Biologically inspired engineering
Biologically inspired engineering is a new scientific discipline that applies biological principles to develop new engineering solutions for medicine, industry, and the environment. The emergence of this new discipline unifies the life sciences with engineering and the physical sciences. Biologically inspired engineering involves exploration into the way that living cells, tissues, and organisms build, control, manufacture, recycle, and adapt to their environment. Bioinspired engineers leverage this knowledge to develop new technologies and translate them into products that meet real world challenges.
Biologically inspired engineering is an interdisciplinary field encompassing many specialty areas in biology (molecular cell biology, genetic engineering, developmental biology, organismal biology, clinical medicine), engineering (biomedical engineering, chemical engineering, mechanical engineering, electrical engineering, robotics), and the physical sciences (chemistry, physics, materials science, and nanotechnology). Integrated research programs in this area span many of these disciplines and include biomimicry, as well as analysis of the way that living systems form and function using self-assembling nanomaterials, complex dynamic networks, non-linear dynamical control, self-organizing behavior, evolution, and natural selection.
See also
References
External links
- Centre for Nature Inspired Engineering at UCL (University College London)
- Biological Robotics at the University of Tulsa
- Wyss Institute for Biologically Inspired Engineering
- The Biomimicry Institute
- Center for Biologically Inspired Design
- Biologically Inspired Design group at the Design and Intelligence Lab, Georgia Tech
- Center for Biologically Inspired Materials & Material Systems
- Biologically Inspired Product Development at the University of Maryland
- The Biologically Inspired Materials Institute
- Center for Biologically Inspired Robotics Research at Case Western Reserve University
- Biologically Inspired Materials Institute