Understanding our universe as both an evolutionary and developmental system.
Evo Devo Universe
Posted in futurism
Enjoy the talk given by Liz Parrish on June 14, 2022 during the Digital Enterprise Show 2022. The event took place from June 14th to the 16th in Málaga, Spain.
BioViva Science is using bioinformatics to improve gene therapies to enhance healthy human longevity and combat age-related diseases like Alzheimer’s, diabetes, cancer, and heart disease. TimeKeeper™ is an epigenetic clock and the BioViva BioVault™ is a bioinformatics database for researchers and consumers.
Thousand brain model of human intelligence.
A Thousand Brains by Jeff Hawkins unveils a theory of intelligence that will revolutionize our understanding of the brain and the future of AI and humanity. With a foreword by Richard Dawkins, A Thousand Brains tackles one of science’s greatest mysteries: what is intelligence and how does the brain create it? In this video series, Jeff talks to Numenta VP of Marketing Christy Maver about his motivations behind the book, what readers can expect and what each of the book’s three sections cover.
Space is not a hospitable place. Radiation, zero gravity, and the vast distances between stops make interstellar travel look like a pipe dream right now, but they can be made more manageable with gene therapy. Along with obvious choices like follistatin to fight the loss of muscle mass, anti-aging gene therapies for telomerase induction, and Klotho expression can promote overall health. Keeping the crew healthy is essential when the nearest hospital could be billions of miles away.
In a statement to Astronomy Magazine, Dr João Pedro de Magalhães said “this roadmap sets the stage for enhancing human biology beyond our natural limits in ways that will confer not only longevity and disease resistance but will be essential for future space exploration.” There’s a big overlap between the genes needed to keep people healthy on earth and the genes needed to keep them safe in space.
There are a vast array of genes that will likely prove helpful to making long space voyages safe and comfortable. A vector, like BioViva’s CMV, will be needed to deliver the substantial genetic payloads astronauts will want to take with them into space.
Understanding the mind and how thinking occurs has been a challenge for philosophers, scientists, theorists, educators, and artists throughout history. Until recently, ideas about how we learn have been mainly theoretical and intuitive. However, with ongoing advances in neuroscience, considerable progress is occurring. As a result, a paradigm shift is taking hold in human cognition, pointing to a new science-based understanding about the way we think and, ultimately, the way we learn.
This paradigm shift — a move away from traditional notions of the mind to an “embodied cognition” model of human thinking and learning — is the subject of a new book “Movement Matters: How Embodied Cognition Informs Teaching and Learning”. The book is summarised as follows:
“Experts translate the latest findings on embodied cognition from neuroscience, psychology, and cognitive science to inform teaching and learning pedagogy.”
This London Futurists webinar featured the co-editors of this book, Sheila Macrine, Professor of STEM Education & Teacher Development at the University of Massachusetts, Dartmouth, and Jennifer Fugate, Associate Professor in the Department of Health Service Psychology, at Kansas City University.
Advance shows promise for “meta-bots” designed to deliver drugs or aid rescue missions.
Now, researchers at the U.S. Department of Energy’s National Renewable Energy Laboratory (NREL) have demonstrated a tin-lead perovskite cell that overcomes problems with stability and improves efficiency.
To improve cell stability, NREL researchers used a hole-transporting material made of phenethylammonium iodide and guanidinium thiocyanate. Researchers noted that the formation of quasi-two-dimensional (quasi-2D) structures from additives based on mixed bulky organic cations phenethylammonium and guanidinium provides critical defect control to substantially improve the structural and optoelectronic properties of lead-perovskite thin films with a narrow-bandgap of 1.25 eV.
The new tandem solar cell design with two layers of perovskites measured a 25.5% efficiency. It retained 80% of its maximum efficiency after 1,500 hours of continuous operation or more than 62 days.
Actually transporting quantum states over significant distances is tricky, though. Researchers have had some success transmitting messages tied up in the quantum states of photons over several hundred miles of optical cables, and also using satellite quantum communication to establish links over even greater distances. But the inevitable signal losses over either mode of communication mean that scaling up to the distances required for a true internet will be tricky.
One workaround is to exploit another quantum phenomenon called teleportation. This works much like the sci-fi concept used in shows like Star Trek, allowing information to be instantaneously transmitted from one place to another, theoretically over unlimited distances. And now, researchers from the Netherlands have provided the first practical demonstration of how this could work.
The team set up three quantum “nodes” called Alice, Bob, and Charlie, which are able to store quantum information in qubits—the quantum equivalent of bits in a computer made from nitrogen vacancy centers. These are tiny defects in diamonds that can be used to trap electrons and alter their quantum state. They then connected Alice to Bob and Bob to Charlie using optical fibers.
A new demonstration of these exotic constructs could help bridge classical and quantum physics.