspired design reduces material usage significantly while maintaining strength and flexibility in the backrest. The careful application of generative design principles ensures the chair’s efficiency without compromising its functionality. Designed for both performance and comfort, the Generico Chair retains its ergonomic qualities despite its reduced volume. The chair is 3D printed to accommodate the complexities of its generative design, which introduces specific manufacturing constraints. The result is a visually captivating piece with a skeletal charm that blends creativity and precision. Its unique form showcases how software-aided design can produce functional and aesthetically pleasing furniture pieces while adhering to sustainability, precision, and material efficiency goals. How does Parametric design bring innovation to product design? Parametric design, powered by CAD software, achieves a harmonious balance between complexity and simplicity, streamlining the processes of product creation and modification. By defining specific parameters, designers can make adjustments with ease, minimizing waste and improving efficiency. This highly versatile approach adapts to various products, such as adjusting the height and tilt of a chair or modifying the color, angle, and brightness of lighting design. Therefore, parametric design promotes flexibility, providing a wide range of solutions to complex challenges. By establishing parameters at the outset, significant time is saved, enabling refinements during the design phase before creating a physical prototype. It excels in managing intricate shapes and patterns while opening new possibilities for innovation and creativity. John Mauriello, the designer behind the Coral Lighting Collection, articulates his creations as moments frozen in time. These lamps are the result of complex algorithms simulating natural growth, each one capturing a unique form by pausing the simulation at a precise point. The collection features three distinct designs namely Timor, Sargasso, and Celebes, each inspired by different types of coral. Mauriello’s deep connection to the ocean, fostered through his experience as a surfer, is reflected in his tribute to coral’s inherent beauty and vibrant life. The lamps are meticulously designed to be visually appealing both when illuminated and when turned off. Crafted from a white, ceramic-like material, they are 3D printed in the USA using sustainable methods that enable the recycling of any waste materials. The integrated LED lights interact with the lamp’s uneven cross-sections to produce dynamic lighting effects of brightness and shadow. The manufacturing process is eco-conscious and allows any waste material that is produced during the design process to be recycled. A Guide to Parametric Design Software Parametric modeling is a computer-aided designtool used to create and manipulate parametric models. Several software programs incorporate advanced algorithms for parametric design, combining computer software with AI to offer innovative design solutions. These sophisticated algorithms enable an interactive design process, allowing designers and engineers to input specific constraints directly within the software. This approach minimizes errors and ensures the creation of accurate digital models. Furthermore, the integration of virtual reality enhances the experience, providing immersive and interactive opportunities to visualize and refine concepts. Designers can explore complex geometries and design intricacies, enabling the creation of 3D shapes and models with greater precision and flexibility. CATIA’s Visual Scripting app, part of the 3DEXPERIENCE Platform, makes parametric design easier and more accessible. This no-code tool lets designers, engineers, and architects create complex designs without needing to write code. Using a simple, node-based interface, users can define parameters and generate detailed 3D models effortlessly. The tool’s Capture & Reuse feature boosts efficiency by allowing users to share and reuse design algorithms across different projects. By combining CATIA’s CAD software with a visual approach to parametric and generative modeling, Visual Scripting enhances creativity and speeds up design iterations. Its smooth integration with the 3DEXPERIENCE platform provides a streamlined workflow, making algorithmic design a built-in feature. Beyond traditional modeling, it also enables mesh manipulation and the creation of custom lattice structures—perfect for 3D printing in industries like aerospace, furniture, and jewelry design. Parametric design is transforming the product design industry by fostering creativity, improving efficiency, and enabling customization. Its seamless integration with digital manufacturing and sustainability efforts makes it an essential tool for modern designers. As technology continues to evolve, parametric design will remain at the forefront, driving ethical and innovative advancements in product development.The post Parametric Design And a Guide to Creating Adaptable, High-Performance Products with Algorithms first appeared on Yanko Design. #parametric #design #guide #creating #adaptable

On Designing National Pavilions: Power and Identity at Universal ExhibitionsSave this picture!Czech Pavilion Expo 2025 Osaka / Apropos Architects Image © boysplayniceWhat can a pavilion’s architecture reveal about its country? At major World Expos, national pavilions are designed to answer this question, transforming into spaces laden with symbolism. Though temporary, these structures are rich in meaning, functioning as architectural expressions of political identity. Their forms and materials encapsulate national ambitions. Expo Osaka 2025, the latest chapter in this ongoing narrative, showcases how nations increasingly use built space to construct global images of themselves—sustainable, technological, culturally distinct, and geopolitically relevant. this picture!Over the decades, these pavilions have evolved into meticulously curated narratives where architecture, politics, and culture intersect to shape national identity. At Osaka 2025, this symbolic and diplomatic function becomes even more pronounced. Pavilions communicate not only who a nation is, but who it aspires to be. The environmental agenda, for example, has become a compelling vector of soft power. Japan’s pavilion exemplifies this shift, employing local wood, parametric design, and natural ventilation not just for function, but as metaphors of circularity and harmony with nature.this picture!Meanwhile, countries like Saudi Arabia and the United Arab Emirates are embracing immersive technologies—augmented reality, responsive facades, and AI—to reframe their narratives. No longer defined solely by oil economies, they seek to position themselves as innovation-driven futurescapes. In this context, national identity is staged like a multisensory installation. Materials, sounds, aromas, lighting, and spatial choreography become tools for storytelling—none of them neutral, all of them charged with intent. Related Article Are World's Fairs a Thing of the Past? The Role that Architecture Played on One of History's Biggest Stages Architecture as a Political StatementPavilions transcend cultural or technological display to become instruments of political messaging. Architectural choices convey nuanced—or at times overt—signals about values, ambitions, and worldviews. Denmark’s Expo 2020 Dubai pavilion, with open ramps and fluid circulation, subtly suggests democratic transparency and inclusion, while Russia’s monumental spiral structure evokes nationalism and technological command. Here, architecture becomes a codified discourse: every curve, void, and surface reads like a political sign.this picture!This language continues at Osaka 2025. Israel’s pavilion, inspired by the ecological resilience of deserts, presents a narrative of innovation and perseverance amid adversity—an architectural response to both climate challenges and regional geopolitics. Bahrain’s contribution, by Lina Ghotmeh Architecture, focuses on the adaptability of maritime cultures. South Korea’s high-tech, futuristic pavilion reinforces its position as a rising digital powerhouse.In some instances, however, absence speaks just as loudly. In previous editions, countries like North Korea and Syria have boycotted the Expo as a form of political protest. These silent gestures are part of the same strategic vocabulary, where presence, form, and even withdrawal shape the geopolitical stage set by architecture.this picture!Sustainability on DisplayAmid the global climate crisis, national pavilions have also become key arenas for environmental diplomacy. Sustainability—once a peripheral concern—is now central to the architectural narrative of Expos. It’s no longer only about meeting green standards, but about crafting a spatial language that embodies ecological responsibility. This shift also challenges the very notion of ephemerality: where temporariness once defined these structures, reuse, intelligent disassembly, and material reintegration now drive their conception.This ecological turn is particularly evident at Expo Osaka 2025. With the theme “Designing Future Society for Our Lives,” the event encourages models of regenerative, cooperative, and resilient living. Sweden’s and Germany’s pavilions are designed for a second life, to be repurposed as schools or community centers. The U.S. pavilion, designed by Trahan Architects, incorporates steel, fabric, and HVAC components repurposed from Tokyo 2020 Olympics structures—materials slated for further reuse across Japan. In this framework, the Expo becomes a laboratory of environmental geopolitics, where sustainability itself is a form of soft power.this picture!Technological Spectacle as a National StrategyIn contemporary Universal Exhibitions, technology is no longer displayed as an end in itself but has become a narrative and experiential medium. Immersive installations, sensory interfaces, and AI-driven storytelling transform pavilions into interactive ecosystems, where visitors are both spectators and agents. This shift signals a significant change: it is no longer just about showcasing innovation, but about embedding technology into the dramaturgy of space. Architecture, in this context, ceases to be a static backdrop and merges with experience design, dissolving the boundaries between the built and the digital. Moreover, the way each country orchestrates these elements reveals its ability to envision desirable futures—and to position itself as a protagonist in the global technological transformation.this picture!At Expo Osaka 2025, this race for technological affirmation takes clear shape in pavilions such as that of the United Arab Emirates, which offers an interactive journey through environments responsive to human presence, narrative artificial intelligence, and real-time sensors that react to visitors’ actions—demonstrating a sophisticated technical mastery with implications across multiple spheres. In a similar vein, the Uzbekistan Pavilion stands out with an exhibition focused on empowerment, highlighting the country’s openness to innovation and its commitment to preparing for the future.Yet this immersion presents a growing tension: how to balance technological spectacle with architectural integrity. In some cases, architecture risks being overshadowed by its digital overlay, losing spatial coherence. The most compelling pavilions are those that fuse form, function, and innovation into a seamless whole, where technology becomes not an add-on, but an intrinsic architectural language.this picture!Intercultural Collaborations: The True LegacyWhile Universal Exhibitions are organized around national representation, they have also emerged as vital platforms for cultural exchange. Increasingly, national pavilions are designed by multicultural teams, resulting in more nuanced, inclusive, and inventive expressions of identity, not as a fixed essence, but as something fluid and co-constructed.this picture!At Osaka 2025, this collaborative ethos is exemplified by pavilions such as Switzerland’s, designed by an international team, and Indonesia’s, which brings together local architects and foreign consultants. These collaborations offer more than design efficiency—they signal gestures of quiet diplomacy. In a climate of resurgent nationalism, such exchanges underscore that innovation thrives through openness and dialogue. Each pavilion becomes a space of mutual learning, expanding the very meaning of global belonging.this picture!Ultimately, the lasting value of Expos may not lie in reinforcing national brands, but in fostering encounters—shared spaces where ideas, technologies, and cultures converge to respond to urgent global challenges. As architect Manuel Herz, designer of the Swiss Pavilion, puts it: “In a moment of global tension, every possibility for us to physically meet in a shared space and celebrate something that can still be described as a cosmopolitan spirit needs to be valued and utilized.” Amid so many crises, pavilions remind us that architecture is more than shelter or style—it is a vessel for connection, a space for learning, and a rehearsal for futures we must build together.We invite you to check out ArchDaily's comprehensive coverage of the Expo Osaka 2025. Image gallerySee allShow less About this authorCamilla GhisleniAuthor••• Cite: Ghisleni, Camilla. "On Designing National Pavilions: Power and Identity at Universal Exhibitions"30 May 2025. ArchDaily.Accessed . < ISSN 0719-8884Save世界上最受欢迎的建筑网站现已推出你的母语版本!想浏览ArchDaily中国吗?是否 You've started following your first account!Did you know?You'll now receive updates based on what you follow! Personalize your stream and start following your favorite authors, offices and users.Go to my stream #designing #national #pavilions #power #identity

html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "; Itoosoft has released RailClone 7, the latest version of its 3ds Max parametric modelling plugin.The update introduces a new set of Spline Operators for manipulating splines in a wide range of ways, comprising 10 new nodes with 19 separate features. Users of the paid Pro edition get RailClone Systems, a new set of readymade procedural assets for generating common architectural structures like windows, curtain walls, and cabling. A popular parametric modelling tool for architectural visualisation work First released in 2010, RailClone makes it possible to generate complex 3D models by defining procedural construction rules using a node-based workflow.Users can create complex 3D models by repeating simple base meshes, or ‘Segments’, along splines, using Generators to arrange them into arrays, and Operators to control their properties. Although the workflow applies to visual effects or motion graphics, the plugin is most commonly used to generate buildings and street furniture for architectural visualisation projects. It is compatible with a range of third-party renderers, including Arnold, Corona, FStorm, OctaneRender, Redshift and V-Ray. RailClone 7: new multi-purpose Spline Operators RailClone 7 adds a new category of Spline Operators to the software’s graph editor.The 10 new nodes include Basic Ops, a new ‘multi-tool’ for performing common operations on splines, like transforming, breaking, combining, flattening or chamfering splines. A new Boolean node performs standard Boolean operations on regions bounded by splines. Other new nodes include Offset, for creating repeating clones of splines; Catenary, for creating the catenary curves generated by cables hanging under their own weight; and Conform, for projecting splines onto terrain. The images in Itoosoft’s blog post show potential use cases ranging from creating road networks to structures like wiring, railings and gantries. In addition, a new Draw Splines mode makes it possible to preview the result of spline operations directly in the viewport. New version-independent portable file format, and updates to point clouds Other new features include the Itoosoft Portable file format, making it possible to save RailClone objects in a file format independent of the version of 3ds Max used to create them.The point cloud display mode has been updated, with each RailClone object now using a fixed number of points, rather than point density being dependent on distance from the camera. According to Itoosoft, the new mode is optimized for modern GPUs and versions of 3ds Max. There are also a number of smaller workflow and feature updates, especially to macros, array generation, and handling of V-Ray Proxies when rendering with V-Ray GPU or Vantage. Pro edition: new RailClone Systems procedural assets Users of the paid Pro edition also get RailClone Systems, a new set of customizable readymade procedural assets for creating common architectural elements like windows, suspended ceilings, curtain walls, boardwalks, and cabling.You can see the new assets in the online preview of RailClone’s asset library. Price and system requirements RailClone 7.0 is available for 3ds Max 2022+. Feature support varies between the compatible renderers. New licences start at including one year’s maintenance. There is also a free, feature-limited Lite edition of the plugin. Read an overview of the new features in RailClone 7 on iToo Software’s blog Read a full list of new features in RailClone in the online release notes. Visit the RailClone product websiteHave your say on this story by following CG Channel on Facebook, Instagram and X. As well as being able to comment on stories, followers of our social media accounts can see videos we don’t post on the site itself, including making-ofs for the latest VFX movies, animations, games cinematics and motion graphics projects. #itoosoft #releases #railclone

html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "; Architectural visualization artist and tools developer Antoine Bagattini has released Baga River Generator, a new tool for rivers to 3D scenes in Blender.The add-on, co-created with artist Laura Mercadal, lets users create detailed rivers simply by drawing freehand paths in the viewport. Add good-looking 3D rivers to Blender scenes by drawing them in freehand To judge from the promo video embedded above, workflow in Baga River Generator is pretty much as simple as selecting a preset, then drawing a path in the viewport.The add-on then generates a detailed 3D river along the course of the path, complete with water, banks, and surrounding terrain, populated with rocks and plants. There are four presets available – a desert environment, and three with surrounding vegetation – and the add-on comes with over 30 different readymade environment assets. If you want to create your own looks, the terrain is fully parametric, making it possible to adjust the width and depth of the river channel and height of the surrounding land. You can also create or edit scatter layers, to control how the environment assets are distributed. There are some limitations in the initial release – the vegetation isn’t animated, and the water doesn’t have any foam or turbulence – but the results in the video look pretty good, and the output can be rendered with both the Cycles and Eevee render engines. Price and system requirements Baga River Generator is compatible with Blender 4.2+. It costs To install it, you need the GeoPack system in BagaPie, Bagattini’s free Blender modifier, which is now available as an Extension directly inside Blender. about Baga River Generator on the plugin’s Superhive page Have your say on this story by following CG Channel on Facebook, Instagram and X. As well as being able to comment on stories, followers of our social media accounts can see videos we don’t post on the site itself, including making-ofs for the latest VFX movies, animations, games cinematics and motion graphics projects. #baga #river #generator #lets #you