LUXE STUDIO

Cell-Sized Robots

 

Researchers at MIT have created what may be the smallest robots yet that can sense their environment, store data, and even carry out computational tasks. These devices, which are about the size of a human egg cell, consist of tiny electronic circuits made of two-dimensional materials, piggybacking on minuscule particles called colloids.

 

Colloids, which insoluble particles or molecules anywhere from a billionth to a millionth of a meter across, are so small they can stay suspended indefinitely in a liquid or even in air. By coupling these tiny objects to complex circuitry, the researchers hope to lay the groundwork for devices that could be dispersed to carry out diagnostic journeys through anything from the human digestive system to oil and gas pipelines, or perhaps to waft through air to measure compounds inside a chemical processor or refinery.

 

Tiny robots made by the MIT team are self-powered, requiring no external power source or even internal batteries. A simple photodiode provides the trickle of electricity that the tiny robots’ circuits require to power their computation and memory circuits. That’s enough to let them sense information about their environment, store those data in their memory, and then later have the data read out after accomplishing their mission.

 

Such devices could ultimately be a boon for the oil and gas industry, Currently, the main way of checking for leaks or other issues in pipelines is to have a crew physically drive along the pipe and inspect it with expensive instruments. In principle, the new devices could be inserted into one end of the pipeline, carried along with the flow, and then removed at the other end, providing a record of the conditions they encountered along the way, including the presence of contaminants that could indicate the location of problem areas. Similarly, such particles could potentially be used for diagnostic purposes in the body, for example to pass through the digestive tract searching for signs of inflammation or other disease indicators.

 

source: MIT

Glowing Plants?

 

MIT engineers have developed a method to illuminate plants. By embedding specialized nanoparticles into the leaves of a watercress plant, they induced the plants to give off dim light for nearly four hours. They believe that, with further optimization, such plants will one day be bright enough to illuminate a workspace.

 

“The vision is to make a plant that will function as a desk lamp — a lamp that you don’t have to plug in. The light is ultimately powered by the energy metabolism of the plant itself,” says Michael Strano, the Carbon P. Dubbs Professor of Chemical Engineering at MIT and the senior author of the study.

 

This technology could also be used to provide low-intensity indoor lighting, or to transform trees into self-powered streetlights, the researchers say. The group’s goal is to engineer plants to take over many of the functions now performed by electrical devices. The researchers have previously designed plants that can detect explosives and communicate that information to a smartphone, as well as plants that can monitor drought conditions.

 

source: MIT

Magical Lights in Ghent

 

Every three years, the charming Belgium city of Ghent is set ablaze with lights during the Ghent Light Festival. The recent 2018 edition brought in nearly one million attendees to experience the works of light artists from across the globe. Over five days, the city’s nights became the backdrop for a surprising spectacle, ingenious installations, spectacular performances and beautiful events, all based on light. This dazzling festival wraps the entire city in brilliant hues of iridescent colors, including the city’s cathedral with more than 55,000 LEDs.

 

 

 

source: visit.gent.be

 

 

 

Frank Lloyd Wright’s Taliesin West in an Interactive Experience

 

Innovative technology companies have joined together with the Frank Lloyd Wright Foundation to bring Wright’s vision to the world. Through the combination of a powerful 3D imaging laser scanner, sophisticated documentation and an immersive media platform, anybody anywhere can now experience the work of the master architect.

 

True to Frank Lloyd Wright’s vision, this immersive experience represents a new way for the world to access, preserve, and think about design and organic architecture. Roam the property and go inside Taliesin West through this immersive experience that provides a deeper understanding of Frank Lloyd Wright’s philosophy on organic architecture and how it comes to life in the design and structure of his winter home and studio. Experience Wright’s usage of compression and release as you enter the living room. Go to the land bridge and view the desert landscape. Take in the structural desert masonry as you wander the hallways and pass unique elements such as the light fixtures and furniture, most of which were designed by Wright himself. Take a walk through on your own: http://franklloydwright.org/3dlab/

 

source: franklloydwright.org

Robotically Fabricated Exhibition Hall

 

The Landesgartenschau Exhibition Hall is an architectural prototype building and a showcase for the current developments in computational design and robotic fabrication for lightweight timber construction. Funded by the European Union and the state of Baden-Württemberg, the building is the first to have its primary structure entirely made of robotically prefabricated beech plywood plates. This newly developed timber plate construction is made possible through integrative computational design, simulation, fabrication and surveying methods resulting not only in a highly performative and resource efficient plate shell structure but also in innovative architecture.

 

 

 

source: ICD Institute

The Printing of Shape-Shifting Objects

 

A team of researchers from Georgia Institute of Technology and two other institutions has developed a new 3-D printing method to create objects that can permanently transform into a range of different shapes in response to heat. The team, which included researchers from the Singapore University of Technology and Design (SUTD) and Xi’an Jiaotong University in China, created the objects by printing layers of shape memory polymers with each layer designed to respond differently when exposed to heat.

 

Their development of the new 3-D printed objects follows earlier work the team had done using smart shape memory polymers (SMPs), which have the ability to remember one shape and change to another programmed shape when uniform heat is applied, to make objects that could fold themselves along hinges.

 

To demonstrate the capabilities of the new process, the team fabricated several objects that could bend or expand quickly when immersed in hot water – including a model of a flower whose petals bend like a real daisy responding to sunlight and a lattice-shaped object that could expand by nearly eight times its original size.

 

The new 4-D objects could enable a range of new product features, such as allowing products that could be stacked flat or rolled for shipping and then expanded once in use, the researchers said. Eventually, the technology could enable components that could respond to stimuli such as temperature, moisture or light in a way that is precisely timed to create space structures, deployable medical devices, robots, toys and range of other structures.

 

 

source: Georgia Tech

Lighting Pompeii with Sun-Like LEDs

 

Seoul Semiconductor’s natural spectrum LEDs recently were used for a lighting project to illuminate the restored murals of the Casa dei Vettii in the ruins of the ancient city of Pompeii, Italy. The lighting project was undertaken by the Lumen Center Italia (LCI), which specified the SunLike Series natural spectrum LEDs because they produce light that closely matches the spectrum of natural sunlight, which conveys the colors and textures of the restored murals accurately as they would naturally appear.

 

LCI developed spotlights that employ nine units of 25W COB-type SunLike Series natural spectrum LEDs. The LEDs reproduce the spectrum of sunlight as closely as possible to show the color of the object as it appears in natural light and provide a good sense of depth based on high contrast ratio to accurately represent the murals. LCI has also illuminated art works master pieces in the Vatican Museums, Pinacoteca Ambrosiana and others, including: Leonardo da Vinci’s Codex Atlanticus, the paintings of Botticelli, Tiziano, and Bruegel.

 

source: seoulsemico

Lego Goes Green

 

 

Production has started on a range of sustainable LEGO elements made from plant-based plastic sourced from sugarcane. The new sustainable LEGO ‘botanical’ elements will come in varieties including leaves, bushes and trees. The move is part of the LEGO Group’s commitment to use sustainable materials in core products and packaging by 2030.

 

The new sustainable LEGO elements are made from polyethylene, which is a soft, durable and flexible plastic, and while they are based on sugar-cane material, they are technically identical to those produced using conventional plastic. The elements have been tested to ensure the plant-based plastic meets the high standards for quality and safety that the LEGO Group has.

 

“LEGO products have always been about providing high quality play experiences giving every child the chance to shape their own world through inventive play. Children and parents will not notice any difference in the quality or appearance of the new elements, because plant-based polyethylene has the same properties as conventional polyethylene,” said Tim Brooks.

 

source: lego

Ron Arad: Out of the Box

 

Ron Arad’s constant experimentation with the possibilities of materials such as steel, aluminum or polyamide and his radical re-conception of the form and structure of furniture has put him at the forefront of contemporary design and architecture.

 

Born in Tel Aviv in 1951, educated at the Jerusalem Academy of Art and later at the Architectural Association in London, Ron Arad co-founded with Caroline Thorman the design and production studio One Off in 1981 and later, in 1989, Ron Arad Associates architecture and design practice. In 2008 Ron Arad Architects was established alongside Ron Arad Associates. From 1994 to 1999 he established the Ron Arad Studio, design and production unit in Como, Italy. He was Professor of Design Product at the Royal College of Art in London up until 2009. Ron Arad was awarded the 2011 London Design Week Medal for design excellence and was became a Royal Academician of the Royal Academy of Arts in 2013.

 

Arad’s career as a designer began with the Rover chair, a leather car seat of a Rover V8 2L anchored on a tubular steel frame. Alongside his limited edition studio work, Arad designs for many leading international companies including Kartell, Vitra, Moroso, Fiam, Driade, Alessi, Cappellini, Cassina, WMF and Magis among many others. He has designed a number of Public Art pieces, most recently the Vortext in Seoul, Korea, and the Kesher Sculpture at Tel Aviv University.

 

Arad designed the ToHA office complex in Tel Aviv, under construction until 2018. Once completed, it will be the tallest skyscraper in Israel.

 

 

 

 

 

 

 

 

sources: ronarad, wikipedia

 

LIGHT UP LA – STUDIO EVENT APRIL 5, 2018

 

 

 

It was a beautiful sunny LA day as the West Coast design community visited us for our annual LIGHT UP LA Open House.

 

We always enjoy showing off our headquarters to new design partners and welcoming friends returning to see what’s new!

 

Our guests had a sneak preview of our new Spring ’18 Luxe Light & Home collections ahead of their official release at High Point Spring Market – the GRAMERCY midcentury starburst of brass or nickel and Brazilian Quartz crystal is already a hit! And the delightful ARABELLE was her fabulous sparkling self! See the Luxe site for all the options – and of course we can customize the designs to fit your project.

 

Talking of custom, our visitors also enjoyed tours of our 85,000 sqft factory and design offices  where we create our Lusive signature custom lighting for hospitality, contract and residential applications worldwide.

 

Our inhouse artisans conducted an interactive gold leafing workshop and then we all mingled together in our beautiful studios, sipping on signature Elusive Sidecar cocktails as the sun went down…