When you start to consider implementing the BIM (Building Information Modeling) methodology, whether as an independent professional or as a construction firm, it's necessary to take into account three key aspects: the technology, the process, and the people who bring it all together. In this article, we will address the key points in every one of these three aspects in order to give you insight into how to best start using BIM.
Technology: The Latest Architecture and News
A technological innovation is revolutionizing one of the oldest professions in the world. Augmented reality has just broken onto the scene and has already been transforming civil construction. The changes are seen not only in designing and modeling, but also in building. Augmented reality benefits the entire construction team: engineers, designers, architects, project managers and service providers.
Unlike virtual reality, which creates a totally new and independent environment of the real world, augmented reality includes virtual elements that interact with what already exists. It is thus possible to combine virtual architectural designs with the reality of the construction site, increasing efficiency and accuracy, reducing the occurrence of errors and saving time, money and resources.
Home Automation In Renovations: Is It Possible to Transform an Old Building into an Intelligent One?
Although the ability to install home automation in a practical way is associated with new projects, it is possible to adapt previously built buildings in a relatively simple way. In both small and large renovations projects these systems can deliver automated features that responds to the requirements and needs of its users. They can also improve the habitability and comfort of its spaces, increase their security and promote long-term energy and money savings. So, what considerations must be taken into account in order to transform an regular architecture project into an "intelligent" one?
Imagine light fixtures that act as Bluetooth beacons, allowing smartphones to help visitors find their way around a building. Imagine a lighting system which can pinpoint the location of people and physical assets within the building. Imagine an automation system which can use occupancy data and personal preferences to orchestrate an optimized and personalized building environment.
across, beyond, through :: critique, fantasy, technology
A sturdy featherweight table? Sounds... contrary to reason. But this contradiction was the very impetus for the design. Created for a research center that’s pushing the boundaries of design and manufacturing using technology and science, the designers--AIRLab, in collaboration with DManD-- sought to dematerialise the typical structure of a table, creating a sense of instability with the visual counterpoint of a solid surface.
The Dymaxion House was a futuristic dwelling invented by the architect and practical philosopher R. Buckminister Fuller - who would have turned 118 today. The word “Dymaxion,” which combines the words dynamic, maximum and tension, was coined (among many others) by Fuller himself.
In 1920 Fuller wished to build a sustainable autonomous single family dwelling, the living machine of the future. Although never built, the Dymaxion's design displayed forward-thinking and influential innovations in prefabrication and sustainability. Not only would the house have been exemplary in its self-sufficiency, but it also could have been mass-produced, flat-packaged and shipped throughout the world.
More on this revolutionary design after the break...
If you're looking to upgrade your standard architecture presentation, SENTIO VR's tutorials can be very useful. They allow you to accurately use Revit, SketchUp, V-ray, 3Ds Max, Lumion and Cinema4D to create 360 renders and perform virtual reality experiences, with both technical and visual advice.
Below, we've compiled a list of useful videos.
A professional networking platform has been launched aimed at connecting early-career architects in the USA. Ticco admits architects with between 2 and 15 years of experience, with the goal of sharing smart design ideas for the future of the built environment. Developed by Katie Rispoli Keaotamai over a one-and-a-half-year timespan, the platform will now accept applications for its first 100 members until April, at a cost 31% lower than the fees paid for professional memberships.
Centered around dialogue, the platform offers access to ideas and opportunities that will positively shape the built environment, be it exchanging information, consulting on a project, or finding a new role in the profession.
Carlo Ratti Associati has teamed up with Makr Shakr, the world’s leading producer of robotic bartending systems, to design a driverless robotic bar which “aims to propose new on-demand ways to enjoy leisure in cities.” GUIDO (Italian for “I drive”) features two mechanical arms with the ability to precisely prepare and serve drinks in seconds, mounted atop an autonomous vehicular platform.
Self-driving technology allows GUIDO to weave through the built environment, responding to bookings from a customer app. As orders are placed through the app, GUIDO sources the cocktail’s components from bottles stored on the counter, and prepares the drink on site. GUIDO’s system also performs ID age verification and supports paying via mobile phone.
The Cooper Union is to host a new exhibition showcasing the impact of technology on architectural drawing. “Drawing Codes: Experimental Protocols of Architectural Representation: Volume II” will examine how “emerging design and production technologies impact the ways in which architects engage with traditional practices of architectural drawing and how rules inform the ways the built environment is documented, analyzed, represented, and designed."
The exhibition will feature 24 experimental drawings by firms such as Aranda\Lasch, Höweler + Yoon, and Outpost Office. The artists were challenged by the curators to consider at least one concept that expands on the notion of “code” in design and representation. A strict set of rules was enforced, including black and white media, and limiting the drawing to two dimensions.
Home automation, or Domotics, is a set of technologies applied to a residence to control lighting, climate, entertainment systems, and appliances. Its systems allow for efficient management of energy consumption, security, accessibility, and the general comfort of the building, becoming an important issue to consider when designing, building, and living.
Domotic systems are based on the collection of data by sensors, which are then processed to issue precise orders to the executors, varying the environmental quality of each enclosure according to the needs of the user. The pace of current life and the technological advances we have experienced in recent years have led to new ways of living, motivating the design of homes and more human, multifunctional and flexible buildings. What was once a luxury is now a feasible and effective solution for all types of projects.
In this article, we've compiled a collection of smart homes where domotics have been used.
The Design that Educates Awards (DtEA) investigate the educational potential of architecture and design. The ability to communicate the implemented solutions and features is the main theme of the awards. Such an informational layer of design and architecture provides an important (yet not fully explored) opportunity for a dialog between the user and the designer. The result—a new type of learning environment—provides a space for the exploration of both the design itself and its relation to the vaster context. Each year, the esteemed panel of judges will select the most outstanding examples.
This article was originally published by Autodesk's Redshift publication as "The 4 Forces That Will Take on Concrete and Make Construction Smart."
When it comes to building a bridge, what prevents it from having the most enduring and sustainable life span? What is its worst enemy? The answer is, simply, the bridge itself—its own weight.
Built with today’s construction processes, bridges and buildings are so overly massed with energy and material that they’re inherently unsustainable. While concrete is quite literally one of the foundations of modern construction, it’s not the best building material. It’s sensitive to pollution. It cracks, stains, and collapses in reaction to rain and carbon dioxide. It’s a dead weight: Take San Francisco’s sinking, leaning Millennium Tower as an example.
Modern, smart construction can and will do better. A convergent set of technologies will soon radically change how the construction industry builds and what it builds with.
The digital platform rocagallery.com, a project from Roca, aims to be a reference point for design and architecture to news and thought, with more than 30 international writers and content updated every week.
Carlo Ratti Associati, working in collaboration with Alphabet’s Sidewalk Labs, has unveiled their design for a modular paving system named “The Dynamic Street.” Intended to make streets “reconfigurable, safer, and more accessible to pedestrians, cyclists, and tomorrow’s self-driving vehicles,” the project will be on display at Sidewalk Lab’s office and experimentation space in Toronto throughout the summer of 2018.
Manifesting as a series of hexagonal modular pavers, the project explores the various patterns which can be created by reconfiguring modules, with a potential future “allowing a street to create an extra car lane during rush hour before then turning it into a pedestrian-only plaza in the evening.”
Foster + Partners has published photographs of their recently-opened Apple Store in Macau, intended as a “new oasis of calm” against the city’s buzz and excitement. The store, opened on June 29th, was designed in response to a brief calling for “an inviting, contemplative space, where technology, entertainment, and arts come together to make a positive contribution to the city.”
Apple Cotai Central was designed in a close collaboration between Foster + Partners and Apple’s chief design officer Sir Jonathan Ive, a collaboration which has previously produced Apple stores at Michigan Avenue in Chicago, and Regent Street in London.
Donghua Chen & Partners released details of their proposal for the Lithuanian National Science and Innovation Center, an initiative known colloquially as “Science Island.” The competition saw entries from 144 teams, making it the largest design contest ever held in Lithuania. Donghua Chen & Partners were one of three finalists for the competition, with the entry by SMAR Architecture Studio ultimately chosen for realization.
The Donghua Chen & Partners proposal named the “Science Loop” sees a series of systems, including social, skyline, circulation, devolution, and recycling loops, organized as an integrated network.