Biomimicry is an engineering concept about looking to nature for ideas. Engineers are able to solve problems by mimicking natural solutions. One of the reasons that this technique works so well is that natural processes have evolved to work effectively and efficiently.
Engineers definitely look to nature for inspiration and learning opportunities! Another way that engineers learn from nature is to figure out ways to address the pollution that results from making and using products. Nature has a well-defined way of taking care of its "trash," such as dead animals and leaves.
Biomimicry is an approach to innovation that seeks sustainable solutions to human challenges by emulating nature's time-tested patterns and strategies. In short, biomimicry is the process of taking the innovations that exist in nature and applying them to technology.
Biomimicry (literally: imitation of the living ) aims to take inspiration from natural selection solutions adopted by nature and translate the principles to human engineering. The biomimicry approach aims to favor “choices” tested by nature which had millions of years to understand what works best and what doesn't.
Smith: Bio-inspired engineering enables a designer or manufacturer to create products that use less material and energy. Depending on the implementation, bio-inspired technology may also make use of biology as a means of manufacturing (living material as a thing to build with and the machine to form it).
Also known as Biomimetics, it is the interdisciplinary field of creating products by reverse engineering nature. Simply put, it helps researchers study natural phenomena to obtain ideas from nature and apply them to solve real world human problems.
Biomimicry was popularized by scientist and author Janine Benyus in her 1997 book Biomimicry: Innovation Inspired by Nature. Biomimicry is defined in the book as a "new science that studies nature's models and then imitates or takes inspiration from these designs and processes to solve human problems".
Definition. Biomimetics is an interdisciplinary field in which principles from engineering, chemistry and biology are applied to the synthesis of materials, synthetic systems or machines that have functions that mimic biological processes.
Biomorphism refers to designs that visually resemble elements from life (they “look like” nature), whereas biomimetic designs focus on function (they “work like” nature). Biomorphic designs can be very beautiful and beneficial, in part because humans have a natural affinity for nature and natural forms.
The most famous example of technology inspired by plants that is commonly used in many different fields and applications is the Velcro invention. Velcro resulted in 1948 from a Swiss engineer, George de Mestral, noticing how the hooks of the plant burrs (Arctium lappa) stuck in the fur of his dog.
Doing art helps him be a more effective engineer because now he is more able to develop two-dimensional representations of three-dimensional objects; see details he might otherwise have missed; use sketches to communicate, particularly in design, and on a chalk-board when teaching; compose presentations; and develop ...
Engineering drawings are used to communicate design ideas and technical information to engineers and other professionals throughout the design process. An engineering drawing represents a complex three-dimensional object on a two-dimensional piece of paper or computer screen by a process called projection.
Art appreciation helps open up the mindset of the people, by listening to different perspective es and views as well as interpretations of the art, it encourages thoughtful conversation and the understanding that there is more than one approach to everything.
Biomimicry can work on three levels: the organism, its behaviors, and the ecosystem.
Bionics or biologically inspired engineering is the application of biological methods and systems found in nature to the study and design of engineering systems and modern technology.
In an effort to find the answer, biomimicry uses real living systems to inspire the design and fabrication of the next generation of materials that can solve problems as nature does, from healing wounds to preventing infections, to one day, perhaps, "growing" rockets and cars.
Following are some of its highlights: Nature is the best engineer there is; nature has a 4 billion year track record. Nature knows how to extract energy from the environment better than any human engineer knows how to do.
Examples of biomimetic studies include fluid-drag reduction swimsuits inspired by the structure of shark's skin, velcro fasteners modeled on burrs, shape of airplanes developed from the look of birds, and stable building structures copied from the backbone of turban shells.
Biophilic design dates back to the early 1980s, when the biologist Edward O. Wilson outlined his philosophy of biophilia, hypothesizing that humans have an innate, biological affinity for the natural world.
Nature has an endless palette to call on for inspiration, a library of textures, patterns, and motifs. Nature informs the moods of interior spaces; their qualities of light, their warmth, their tactility and their familiarity to human hands.”
By “design with nature” McHarg meant that the way we occupy and modify the earth is best when it is planned and designed with careful regard to both the ecology and the character of the landscape.