The replication of biological systems by mechanical and electronic systems is known as bionics. Biognosis, biomimetics, biomimicry, and bionical creativity engineering are some of the terms used to describe it. Bionics is a critical tool for advancing scientific and technological progress. Because evolutionary pressure forces living species, including fauna and flora, to become highly optimised and efficient, technology transfer between lifeforms and synthetic structures is desirable. Advances in personal electronics have sparked new breakthroughs in bionics in recent years.
Biocybernetics is the application of cybernetics to biological science, and it includes biological fields such as neurology, multicellular systems, and others that benefit from the use of cybernetics. Biocybernetics is a branch of systems biology that aims to integrate multiple levels of data in order to better understand how biological systems work. Biological cybernetics is an interdisciplinary platform for studying theoretical and applied aspects of information processing in organisms, such as cognitive, sensory, motor, and ecological phenomena.
Title : Renewed novel biotech ideas, with bioreactor bioengineering economic impact
Murray Moo Young, University of Waterloo, Canada
Title : Osmotic lysis–driven Extracellular Vesicle (EV) engineering
Limongi Tania, University of Turin, Italy
Title : Bioherbicides for eco-friendly weed management: From fields to commercialization, constraints and solutions for sustainable agriculture
K R Aneja, Kurukshetra University, India
Title : Predicting wound closure and future segmentation masks in wound healing assays
Alfredo De Cillis, Univeristy of Salento, CNR Nanotec, Italy
Title : Utilizing complex coacervation to promote the controlled crystallization of hydrophobic drugs
Anvesha Subramanian, University of Houston, United States
Title : Improving health in over 40,000 patients: The impact of nanomedicine fighting antibiotic resistant infections
Thomas J Webster, Brown University, United States