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The construction industry has evolved throughout time, but always by way of builders. What happens when people are no longer part of building and construction? This is the question asked by British multinational infrastructure company Balfour Beatty, and they’ve published their answer in the 2050 Innovation Paper. The industry report has become a reference point to those looking at the evolution of buildings and design.
The digital revolution coupled with the unforeseen environmental, economical and social challenges our world face today, urge architecture to shake much of the traditions and basis upon which it operated for the last decades, if not centuries.
Facades are the interface between the interior and exterior of a building. They are the most striking and visible parts of a building, they protect it from external agents and are one of the main contributors to creating comfortable environments since it is where thermal gains and losses occur. Just like our skin, an extremely versatile organ of our body, it should be natural for it to be the part of the building which bears technology capable of becoming adaptable to the environmental conditions of the place where it is located.
Once restricted to luxury or super-tech buildings, home automation is proving to be an increasingly fundamental and affordable addition to architectural projects, whether to new buildings or renovations. While understanding how they operate can be extremely complex, the primary purpose of technology is to make life simpler, safer, and easier. By definition, home automation seeks to be globally intelligent, functioning as a system that facilitates processes without unnecessarily complicating the user's life. The idea is to connect devices, which in turn connect and talk through a centralized control unit, accessible by computers, tablets, and mobile phones. These include lights, appliances, electrical outlets, and heating and cooling systems, but also alarms, doors, windows, smoke detectors, surveillance cameras, and many other sensors and devices.
Many people's way of working has changed, but most offices remain the same.
Air-conditioning isn’t just expensive; it’s also terrible for the environment. Accounting for 10% of global energy consumption today, space cooling in 2016 alone was responsible for 1045 metric tons of CO2 emissions. This number is only expected to increase, with the International Energy Agency estimating that cooling will reach 37% of the world’s total energy demand by 2050.
Concrete, an essential building material, has for decades offered us the possibility of shaping our cities quickly and effectively, allowing them to rapidly expand into urban peripheries and reach heights previously unimagined by mankind. Today, new timber technologies are beginning to deliver similar opportunities – and even superior ones – through materials like Cross-Laminated Timber (CLT).
The term "resilience" has been employed in a wide range of subjects. The scientific definition is the ability of a substance or object to recover its form after suffering some trauma. In other words, it is quite different from resistance, as it concerns the capability of adapting and recovering. In ecology, resilience is about the ability of an ecosystem to respond to a perturbation or disturbance, resisting damage and recovering quickly. In architecture, however, designing something while having resilience in mind can lead to a variety of approaches. Resilient designs are always site-specific. Predicting the potential scenarios for typical building use, and even any disasters that could challenge the integrity of the project and its occupants is an important starting point. Furthermore, it is possible to address adaptive structures and materials that can ''learn'' from their environment and continuously reinvent themselves. Since there are software and robots with algorithms that learn from their contexts, why can't we use the same approach in construction?
Since the 1970s, humanity’s resource consumption began to exceed what the planet could renew in a year. That is, we are withdrawing and polluting nature more than it can naturally recover. According to the World Bank, if the world's population reaches even the projected number of 9.6 billion people by 2050, it will take almost three Earth planets to provide the natural resources needed to maintain humanity's current lifestyle.
This is all quite recent: less than a year ago, a French family became the first in the world to live in a 3D printed house. Short of 20 years, this seemed like a distant dream, this new technology has developed quickly, and it arises as a possible contribution to the housing crisis around the world.
Automation has finally reached our desks. If just a few years ago we believed that technology (including robots) could replace the work done by humans, minus the design specifications and some 'creative' aspects, we were wrong.
Matter Design Studio has partnered with CEMEX Global R&D to challenge the relationship between the mass of materials and the physical effort of contemporary construction practices, exploring the movement and assembly of heavy objects on a real scale, manufactured using advanced computing. The objective of Walking Assembly is to eliminate the crane from the constructive equation, transferring the effort from people to objects, freeing them to play with the mass.
Cardboard tubes are so commonplace that we may no longer even notice them. Yet they are everywhere: in a roll of toilet paper, in the packaging of the college diploma, in fireworks, and in the tissue and paper industries. And now, more and more, they can be found in unusual places, such as on the walls of houses and buildings. The material is part of modern life and is being produced for a multitude of industrial applications and consumer products. The vast majority are used as structural cores in winding operations. Immediately after manufacturing, paper, film or textiles are rolled directly onto cardboard tubes resulting in a stable roll that is easily stored and transported.
When we think of energy from renewable sources, the first that probably come to mind are solar and wind. And decentralizing power generation is something that has inspired engineers and inventors from all over the world.
So what about turning the mechanical energy generated when people walk into electrical energy? It can be done thanks to technology developed by Laurence Kemball-Cook,founder of Pavegen. Using platforms inserted within sidewalks Pavegen converts steps into electric power (while also generating data and even rewards). But before you go out there feeling like Michael Jackson in Billie Jean, you should understand how this system works.
Most of the materials that we use in the construction of our projects have shapes and dimensions that seek to facilitate their storage, transfer, and installation, being constituted in its majority by orthogonal modulations. These straight angles don't always fit with the irregularity of our designs, nor do they coincide exactly when encountering more organic materials or other specific elements such as ducts, pillars, or furniture.
ArchDaily is happy to announce our Media Partnership with @Oslo Architecture Triennale 2019! Throughout 2019 we will be sharing stories, interviews, and content related to the Triennale, which this year revolves around the theme of Degrowth. The interview below introduces Degrowth in the context of practice today - and hints at how this radical idea could irreversibly change how we value architectural production.
According to The Economist, 47% of the work done by humans will have been replaced by robots by 2037, even those traditionally associated with university education. While the World Economic Forum estimates that between 2015 and 2020, 7.1 million jobs will be lost around the world, as "artificial intelligence, robotics, nanotechnology and other socio-economic factors replace the need for human employees."
A relative newcomer to the material world, smart glass (also known as switch glass or electrochromic glass) has the ability to change its properties and appearance, allowing the environmental conditions of a space to be optimized according to the use and needs of its users.