The referential of movement, which describes the variation in an object's position and velocity according to the observer's perspective, is one of the fundamental concepts of physics. This idea not only influences the understanding of movement in physical systems but can also be analogously applied in other areas, such as architecture, where the different perspectives of users can shape their experiences and interactions with built space. Each person brings cultural, emotional, and physical baggage, resulting in unique architectural interactions, similar to an observer's interpretation of a motion reference.

The world's population is undergoing a significant demographic transformation, with an increasingly larger portion of people reaching older ages. This has prompted governments to implement public policies aimed at promoting the well-being of the growing number of elderly individuals worldwide. Alongside this trend, there is a need to address special needs that extend beyond just the elderly population and encompass various age groups. Advancements in medical science have enabled many people with disabilities or special needs to lead fuller and more independent lives, contributing to a more inclusive society. This progress also places a crucial responsibility on architects and designers, who must create built environments that are genuinely inclusive, and capable of accommodating a wide diversity of individuals with specific medical needs and varying levels of mobility. This underscores the fundamental importance of universal design and accessibility principles.

The practice of upcycling –present in a variety of industries from fashion to construction– not only revitalizes discarded items, adding new values and functions, but also contributes to turning them into valuable resources. Adopting the spirit of the circular economy by harnessing agricultural waste such as corn cobs, rice straw, and sugar cane bagasse for building materials marks a fundamental shift towards sustainable practices, promoting a closed-loop system that minimizes waste and optimizes resource efficiency.

CornWall®, developed by StoneCycling, is a pioneering innovation in this regard. Inspired by the need to shift to a bio-based economy, it incorporates a transformative solution that addresses the pressing concerns of the construction industry's environmental impact. It is a wall-finishing material made from plant biomass, obtained mainly from the cores of regionally sourced corn cobs. This organic waste is widely available and is usually destined for fermentation, burning as biomass, or becoming simple organic waste. We spoke to Ward Massa from StoneCycling to better understand this material.

Even the most mundane elements of everyday life have undergone remarkable developments throughout the years, especially when it comes to practicality, efficiency, and sustainability. A notable example is the contemporary toilet, an essential element for any home or public space, which has undergone significant transformations. Although they may appear to have remained relatively unchanged over the decades in terms of design and materials, incorporating technology has been the main development, offering improvements in comfort, variety of design, and innovative features. The evolution of toilets transcends mere functionality, representing a fusion of technology, design, and sustainability to create a holistic bathroom experience.

Traditionally relegated to roofs, photovoltaic (PV) panels tend to have a uniform appearance: large black or dark blue rectangular pieces of shiny glass with metal frames. Partly because dark colors better harvest sunlight to be turned into electricity, but also because silicon –the primary material used in most high-efficiency photovoltaic panels– tends to be dark in its crystalline form. Fortunately, there are now technologies to control luster, color and finish that provide aesthetic variety while maintaining high efficiency. SolarLab and other manufacturers are redefining conventional solar panels, introducing design flexibility and material qualities that allow architects to take advantage of large facade surfaces to generate renewable energy without compromising architecturally.

When it comes to windows, we can see how much the industry's technology has evolved over time. While the first versions of windows were small and not very transparent, today we can find large sheets of glass that blur the boundaries between the inside and outside, and can create virtually translucent façades. And this doesn't have to be limited to fixed glass. These days, we can use huge glazed surfaces that can be easily handled, thanks to a great deal of research and experimentation by manufacturers to improve components and raw materials. To create a large frame, for example, larger furnaces are needed for tempering, and strict technical control is required, demanding precision and high-quality standards, along with structural bonding using modified silicones and silyl-based polymers.

Whether through small samples of materials or a digital collage, a moodboard is a valuable project tool for architects and designers; an inspiration board with colors and elements to guide choices. The objective is to use this as an inspirational tool for upcoming projects, in order to define backgrounds, predominant textures, and standout details. To this end, surfaces play a fundamental role in defining a space and setting the tone of the space, just like a piece of music, where all the other elements may or may not match the harmony of the chosen palette.

In his Robie House, Frank Lloyd Wright created an ingenious arrangement of public and private spaces that slowly moving away from the street through a series of horizontal planes. Pronounced eaves made the interior space expand toward the outside. Considered the first phase of the American architect's career, the so-called Prairie Houses had marked horizontality, mainly due to the enormous plans created by slightly inclined eaves. Eaves are ubiquitous in most traditional architecture, and in addition to their aesthetic role, they serve several important functions, the primary one being to keep rainwater away from the building's walls and structure. But for some time now, we have seen plenty of projects with sloping roofs without eaves, forming pure and unornamented volumes. This brings us to the question: in these projects, how are practical issues such as draining rainwater?

When we conceive an architectural project, it is crucial to transcend mere aesthetics and consider all aspects of our material decisions. The spaces where we live, work, and interact should not only be visually pleasing but also contribute to our safety and comfort. What if, in addition, they could improve air quality and reduce the amount of pathogens on surfaces? This is why the selection of materials plays a fundamental role, and architects and specifiers need to strive to acquire as much knowledge as possible about the materials and systems they incorporate into their projects.

Representing a fusion of innovation and convenience, a smart home can be defined as an environment in which one or more devices are connected and can be controlled remotely, either through a smartphone or voice commands. Automation, or home automation, is an advanced technology that has become increasingly accessible and popular. It enables tasks ranging from efficiently controlling lighting and room temperature to managing security devices, entertainment systems, and voice-activated personal assistants. Smart homes empower residents with continuous and user-friendly control over their environment. This dynamic synergy of automation and connectivity not only promotes efficiency and resource conservation but also opens new horizons in customization and comfort, envisioning a future where homes adapt to the needs and preferences of their occupants, making life simpler and more enjoyable. However, these systems often require the installation of new cables and wiring to build the necessary infrastructure, as well as the hiring of highly specialized labor, which can often make their implementation impractical.

Videos

Frank Lloyd Wright first came up with the concept of the open-plan office in 1906, in the Larkin Building in Buffalo, New York, United States. The innovative nature of this approach, at the beginning of the 20th century, contrasted with the norm of closed offices and probably stunned those who first used it. Fast-forwarding to the 1950s, the concept of an open-plan office –Bürolandschaft or Office landscape– originated in Germany, with the objective of eliminating spatial hierarchy through shared spaces. The architects strategically designed the office layout to improve communication and teamwork, removing solid barriers and replacing rows of desks with work areas that were organized based on functions and workflows, with a mentality aligned with the precepts of the time, especially related to the European post-war reconstruction effort.

With the high population density of cities and voracious appetite of the market for every square meter, it is not uncommon for urban vegetation to be forgotten. For this reason, forests, vegetable gardens, and vertical gardens have aroused much interest and figured into a variety of different innovative proposals. Using the vertical plane to maintain plants in an urban setting is a coherent and common-sense solution, especially when there is little possibility of bringing green to the level of the people on the streets.

+ 17

Videos

Throughout history, architecture has always been associated with the elite and the wealthiest echelons of society, who commissioned sumptuous buildings to satisfy their aesthetic and functional needs. This trend dates back to ancient civilizations: Egyptian pharaohs built pyramids and impressive temples, Roman emperors erected magnificent amphitheaters and palaces. Architecture was, and often still is, a symbol of power and prestige. Over time, the profession expanded to encompass various types of buildings and audiences, from simple residences to public and commercial structures, and the advancement of technology and construction techniques made it more accessible in terms of costs. However, inequality in access to high-quality architecture still prevails, especially in underdeveloped countries or socially vulnerable contexts. Many regions face serious housing, infrastructure, and urban planning problems due to a lack of resources and adequate investments, with poor construction conditions, slum areas, a lack of basic sanitation, and unsafe buildings.

As urban areas around the world continue to experience population growth and increasing demand for housing, the land available for development is becoming both more limited and expensive. In large urban centers, many people deliberately choose the convenience and efficiency of compact living spaces in exchange for the benefits of city life, such as proximity to work, amenities, and cultural attractions. For others, however, the need to live in small spaces is a reality imposed by circumstances. In order to make construction feasible and increase urban density, builders and developers end up significantly reducing the size of rooms in homes, occasionally compromising the quality of life of those who live there. This has led to the adoption of various creative strategies to improve the efficiency of reduced interior spaces and provide greater comfort for occupants.