Tag: hearing

White noise. Dark fear.

Photo by Spiros Kakos from Pexels

White noise is not the same as other noise – and even a quiet environment does not have the same effect as white noise. With a background of continuous white noise, hearing pure sounds becomes even more precise, as researchers have shown. Their findings could be applied to the further development of cochlear implants. (1)

Being cast alone in a dark forest.

How can we hear anything?

If not because we already hear everything?

How can distinguish any sound?

If not for the constant sound you are in?

Can you feel wet if you haven’t ever dived into the ocean?

Listen to your heart.

You wouldn’t be full of fear.

If you weren’t already afraid…

Can’t you see?

That there is nothing you haven’t already seen?

Listen. So that you touch…

Photo by Brett Sayles from Pexels

Our eyes, ears and skin are responsible for different senses. Moreover, our brain assigns these senses to different regions: the visual cortex, auditory cortex and somatosensory cortex. However, it is clear that there are anatomical connections between these different cortices such that brain activation to one sense can influence brain activation to another. A study by the laboratory of Associate Professor Shoji Komai at the Nara Institute of Science and Technology (NAIST), Japan, seen in PLOS ONE, explains how auditory stimulation of the barrel cortex influences responses to tactile stimulation in mice and rats. Komai considered the barrel cortex a good model to see how sound can affect the perception of touch.

“We think our senses are distinct, but there are many studies that show multisensory responses, mainly through audio-visual interactions or audio-tactile interactions,” explains Komai.

His group found that mouse and rat neurons in the barrel cortex were unresponsive to light, but that a strong majority responded to sound. These neurons showed electrical responses to sound that could be categorized as regular spiking or fast spiking. Further, the barrel cortex appeared to treat tactile and auditory stimuli separately. “These responses indicate that tactile and auditory information is processed in parallel in the barrel cortex,” says Komai.

Additional analysis showed that the electrophysiological properties of the responses were different, with sound causing longer postsynaptic potentials with long latency, almost priming the animal to sense touch. This would be like the shuddering one does when hearing a loud boom. According to Komai, this reaction would be an evolutionary advantage for nocturnal animals such as rats and mice.

“In a nocturnal environment, sound may act as an alarm to detect prey or predators. The combination of auditory and tactile cues may yield an effective response. It will be interesting to learn how the same system is advantageous in humans,” he says. (1)

Listening. Tasting. Seeing. Touching. Smelling.

Distinct senses and yet so interconnected.

Interlinked.

But don’t be too dazzled by the light.

It usually hides the deepest shadows.

Senses do not let us sense the world as it is.

They help us break that world apart.

Every path in the dark forest of perception is connected with the others. And there is no way to tread one of them without crossing the others. The more you walk, the deeper you enter the forest. The more you walk, the more everything seems more familiar. The deeper you enter the forest, the more difficult to see the forest.

Tracing back your steps.

At the time when you started walking.

Remember…

As you entered that first path…

Well before the path had a name…

Did you see any paths?

Listen…

Sign language. Spoken language limitations.

Sign languages are considered by linguists as full-fledged and grammatically very sophisticated languages. But they also have unique insights to offer on how meaning works in language in general.

Sign languages can help reveal hidden aspects of the logical structure of spoken language, but they also highlight its limitations because speech lacks the rich iconic resources that sign language uses on top of its sophisticated grammar.

For instance, the logical structure of the English sentence Sarkozy told Obama that he would be elected is conveyed more transparently in sign language. The English sentence is ambiguous, Schlenker explains, as he can refer to Sarkozy or to Obama. Linguists have postulated that this is because the sentence contains some unpronounced – but cognitively real – logical variables like x and y.

If the sentence is understood as Sarkozy (x) told Obama (y) that he (x) would be elected, with the same variable x on Sarkozy and on he, the pronoun refers to Sarkozy; if instead he carries the variable y, it refers to Obama. Remarkably, in sign language the variables x and y can be visibly realized by positions in space, e.g. by signing Sarkozy on the left and Obama on the right. (1)

See.

Now you know that it was about Sarkozy.

Listen.

Now you know what the other guy meant.

Feel.

Now you understand why the other one is even speaking to you.

Reach out with your senses.

It is all the same at the end.

Ideas may sometimes be conveyed better with images.

But blind people cannot see.

Ideas may sometimes be conveyed better with words.

But deaf people cannot hear.

At the end, you will need to reach out to understand what is said.

But not to the person talking to you.

But to the person inside you.

Listen carefully.

Do you listen anything?

See.

Listen.

Feel.

Why are you even listening?

Synchronizing the brain with the cosmos. Not remembering.

The ability to remember sounds, and manipulate them in our minds, is incredibly important to our daily lives. New research is shedding light on how sound memory works in the brain, and is even demonstrating a means to improve it.

Scientists previously knew that a neural network of the brain called the dorsal stream was responsible for aspects of auditory memory. Inside the dorsal stream were rhythmic electrical pulses called theta waves, yet the role of these waves in auditory memory were until recently a complete mystery.

Researchers applied transcranial magnetic stimulation (TMS) at the same theta frequency to the subjects while they performed specific memory related tasks, to enhance the theta waves and measure the effect on the subjects’ memory performance.

They found that when they applied TMS, subjects performed better at those memory tasks. This was only the case when the TMS matched the rhythm of natural theta waves in the brain. When the TMS was arrhythmic, there was no effect on performance, suggesting it is the manipulation of theta waves, not simply the application of TMS, which alters performance. (1)

Synchronizing with the cosmos.

It seems important.

But it is actually the other way around.

Not being in sync is what requires effort.

And we are trying too hard for that every day.

Every single moment we get out of sync.

Every day we destroy our connection with the cosmos.

Stop trying so hard and watch the cosmos aligning with you.

You do not need any special tools to boost your memory.

The only thing you need to do is to let go.

And just remember, that you don’t need to remember…

Invisibility from touching. Senses prejudice. The most important things…

In the past years, invisibility cloaks were developed for various senses. Objects can be hidden from light, heat or sound. However, hiding of an object from being touched still remained to be accomplished. Scientists have now succeeded in creating a volume in which an object can be hidden from touching similar to a pea under the mattress of a princess.

In the invisibility cloak produced, a hard cylinder is inserted into the bottom layer. Any objects to be hidden can be put into its cavity. If a light foam or many layers of cotton would be placed above the hard cylinder, the cylinder would be more difficult to touch, but could still be felt as a form. The metamaterial structure directs the forces of the touching finger such that the cylinder is hidden completely.

“It is like in Hans-Christian Andersen’s fairy tale about the princess and the pea. The princess feels the pea in spite of the mattresses. When using our new material, however, one mattress would be sufficient for the princess to sleep well,” Bückmann explains. (1)

On senses we have built our world.

We believe our eyes. We believe our ears. We believe our hands.

We have started to question our eyes. We have started to question our ears. We now start questioning our touch.

But all senses are basically the same: Through a medium our body touches something. Through the eyes, the ears, the nose, the fingers. Every time we sense something, we “touch” something. Search your feelings. You know it is true. What you touch is not there. The most important things are untouchable. The most important things are invisible. The most important things are said in silence…

Touch me. Am I real?

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