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Apr 23, 2023

A neuromorphic bionic eye with filter-free color vision using hemispherical perovskite nanowire array retina Communications

Posted by in categories: biological, cyborgs, nanotechnology, robotics/AI, transhumanism

Cameras for machine vision and robotics are essentially bionic devices mimicking human eyes. These applications require advanced color imaging systems to possess a number of attributes such as high resolution, large FoV, compact design, light-weight and low energy consumption, etc1. Conventional imaging systems based on CCD/CMOS image sensors suffer from relatively low FoV, bulkiness, high complexity, and power consumption issues, especially with mechanically tunable optics. Recently, spherical bionic eyes with curved image sensor retinas have triggered enormous research interest1,2,3,4,5,6,7. This type of devices possess several appealing features such as simplified lens design, low image aberration, wide FoV, and appearance similar to that of the biological eyes rendering them suitable for humanoid robots8,9,10,11,12,13. However, the existing spherical bionic eyes with curved retinas typically only have fixed lens and can only acquire mono color images. Fixed lenses cannot image objects with varying distances. On the other hand, conventional color imaging function of CCD/CMOS image sensors are achieved by using color filter arrays, which add complexity to the device fabrication and cause optical loss14,15,16,17,18,19. Typical absorptive organic dye filters suffer from poor UV and high-temperature stabilities, and plasmonic color filters suffer from low transmission20,21,22. And it is even more challenging to fabricate color filter arrays on hemispherical geometry where most traditional microelectronic fabrication methods are not applicable.

Herein, we demonstrate a novel bionic eye design that possesses adaptive optics and a hemispherical nanowire array retina with filter-free color imaging and neuromorphic preprocessing abilities. The primary optical sensing function of the artificial retina is realized by using a hemispherical all-inorganic CsPbI3 nanowire array that can produce photocurrent without external bias leading to a self-powered working mode. Intriguingly, an electrolyte-assisted color-dependent bidirectional synaptic photo-response is discovered in a well-engineered hybrid nanostructure. Inspired by the vertical alignment of a color-sensitive cone cell and following neurons, the device structure vertically integrates a SnO2/NiO double-shell nanotube filled with ionic liquid in the core on top of a CsPbI3/NiO core-shell nanowire. It is found that the positive surrounding gate effect of NiO due to photo hole injection can be partially or fully balanced by electrolyte under shorter (blue) or longer (green and red) wavelength illuminations, respectively. Thus, the device can yield either positive or negative photocurrent under shorter or longer wavelength illumination, respectively. The carriers can be accumulated in SnO2/NiO structure, giving rise to the bidirectional synaptic photo-response. This color-sensitive bidirectional photo-response instills a unique filter-free color imaging function to the retina. The synaptic behavior-based neuromorphic preprocessing ability, along with the self-powered feature, effectively reduce the energy consumption of the system23,24,25,26,27,28. Moreover, the color selectivity of each pixel can be tuned by a small external bias to detect more accurate color information. We demonstrate that the device can reconstruct color images with high fidelity for convolutional neural network (CNN) classifications. In addition, our bionic eye integrates adaptive optics in the device, by integrating an artificial crystalline lens and an electronic iris based on liquid crystals. The artificial crystalline lens can switch focal length to detect objects from different distances, and the electronic iris can control the amount of light reaching the retina which enhances the dynamic range. Both of the optical components can be easily tuned by the electric field, which are fast, compact, and much more energy efficient compared to the conventional mechanically controlled optics reported hitherto. (Supplementary Table 1 compares our system with some commercial zoom lenses.) The combination of all these unique features makes the bionic eye structurally and functionally equivalent to its biological counterpart.

Apr 23, 2023

Stable Diffusion can visualize human thoughts from MRI data

Posted by in categories: biotech/medical, robotics/AI

Researchers show how Stable Diffusion can read minds. The method reconstructs images from fMRI scans with amazing accuracy.

Researchers have been using AI models to decode information from the human brain for years. At their core, most methods involve using pre-recorded fMRI images as input to a generative AI model for text or images.

In early 2018, for example, a group of researchers from Japan demonstrated how a neural network reconstructed images from fMRI recordings. In 2019, a group reconstructed images from monkey neurons, and Meta’s research group, led by Jean-Remi King, has published new work that derives text from fMRI data, for example.

Apr 23, 2023

Neuralace™ | The next-generation of BCI and whole-brain data capture

Posted by in categories: biotech/medical, computing, engineering, neuroscience

Neuralace™ is a glimpse of what’s possible in the future of BCI.

This patent pending concept technology is the start of Blackrock’s journey toward whole-brain data capture–with transformative potential for the way neurological disorders are treated. With over 10,000 channels and a flexible lace structure that seamlessly conforms to the brain, Neuralace has potential applications in vision and memory restoration, performance prediction, and the treatment of mental health disorders like depression.

Continue reading “Neuralace™ | The next-generation of BCI and whole-brain data capture” »

Apr 23, 2023

Diffusion Tensor Imaging (DTI)

Posted by in category: mathematics

Describes and demonstrates the MR technique of Diffusion Tensor Imaging and reviews some of the basic mathematics of Tensors including matrix multiplication, eigenvalues and eigenvectors.

Apr 23, 2023

Blackrock Neurotech Reveals Neuralace™: 10,000+ Channel Next-Gen BCI

Posted by in categories: biotech/medical, computing, cyborgs, neuroscience

Blackrock’s long-tested NeuroPort® Array, widely considered the gold standard of high-channel neural interfacing, has been used in human BCIs since 2004 and powered many of the field’s most significant milestones. In clinical trials, patients using Blackrock’s BCI have regained tactile function, movement of their own limbs and prosthetics, and the ability to control digital devices, despite diagnoses of paralysis and other neurological disorders.

While Blackrock’s BCI enables patients to execute sophisticated functions without reliance on assistive technologies, next-generation BCIs for areas such as vision and memory restoration, performance prediction, and treatment of mental health disorders like depression will need to interface with more neurons.

Neuralace is designed to capitalize on this need; with 10,000+ channels and the entire scalable system integrated on an extremely flexible lace-structured chip, it could capture data that is orders of magnitude greater than existing electrodes, allowing for an exponential increase in capability and intuitiveness.

Apr 23, 2023

Peptidomics Reviews Methods Primers

Posted by in categories: biotech/medical, chemistry, computing

Peptidomics employs techniques of genomics, modern proteomics, state-of-the-art analytical chemistry and computational biology. In this Primer, Hellinger et al. describe the techniques and workflows required for peptide discovery and characterization and give an overview of biological and clinical applications of peptidomics.

Apr 23, 2023

When Brains Dream: Exploring the Science and Mystery of Sleep

Posted by in categories: biotech/medical, neuroscience, science

A book talk by:

Robert Stickgold, PhD

Continue reading “When Brains Dream: Exploring the Science and Mystery of Sleep” »

Apr 23, 2023

Goebel Rainer — Resolving activity in cortical columns and cortical layers in the human brain (…)

Posted by in categories: biological, education, neuroscience

Resolving activity in cortical columns and cortical layers in the human brain with ultra-high field fMRI — new insights for biological models of cognitive functions.
Speaker: Rainer Goebel, Maastricht University, Netherlands.

HBP School — The Human Brain Atlas: Neuroscientific basis, tools and applications.
3–7 September 2018
Düsseldorf/Jülich, Germany.
Maastricht, Netherlands.

Continue reading “Goebel Rainer — Resolving activity in cortical columns and cortical layers in the human brain (…)” »

Apr 23, 2023

Researchers Argue Black Holes Will Destroy All Quantum States

Posted by in categories: cosmology, quantum physics

New calculations suggest that the event horizons will eventually “decohere” quantum possibilities—even those that are far away.

Apr 23, 2023

Beyond The Visible: AI And Nuclear Medicine Will Be Game Changers In The Fight Against Cancer

Posted by in categories: biotech/medical, robotics/AI

AI is spreading beyond the tech giants into all aspects of life and work. One of its most impactful roles will be to help nuclear medicine save the lives of many thousands of cancer patients.