Biomimetics is the imitation of the models, systems, and elements of nature for solving complex several Mankind problems. Biomimetics has already given rise to new technologies inspired by biological solutions at both macro and nanoscales.
Part of my research concerns Biomimetic Applied to Micro-Aerial Vehicles (MAVs) and Nano-Aerial Vehicles (NAVs).
Biomimetics is the attempt to learn from nature; it deals with the development of innovations on the basis of investigation of natural, evolutionarily optimized biological structures, functions, processes, and systems. Biomimetics area of applications include art, architecture, industry, biology, chemistry, engineering, medicine and biomedical engineering. For more details, please have a look at the following RG links and PDF attachments.
Article Biomimetics--a review
Article Biomimetics and Its Applications- A Review
Article Biomimetics: Forecasting the future of science, engineering,...
Article Biomimetics: Forecasting the future of science, engineering,...
Biomimetics is the imitation of the models, systems, and elements of nature for solving complex several Mankind problems. Biomimetics has already given rise to new technologies inspired by biological solutions at both macro and nanoscales.
Part of my research concerns Biomimetic Applied to Micro-Aerial Vehicles (MAVs) and Nano-Aerial Vehicles (NAVs).
Biomimetic studies belong to a highly multidisciplinary area, encapsulating several branches of science, such as: Biology, Chemistry, Engineering, Physics, Informatics, Design, Textile, Mathematics and Electronics; these are the topics generally covered.
Biomimetics refers to the investigation of the formation, structure, or function of biologically engineered substances and materials (e.g., enzymes) and biological processes such as protein synthesis or photosynthesis for the purpose of synthesizing similar products by the application of artificial mechanisms which mimic the original and natural models and systems.
The point of biomimetics is to see how organisms have adapted for survival and to transfer those adaptations, in appropriate form, into a technical context. You can see it as a transfer of ideas from biology to technology. Please see the attached for details and applications.
Biomimetics or biomimicry is the imitation of the models, systems, and elements of nature for the purpose of solving complex human problems.[1] The terms "biomimetics" and "biomimicry" derive from Ancient Greek: βίος (bios), life, and μίμησις (mīmēsis), imitation, from μιμεῖσθαι (mīmeisthai), to imitate, from μῖμος (mimos), actor. A closely related field is bionics.[2]
Living organisms have evolved well-adapted structures and materials over geological time through natural selection. Biomimetics has given rise to new technologies inspired by biological solutions at macro and nanoscales. Humans have looked at nature for answers to problems throughout our existence. Nature has solved engineering problems such as self-healing abilities, environmental exposure tolerance and resistance, hydrophobicity, self-assembly, and harnessing solar energy.
I think, is a combination of the terms "biology" and "techniques", which means engineering in this context. In English, the approach of combining biology and engineering is often called biological simulations. The basic principle of biomimetics is learning from nature
Biomimetic refers to human-made processes, substances, devices, or systems that imitate nature. The art and science of designing and building biomimetic apparatus is also known as biomimicry because they mimic biological systems. ... Some biomimetic processes have been in use for years.
Biomimetic refers to human-made processes, substances, devices, or systems that imitate nature.
The art and science of designing and building biomimetic apparatus is also known as biomimicry because they mimic biological systems. The field is of special interest to researchers in nanotechnology, robotics, artificial intelligence (AI), the medical industry, and the military.
Many of these are physical processes ... they use physical attributes of natural systems to build products that enhance human activity. But others may be more research-based ... . for instance, scientists can study autonomic systems involving mass movement or behavior, in order to advance different kinds of learning technologies
The studies of biomimicry has been developing efficient methods of life for 3.8 billion years. Biomimetic refers to human-made processes, substances, devices, or systems that imitate nature.
The art and science of designing and building biomimetic apparatus is also known as biomimicry because they mimic biological systems. The field is of special interest to researchers in nanotechnology, robotics, artificial intelligence (AI), the medical industry, and the military.
Biomimicry is an approach to innovation that seeks sustainable solutions to human challenges by emulating nature's time-tested patterns and strategies. The goal is to create products, processes, and policies—new ways of living—that are well-adapted to life on earth over the long haul.