Biomimicry
Follow
Find
27.5K views | +2 today
 
Scooped by Miguel Prazeres
onto Biomimicry
Scoop.it!

Bee Flight Inspires Robot Design

Bee Flight Inspires Robot Design | Biomimicry | Scoop.it
Footage of bumblebees flying in a wind tunnel reveals how the insects manage in adverse weather, a discovery that could aid the design of flying robots.
more...
No comment yet.
Biomimicry
Nature inspired innovation
Your new post is loading...
Your new post is loading...
Scooped by Miguel Prazeres
Scoop.it!

Nonadhesion Technology: Yogurt Lid Licking Be Banished

Nonadhesion Technology: Yogurt Lid Licking Be Banished | Biomimicry | Scoop.it

"Part of the yogurt eating ritual has always been licking the food off the foil lid. Over the course of a year, the yogurt stuck to lids worldwide is equivalent to the volume consumed in Africa, according to a calculation by Toyo Aluminium. Morinaga Milk Industry is doing something about that: Its lids peel off clean with no stuck yogurt. The company uses a special lid developed in cooperation with Toyo Aluminium. It is based on a packaging technology Toyo calls "Toyal Lotus." The material's structural inspiration was the lotus leaf, which is famous for its ability to shed water and remain dry."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Swarms of Bees Inspired this Energy-saving Innovation

Swarms of Bees Inspired this Energy-saving Innovation | Biomimicry | Scoop.it

"When it comes to managing a building’s cooling and heating costs, just look up. It turns out there’s a lot to be learned from the birds and the bees, according to Toronto-based REGEN Energy. The clean tech firm co-ordinates HVAC (heating, ventilating and air-conditioning) systems by tapping into the ability of insect colonies and flocks of birds to display a greater collective intelligence."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Spider-inspired Sensor Can Detect Human Speech and Pulse

Spider-inspired Sensor Can Detect Human Speech and Pulse | Biomimicry | Scoop.it

"The wandering spider boasts one of the world’s most sensitive vibration detectors: It can pick up the slightest rustling of a leaf from several meters away. Now, scientists have developed similar sensors that can detect simple human speech. The technology could lead to wearable electronics for speech recognition, health monitoring, and more."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Learning Anti-microbial Nanoscale Physics From Cicada

Learning Anti-microbial Nanoscale Physics From Cicada | Biomimicry | Scoop.it

"The spread of antimicrobial resistance with the emergence of 'super-bugs' that resist even 'last-resort' antibiotics has prompted the World Health Organisation (WHO) to formally tackle the problem of an unwanted post-antibiotic era. [...] A notable solution is provided by an unlikely source - the cicada.The wings of this small fly display bactericidal nanoscale pillar structures. Each of these pillars is a pike of several tens of nanometers in diameter and is separated from other pikes at regular nanometer intervals. Densely packed on the wing surfaces, these pillars arrange into nanopatterns which pierce the membranes of bacterial cells on contact, tearing bacteria apart. Inspired by this example, a research team from NPL and the School of Oral and Dental Sciences at the University of Bristol engineered biocompatible surfaces exhibiting nanowire arrays."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Scientists Figure Out How To Scale Walls Like Spider-Man

Scientists Figure Out How To Scale Walls Like Spider-Man | Biomimicry | Scoop.it

"A team of researchers at Stanford has developed a way to scale glass walls using pads that attach to a person's hands. [...] The inspiration behind the design was not actually Spider-Man, but the gecko, which is able to climb up a variety of surfaces using what are known as van der Waals forces. To replicate these electric forces, the Stanford team created hexagon-shaped pads about the size of pingpong paddles. They then covered them in tiny tiles made from polydimethylsiloxane -- a silicon material commonly found in water-repellant coatings. The material itself isn't actually sticky like tape or glue. Like a gecko's toes, the tiles have tiny nanofibers that make the pads strong enough to cling to glass surfaces. Flexible springs behind the tiles help to distribute the weight."

 

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Bat-inspired Sonar Device Aids the Visually Impaired

Bat-inspired Sonar Device Aids the Visually Impaired | Biomimicry | Scoop.it

"Unlike Batman, bats don’t rely on projections in the sky to tell them where to go; they navigate by calling and judging where the sounds echo off objects. This sound-based system inspired a team at Wake Forest University, North Carolina, to create a sonar device to help the blind to get around more easily."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Innovative by Nature: Airbus Establishes a Company-wide Network for Bionics Projects

Innovative by Nature: Airbus Establishes a Company-wide Network for Bionics Projects | Biomimicry | Scoop.it

"Airbus believes that much can be learned by studying the natural world, and in putting this philosophy into practice as a global innovation leader, the company has launched numerous projects inspired by biological systems and methods in order to develop new technical solutions. [...] One bionics project at Airbus seeks a new method for stiffening surfaces by leveraging physical qualities of the Victoria water lily (Victoria amazonica) – which has intrigued engineers with its superior ability to support significant point loads. The plant’s leaf vein structure provides Airbus with a model for reinforcing surfaces, and can now be found on the inner surface of a 3D-printed aircraft spoiler drawn up as part of a concept study." 

 
more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

The Land Institute Permaculture

The Land Institute Permaculture | Biomimicry | Scoop.it

"Perennial grain cropping, or permaculture, is a form of agriculture developed to mimic natural systems. This strategy takes advantage of benefits found in natural systems, such as resilience to most perturbations, self-regulation, accumulation of "ecological capital," stable soils, carbon sequestration, nutrient cycling, food production, and biodiversity."

more...
Norma R. Burnson's curator insight, December 18, 5:32 AM

Sustainable  Food for the Globe.  Permaculture.  Check it out!  ..."The Land Institute was founded by Wes Jackson and is located in Kansas where prototypes of perennial grain plants are grown to test theories of natural systems agriculture. Its mission statement is, "When people, land, and community are as one, all three members prosper; when they relate not as members but as competing interests, all three are exploited. By consulting Nature as the source and measure of that membership, The Land Institute seeks to develop an agriculture that will save soil from being lost or poisoned while promoting a community life at once prosperous and enduring."  +++++    




 

Visit our Websites, Share Your Time, Treasure and Talent!
You hold the key! Help keep our world alive and vibrant!
Scooped by Miguel Prazeres
Scoop.it!

Understanding the Basic Principles of Organic Design

Understanding the Basic Principles of Organic Design | Biomimicry | Scoop.it

"In recent years, architects, biologists, and engineers have been thinking about the possible connection the architectural field can have with living entities, such as insects or trees. Most of the time, architects design projects based on the imitation of natural forms. This imitation takes place in a field where there haven’t been previous studies about the organism being imitated, its basic organic functions, and its interaction with the environment. This concept is called biomorphism.

 

When you add in concepts such as biomimicry and biomimetics as theoretical foundations, the design process is focused on the understanding of the functions of the project, how its functions and structure can be solved by studying a specific organism, and, in some supported research projects, how it can be built with parametric design."

more...
Laurence's curator insight, November 4, 3:05 AM

La nature est belle, l'imiter pour son esthétisme est une bonne idée. La beauté apaise.

Scooped by Miguel Prazeres
Scoop.it!

'Starfish' Crystals Could Lead to 3D-printed Pills

'Starfish' Crystals Could Lead to 3D-printed Pills | Biomimicry | Scoop.it

"Engineers have figured out how to make rounded crystals with no facets, a design that mimics the hard-to-duplicate texture of starfish shells. The discovery could one day lead to 3D-printed medications 

that absorb better into the body."

more...
Lehigh MSE's curator insight, October 30, 7:58 AM

Nature can produce crystals that are smooth, but engineers haven't been able to do so reliably -- till now.

Scooped by Miguel Prazeres
Scoop.it!

Hydroceramic Walls Could Cool Buildings By Sweating Like Human Skin

Hydroceramic Walls Could Cool Buildings By Sweating Like Human Skin | Biomimicry | Scoop.it
Our reliance on air conditioning, however magical an innovation, has become a serious environmental burden. Which is why researchers in Barcelona designed a material they say can naturally cool rooms by about 5 degrees Celsius, using a moisture-absorbing polymer that "sweats" much like our own body.
more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Fruit Flies Could Sniff Out Bombs, Drugs

Fruit Flies Could Sniff Out Bombs, Drugs | Biomimicry | Scoop.it

"A fruit fly's sense of smell could potentially be used to sniff out bombs and drugs, according to a new study. Fruit flies (Drosophila melanogaster) can detect smells such as those from wine, which the insects are naturally attracted to because it smells like their favorite food, fermenting fruit. Now, new research shows that their keen "noses" could with just as much accuracy identify odors from illicit drugs and explosive substances as well."

more...
Scooped by Miguel Prazeres
Scoop.it!

Snakes and Snake-like Robots Show How Sidewinders Conquer Sandy Slopes

Snakes and Snake-like Robots Show How Sidewinders Conquer Sandy Slopes | Biomimicry | Scoop.it

"The amazing ability of sidewinder snakes to quickly climb sandy slopes was once something biologists only vaguely understood and roboticists only dreamed of replicating. By studying the snakes in a unique bed of inclined sand and using a snake-like robot to test ideas spawned by observing the real animals, both biologists and roboticists have now gained long-sought insights."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

How Birds’ Beaks Could Solve Water Shortages

How Birds’ Beaks Could Solve Water Shortages | Biomimicry | Scoop.it

"The Idea: Collect water from fog in deserts and other regions where water is scarce using a method borrowed from birds. Researchers at the University of Texas at Arlington observed shorebirds such as phalaropes opening and closing their beaks in order to move water towards their mouths. The unusual drinking method inspired the researchers to create a beak-like fog collector. Composed of two plates joined at one end by a hinge, the collector accumulates water droplets on the inner surfaces of its “beak” while in the open position. Closing the “beak” merges tiny droplets into larger drops, which are able to roll towards the collection tube located near the hinge."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Researchers Create Stunning 3D Printed, Programmable, Bio-Inspired Architectural Materials

Researchers Create Stunning 3D Printed, Programmable, Bio-Inspired Architectural Materials | Biomimicry | Scoop.it

"Biological systems often have the ability to adapt to their environments. They harness external atmospheric stimuli, and as a result, triggers are activated which might result in kinematic shape or chemical changes to a given system or plant. Performance challenges – when pitted against a series of resource limitations like humidity or lack of water – can provoke complex and multi-layered structural changes in plants, and nature regularly makes use of various strategies and materials to deal with those challenges.[...] University of Stuttgart Professor Achim Menges, a registered architect and the founding director of the Institute for Computational Design, is also a visiting professor in architecture at Harvard University, and his practice and research are devoted to creating integral design processes at the nexus of “morphogenetic design computation, biomimetic engineering and computer aided manufacturing."

more...
Ollie Cline's curator insight, December 15, 11:30 PM

add your insight...

 10
Scooped by Miguel Prazeres
Scoop.it!

Studying Owls to Improve Aircraft

Studying Owls to Improve Aircraft | Biomimicry | Scoop.it
Many owls have the extraordinary ability to fly in almost complete silence. Could this adaptation have implications for the way we design aircraft?

 

Photo details: Snowy Owl, Saint Barthelemy, Near Montreal, Quebec. Copyright © 2010, Alan D. Wilson. http://www.naturespicsonline.com

more...
Yves Bonis's curator insight, December 9, 3:51 AM

Le vol silencieux des hiboux a déjà inspiré le Shinkansen - le "TGV" japonais. Il pourrait bien aider également l'aviation...

Scooped by Miguel Prazeres
Scoop.it!

Biomimetic Filters Recover Clean Water From Sludge

Biomimetic Filters Recover Clean Water From Sludge | Biomimicry | Scoop.it

"San Jose-based zNano is getting attention for what could be a breakthrough technology designed to recover clean water from sludge. [...] The company draws on a process called biomimetic filtration. This process is the subject a growing body of research. "Biomimetic filters, according to Susan Rempe, a principal researcher in the nanobiology department at Sandia National Laboratories in New Mexico, mimic the structure of naturally filtering cellular water membranes," theBusiness Journalreport said. Rempe said the membranes are “exactly the same chemically as those that purify water in the human body, [and which are one of the most efficient purification systems]," the report said."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Robot That Moves Like an Inchworm Could Go Places Other Robots Can't

Robot That Moves Like an Inchworm Could Go Places Other Robots Can't | Biomimicry | Scoop.it

"The peculiar way that an inchworm inches along a surface may not be fast compared to using legs, wings, or wheels, but it does have advantages when it comes to maneuvering in small spaces. This is one of the reasons why researchers have designed and built a soft, worm-like robot that moves with a typical inchworm gait, pulling its body up and extending it forward to navigate its environment. The robots could one day be used in rescue and reconnaissance missions in places that are inaccessible to humans or larger robots.."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Biomimicry Incubators: the Business Case for Conservation

Biomimicry Incubators: the Business Case for Conservation | Biomimicry | Scoop.it

"The business opportunities found in biomimicry - the application of characteristics found in species to human innovation - makes a strong case for biodiversity conservation, says Siloso Beach Resort sustainability director Sylvain Richer de Forges."

more...
Yves Bonis's curator insight, December 1, 3:22 PM

Idée géniale : Inclure dans chaque entreprise un service Biomimétisme qui inspire et infuse dans toute la structure.

Scooped by Miguel Prazeres
Scoop.it!

Nano-imprint Technology Could Revolutionize TVs, Drugmaking

Nano-imprint Technology Could Revolutionize TVs, Drugmaking | Biomimicry | Scoop.it

"Nano-imprint technology, a technique in which microscopic indentations are made on an object's surface, is changing the nature of various products, including TV screens, semiconductors and tissue cultures. One application already being used is in making so-called moth-eye film, a transparent film developed by Dai Nippon Printing that reflects almost no light. This film is modeled after a moth's eyes, which are known for reflecting little to no light, allowing the insect to better hide from predators. This is achieved by minute bumps that are around 200 nanometers, 200 billionths of a meter, in diameter. Nano-imprint technology helped researchers create such surfaces on film."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Longhorn Beetle Inspires Ink to Fight Counterfeiting

Longhorn Beetle Inspires Ink to Fight Counterfeiting | Biomimicry | Scoop.it

"From water marks to colored threads, governments are constantly adding new features to paper money to stay one step ahead of counterfeiters. Now a longhorn beetle has inspired yet another way to foil cash fraud, as well as to produce colorful, changing billboards and art displays. In the journal ACS Nano, researchers report a new kind of ink that mimics the beetle’s color-shifting ability in a way that would be long-lasting and difficult to copy."

more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Biomimetics: the Nature as a Source of Inspiration for A350 XWB Design.

Biomimetics: the Nature as a Source of Inspiration for A350 XWB Design. | Biomimicry | Scoop.it
"[...] In a macroscopic axis, the A350 XWB considers the actively deformation of the surfaces to provide the best aerodynamic performance and control of load for each flight conditions; takeoff, climb, cruise, approach, landing, maneuver, turbulence-encounters, etc. This is what birds, fish and marine mammals perform beautifully, called "morphing".  The idea is to move from a 'rigid' world to flexibility and adaptation technologies."
more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

Feathers in Flight Inspire Advanced Anti-Turbulence Systems

Feathers in Flight Inspire Advanced Anti-Turbulence Systems | Biomimicry | Scoop.it

"Inspired by nature's own anti-turbulence devices – feathers – researchers have developed an innovative system that could spell the end of turbulence on flights. Researchers from the Unmanned Systems Research Team at RMIT University in Melbourne, Australia, have lodged a provisional patent on the system, which mimics the way feathers help birds detect disturbances in the air."

more...
Zachary12's curator insight, November 3, 4:17 PM

This is a an great idea and concept for flight similar to that comic joke that with Irish man who was the first man to fly by putting geese feather on him self. These scientist found that feather might dissipate  turbulence on a plane since we have found that birds don't experience any type of turbulence. Look at Peregrine Falcon which can reach 200 mph when diving at a prey

Brad's comment, November 30, 9:55 AM
I could see this technology being more available to small aircraft like it says, but the ability to ensure no turbulence or even a claim to even reduce turbulence in large plains is unsure. Small planes are the ones who get bounced around the most, larger aircraft are still so large I am not sure if it would be cost effective. It seems like this technology is very early. When a new technology claims it is copyiung nature it must be better, or does it? I don't see how tons of metal and steel could ever really rect like a birds wing.
Zachary12's comment, November 30, 10:03 PM
I think you right brad in fact that lager planes would not experience to much affect but the small planes might, and for copying nature I would have to say that they should look at this idea for feathers for small amount of effort for overcoming turbulence. But another maybe even better way would be a integrating more natures concepts to the wings like carbon fiber wings that might give to increase pressures or changes in jets streams. I use carbon fiber as an example is be cause it has a high tensile strength giving less likely hood to snap but this could give the once ridged wings more flexibility in flight to compensate.
Scooped by Miguel Prazeres
Scoop.it!

Technology Unlocks the Mysteries of Bird Flight

Technology Unlocks the Mysteries of Bird Flight | Biomimicry | Scoop.it
As long as there have been people watching birds, there have been theories as to how and why they do what they do. In the modern era, theories about why birds flock and why they migrate in v-formations have abounded, yet answers have been few. But new research using creative technology on both starling murmurations and bald ibis’ migration reveals that complex flight dynamics and rapid-fire adjustments based on sensory feedback previously believed impossible for birds are indeed occurring.
more...
No comment yet.
Scooped by Miguel Prazeres
Scoop.it!

TREEPODS: Carbon-Scrubbing Artificial Trees for Boston City Streets

TREEPODS: Carbon-Scrubbing Artificial Trees for Boston City Streets | Biomimicry | Scoop.it

"Trees naturally filter and clean our air, but in today’s heavily polluted world, it’s just too huge of a task to expect Mother Nature to take care of herself. Taking this into account, designers Mario Caceres and Cristian Canonico have designed a set of beautiful air-filtering trees for the SHIFTboston urban intervention contest. Called TREEPODS, the designs harnesses biomimicry to efficiently emulate the carbon filtration qualities of trees."

more...
No comment yet.