Lifeboat Foundation

Even robots are overworked.

Is Medical Director of the Adult Extracorporeal Membrane Oxygenation (ECMO) Program at Methodist Hospital, San Antonio, Texas. He is also the Medical Director of the Cardiovascular Intensive Care Unit at Methodist Healthcare System and the Texas IPS Critical Care Service Line (https://texasips.com/jeffrey-dellavol…). He also serves as chair of the Joint Society of Critical Care Medicine/Extracorporeal Life Support Organization Task Force and has created a platform for ECMO training and ECMO transport (https://ecmotransports.com/about/).

ECMO is a form of extracorporeal life support, providing prolonged cardiac and respiratory support to persons whose heart and lungs are unable to provide an adequate amount of oxygen, gas exchange or blood supply (perfusion) to sustain life.

Continue reading “Dr. Jeffrey DellaVolpe, MD — Saving Lives With Extracorporeal Membrane Oxygenation (ECMO) Technology” »

Internet of Agents.

Weaving a web of heterogeneous agents for collaborative intelligence.

The rapid advancement of large language models (LLMs) has paved the way for the development of highly capable autonomous agents.

Continue reading “Paper page — Internet of Agents: Weaving a Web of Heterogeneous Agents for Collaborative Intelligence” »

Warp drive possible in new calculations.

Jared fuchs, christopher helmerich, alexey bobrick, luke sellers, brandon melcher, gianni martire.

Common treatments for Parkinson’s disease can address short-term symptoms, but can also cause extensive problems for patients in the long run. Namely, treatments can cause dyskinesia, a form of uncontrollable movements and postures.

In a recent study published in The Journal of Neuroscience, researchers at the University of Alabama at Birmingham took a different approach to dyskinesia and treated it like a “bad motor memory.” They found that blocking a protein called Activin A could halt dyskinesia symptoms and effectively erase the brain’s “bad memory” response to certain Parkinson’s treatments.

“Instead of looking for a completely alternative treatment, we wanted to see if there was a way to prevent dyskinesia from developing in the first place,” said David Figge, M.D., Ph.D., lead study author and assistant professor in the UAB Department of Pathology. “If dyskinesia does not occur, then patients could potentially stay on their Parkinson’s treatment for longer.”

The ability to recognize and respond to emotionally-charged situations is essential to a species’ evolutionary success. A new study published in Nature Communications advances our understanding of how the brain responds to emotionally charged objects and scenes.

The research, led by Trinity College Dublin neuroscientist Prof. Sonia Bishop, and Google researcher Samy Abdel-Ghaffar while he was a Ph.D. student in Prof. Bishop’s lab at UC Berkeley, has identified how the brain represents different categories of emotional stimuli in a way that allows for more than a simple “approach/avoid” dichotomy when guiding behavioral responses.

Sonia Bishop, now Chair of Psychology in Trinity’s School of Psychology, and senior author of the paper, explains, It is hugely important for all species to be able to recognize and respond appropriately to emotionally salient stimuli, whether that means not eating rotten food, running from a bear, approaching an attractive person in a bar or comforting a tearful child.

Quantum computers offer powerful ways to improve cybersecurity, communications, and data processing, among other fields. To realize these full benefits, however, multiple quantum computers must be connected to build quantum networks or a quantum internet. Scientists have struggled to come up with practical methods of building such networks, which must transmit quantum information over long distances.

Now, researchers at the University of Chicago Pritzker School of Molecular Engineering (PME) have proposed a new approach—building long quantum channels using vacuum sealed tubes with an array of spaced-out lenses. These vacuum beam guides, about 20 centimeters in diameter, would have ranges of thousands of kilometers and capacities of more than 1,013 qubits per second, better than any existing quantum communication approach. Photons of light encoding quantum data would move through the vacuum tubes and remain focused thanks to the lenses.

“We believe this kind of network is feasible and has a lot of potential,” said Liang Jiang, professor of molecular engineering and senior author of the new work. “It could not only be used for secure communication, but also for building distributed quantum computing networks, distributed quantum sensing technologies, new kinds of telescopes, and synchronized clocks.”

Fundamental physics—let alone quantum physics—might sound complicated to many, but it can actually be applied to solve everyday problems.

Imagine navigating to an unfamiliar place. Most people would suggest using GPS, but what if you were stuck in an underground tunnel where radio signals from satellites were not able to penetrate? That’s where quantum sensing tools come in.

USC Viterbi Information Sciences Institute researchers Jonathan Habif and Justin Brown, both from ISI’s new Laboratory for Quantum-Limited Information, are working at making sensing instruments like atomic accelerometers smaller and more accurate so they can be used to navigate when GPS is down.

So I serve a hundred years in one day…’- Joe Haldeman, 2011.

Robot Preachers Found To Undermine Religious Commitment ‘Tell me your torments,’ the Padre said, in an elderly voice marked with compassion. — Philip K. Dick, 1969.

Continue reading “Cognify — A Prison Of The Mind We’ve Seen Before In SF” »