My fiance is amazing, I can't stop looking at this Totoro backpack he made.
almost home
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Today's Document
wallacepolsom
he wasn't even looking at me and he found me
Noah Kahan

tannertan36
Fai_Ryy
NASA
Xuebing Du

izzy's playlists!
art blog(derogatory)
TVSTRANGERTHINGS
Keni

★
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noise dept.
will byers stan first human second
𓃗
let's talk about Bridgerton tea, my ask is open
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@hackblindness-blog
My fiance is amazing, I can't stop looking at this Totoro backpack he made.
I taught my boyfriend how to crochet a scarf, a year and a half later... Totoro backpack.
4th of July, walk. Thanks for taking this photo, J.
New Interfaces in Musical Expression, 2014
This sweet little girl decided to adopt me as her human today. She does however, still need a name...
BONUS LEVELS
Virtual galleries put together by Lawrence Lek of utopian spaces, featuring works by other artists and landmarks in London:
Bonus Levels is a series of utopian video game worlds by Lawrence Lek who removes the boundaries between public and private zones in London to create a landscape of open access.
The project is a continuous collage of sounds, maps, zones, and buildings, a record of the city in a state of becoming.
Here is a tour through the first chapter of the project:
There are two spaces to explore, which you can download at the project’s website here
lawrencelek also has a Tumblr blog here
Drawing for.... you.
Audio-Game BLINDSIDE
If you were blind, would you survive the apocalypse? Find out with this game by Aaron Rasmussen and Michael T. Astolfi.
BLINDSIDE
Drawing for Kitsune.
Advocating for accessibility in the video game industry.
Seeing the Song
How and when the auditory system registers complex auditory-visual synchrony
Imagine the brain’s delight when experiencing the sounds of Beethoven’s “Moonlight Sonata” while simultaneously taking in a light show produced by a visualizer.
A new Northwestern University study did much more than that.
To understand how the brain responds to highly complex auditory-visual stimuli like music and moving images, the study tracked parts of the auditory system involved in the perceptual processing of “Moonlight Sonata” while it was synchronized with the light show made by the iTunes Jelly visualizer.
The study shows how and when the auditory system encodes auditory-visual synchrony between complex and changing sounds and images.
Much of related research looks at how the brain processes simple sounds and images. Locating a woodpecker in a tree, for example, is made easier when your brain combines the auditory (pecking) and visual (movement of the bird) streams and judges that they are synchronous. If they are, the brain decides that the two sensory inputs probably came from a single source.
While that research is important, Julia Mossbridge, lead author of the study and research associate in psychology at Northwestern, said it also is critical to expand investigations to highly complex stimuli like music and movies.
“These kinds of things are closer to what the brain actually has to manage to process in every moment of the day,” she said. “Further, it’s important to determine how and when sensory systems choose to combine stimuli across their boundaries.
“If someone’s brain is mis-wired, sensory information could combine when it’s not appropriate,” she said. “For example, when that person is listening to a teacher talk while looking out a window at kids playing, and the auditory and visual streams are integrated instead of separated, this could result in confusion and misunderstanding about which sensory inputs go with what experience.”
It was already known that the left auditory cortex is specialized to process sounds with precise, complex and rapid timing; this gift for auditory timing may be one reason that in most people, the left auditory cortex is used to process speech, for which timing is critical. The results of this study show that this specialization for timing applies not just to sounds, but to the timing of complex and dynamic sounds and images.
Previous research indicates that there are multi-sensory areas in the brain that link sounds and images when they change in similar ways, but much of this research is focused particularly on speech signals (e.g., lips moving as vowels and consonants are heard). Consequently, it hasn’t been clear what areas of the brain process more general auditory-visual synchrony or how this processing differs when sounds and images should not be combined.
“It appears that the brain is exploiting the left auditory cortex’s gift at processing auditory timing, and is using similar mechanisms to encode auditory-visual synchrony, but only in certain situations; seemingly only when combining the sounds and images is appropriate,” Mossbridge said.
My niece said asked that I draw her a butterfly to hang in her bedroom. I’ve never been happier to fulfill a commission :)
Cubase 7 now has LEAP motion integration with complete gestural DAW control.
This is so close to what Hack Blindness has been searching for. I wonder if it is possible to take away the visual elements-to see if a non-sighted person could use it.
I do have a LEAP, but I don't have Cubase. Maybe a trial version is in order here.
Legally blind Ottawa girl, sees with high-tech glasses: ‘I went from just seeing nothing to seeing everything in my classroom’
Emma-Rose Gibson can see clearly no more than three centimetres in front of her, but a new device is allowing the nine-year-old Ottawa girl to watch TV.
The legally blind Grade 4 student, who is diagnosed with optic nerve hypoplasia, is one of the first users of the eSight eyewear, a pair of computerized glasses officially launched Tuesday in Toronto.
The device — made by Ottawa-based eSight Corporation — reconfigures images captured by its high-definition camera in a way to optimize a user’s vision. The processed images are then fed into two LED screens in front of the user’s eyes.
Gibson, who has been using the device since May, said it allows her to participate fully in class and grants her a degree of mobility she didn’t have before.
“When I first heard of it, I was like, ’Wow, this can actually change my life.”’ (Photo: Ethan Lou / The Canadian Press)
What the. This is great.
i don’t know how i feel about this beyond “holy shit, science”, but holy shit, science.
Innovation makes my heart happy and keeps my eyes smiling! I have seen more progress in accessible tech in the past month than ever before. Fantastic!!
The Open Hand Project
A 3D printed robotic prosthetic hand which is a fraction of the cost compared to current available models - video embedded below:
The Open Hand Project aims to make advanced prosthetic hands more accessible to amputees. The Dextrus hand is the realization of this goal, it’s a low-cost robotic hand that offers much of the functionality of a human hand. Ultimately, these hands will be sold for under $1000 (£630).
The Open Hand Project is open-source, which means all of the plans to make a robotic hand will be published online with no patents, anyone has the right to make their own and even sell it themselves. You’re funding the full development of the hand with the Open Hand Project, after that companies will be able to use the designs and sell the hands all over the world. This really helps get these devices out to developing countries and places where import taxes might otherwise increase the cost of distribution.
The project is looking for funding through an indiegogo campaign - more info can be found here