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Are ‘Friends’ Electric? · Gary Numan · Tubeway Army.
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℗ 1979 Beggars Banquet Records Ltd.
Are ‘Friends’ Electric?
Posted in media & arts
Experience the dystopian rainfall of a Blade Runner universe in this ASMR track! Sit back, relax and let the futuristic cyberpunk music transport you to a dark and dangerous future.
This sci-fi ambient music is perfect for any fan of Blade Runner 2049. With a cinematic soundscape and spine chilling music, this track will transport you to a dark and dystopian future. Enjoy the sounds of rain falling on a roof, the sound of a blade cutting through metal and the sound of a cyborg walking the streets of a city at night.
Dystopian Rainfall is an immersive, atmospheric ambient track that transports the listener to the rain-soaked, neon-lit streets inspired by the Blade Runner universe. This captivating composition masterfully combines the soothing sound of rainfall with the distinctive synth tones that define the film’s iconic soundscape.
If you love Blade Runner, Blade Runner 2049 or anything from it — you’ll enjoy this one!
This post includes content written by AI
As humanity navigates through the complexities of the modern world, it faces an array of threats that could potentially jeopardize its very existence. These threats range from immediate concerns to those that loom ominously on the horizon. This article aims to rank the greatest threats to human existence in order of their perceived impact, from smallest to largest:
journey breaks several laws of physics in order to reach the known limit of the universe, using a spacecraft capable of travelling at any speed.
distance and speed are approximate, giving us an idea of how fast the spacecraft has to travel to move through the vast expanses of the universe.
the way, an AI will explain some important elements of the journey, to give us a more complete picture of what we are seeing.
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(Youtube Library)
Hydra — Huma-Huma.
Eureka — Huma-Huma.
Atlantis — Audionautix.
Reflections — MK2
Angelic Forest — Doug Maxwell_Media Right Productions.
Landing On a Dark Planet — Doug Maxwell_Media Right Productions.
When you arrive at Bank of America’s new-employee boot camp at the New York Hilton Midtown, you’ll find a VR headset waiting for you. Slide it on, and you’ll be confronted with an angry customer, frustrated over a mix-up with their account. Your task: talk them down and make them feel heard. Or you can practice keeping your cool while responding to a robbery, and then unwind by relaxing on a virtual island or by sitting on a unicorn.
In a first-of-its-kind clinical trial, bioelectronic medicine researchers, engineers and surgeons at Northwell Health’s The Feinstein Institutes for Medical Research have successfully implanted microchips into the brain of a man living with paralysis, and have developed artificial intelligence (AI) algorithms to re-link his brain to his body and spinal cord.
This double neural bypass forms an electronic bridge that allows information to flow once again between the man’s paralyzed body and brain to restore movement and sensations in his hand with lasting gains in his arm and wrist outside of the laboratory. The research team unveiled the trial participant’s groundbreaking progress four months after a 15-hour open-brain surgery that took place on March 9 at North Shore University Hospital (NSUH).
“This is the first time the brain, body and spinal cord have been linked together electronically in a paralyzed human to restore lasting movement and sensation,” said Chad Bouton, professor in the Institute of Bioelectronic Medicine at the Feinstein Institutes, vice president of advanced engineering at Northwell Health, developer of the technology and principal investigator of the clinical trial.
Head over to our on-demand library to view sessions from VB Transform 2023. Register Here
McKinsey and Company is no stranger to generative artificial intelligence (gen AI): around half of the global consulting giant’s employees were said to be using the technology as of earlier this summer.
But it’s not the only org to see a rapid uptake of gen AI. Indeed, a new annual report by McKinsey’s AI arm QuantumBlack finds that “use of gen AI is already widespread.”
Scientists have constructed a comprehensive set of functional maps of infant brain networks, providing unprecedented details on brain development from birth to two years old.
The infant brain cortex parcellation maps, published today in eLife, have already provided novel insights into when different brain functions develop during infancy and provide valuable, publicly available references for early brain developmental studies.
Cortical parcellation is a means of studying brain function by dividing up cortical gray matter in different locations into “parcels.” Scans from functional magnetic resonance imaging (fMRI) are taken when the brain is in an inactive “resting” state, alongside measurements of brain connectivity, to study brain function within each parcel.
What specific changes can we expect in the exterior and interior of the 2024 Tesla Model Y Juniper? When exactly will the Model Y refresh be released? Will there be any improvements in the battery and technology of the Model Y?
As the electric vehicle market continues to thrive, Tesla remains at the top of the EV ladder with its models staying in the top selling charts. Among its impressive lineup, the Model Y stands out as a tough rival shaping the whole EV market in its favor.
With the upcoming release of the 2024 Tesla Model Y Project Juniper and Model 3 Project Highland, as we discussed in our recent posts, Tesla is aiming to redefine the electric SUV segment even further. This highly anticipated refresh promises exciting changes to both the interior and exterior of the popular Model Y.
A paper published today in Nature Metabolism has described a method of genetically engineering cells to respond to electrical stimuli, allowing for on-demand gene expression.
Despite its futuristic outlook, this line of research is built upon previous work. The idea of an implantable gene switch to command cells in order to deliver valuable compounds into the human body is not new. The authors of this paper cite longstanding work showing that gene switches can be developed to respond to antibiotics [1] or other drugs, and the antibiotic doxycycline is used regularly for this purpose in mouse models. More recently, researchers have worked on cells that control their output based on green light [2], radio waves [3], or heat [4].
However, these mechanisms have their problems. A gene trigger that operates in response to a chemical compound requires that compound to have stable, controllable biological availability [5]. If it relies on any wavelength of electromagnetic radiation, that process may be triggered by mistake or require intense energy to function [3].