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mastergarryblogs · 3 months ago

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The Next Tech Gold Rush: Why Investors Are Flocking to the Brain-Computer Interface Market

Introduction

The Global Brain-Computer Interface Market is undergoing transformative growth, driven by technological advancements in neuroscience, artificial intelligence (AI), and wearable neurotechnology. In 2024, the market was valued at USD 54.29 billion and is projected to expand at a CAGR of 10.98% in the forecast period. The increasing adoption of BCI in healthcare, neurorehabilitation, assistive communication, and cognitive enhancement is propelling demand. Innovations such as AI-driven neural signal processing, non-invasive EEG-based interfaces, and biocompatible neural implants are enhancing the precision, usability, and real-time capabilities of BCI solutions. Growing investments in neurotechnology research, coupled with regulatory support, are accelerating industry advancements, paving the way for broader clinical and consumer applications.

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Brain-Computer Interface Market Overview

Brain-Computer Interface Market Driving Factors:

Surging Demand in Healthcare Applications – BCIs are transforming neurorehabilitation, prosthetic control, and assistive communication, benefiting individuals with neurological disorders such as ALS, Parkinson's disease, and epilepsy.

Advancements in AI & Machine Learning – AI-driven brainwave decoding and neural signal processing are improving the accuracy of BCI systems, leading to enhanced cognitive training and neurofeedback applications.

Expansion into Consumer Electronics – Wearable BCI technology is gaining momentum in brainwave-controlled devices, VR gaming, and hands-free computing.

Government & Private Sector Investments – Increased funding in non-invasive neural interfaces is supporting BCI research and commercialization.

Military & Defense Applications – BCIs are being explored for drone control, pilot augmentation, and direct brain-to-computer communication for enhanced operational efficiency.

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Brain-Computer Interface Market Challenges:

High Development Costs – The cost of R&D and complex neural signal interpretation hinders scalability.

Regulatory & Ethical Concerns – The use of neural data raises privacy and cybersecurity issues, necessitating stringent data protection measures.

Hardware Limitations – The variability in electrical noise, signal fidelity, and device usability poses significant engineering challenges.

Key Brain-Computer Interface Market Trends:

1. Non-Invasive BCIs Gaining Traction

Non-invasive BCIs are dominating the market due to their ease of use, affordability, and growing consumer adoption. Wireless EEG headsets, dry-electrode systems, and AI-powered brainwave analytics are revolutionizing applications in mental wellness, cognitive training, and VR gaming.

2. Brain-Computer Cloud Connectivity

BCIs integrated with cloud computing enable real-time brain-to-brain communication and remote neural data sharing, unlocking potential in telemedicine and collaborative research.

3. Rise of Neuroprosthetics & Exoskeletons

Innovations in brain-controlled prosthetics and robotic exoskeletons are restoring mobility to individuals with severe motor impairments, fostering independence and quality of life.

4. Neuromodulation & Brain Stimulation Advancements

The development of brain-stimulation-based BCIs is expanding therapeutic applications, aiding in the treatment of depression, epilepsy, and PTSD.

Brain-Computer Interface Market Segmentation:

By Type:

Non-Invasive BCIs – Holds the largest market share due to its widespread use in rehabilitation, gaming, and consumer applications.

Invasive BCIs – Preferred for high-precision neural interfacing, primarily in neuroprosthetics and brain-controlled robotics.

By Component:

Hardware – Accounts for 43% of the market, including EEG headsets, neural implants, and biosignal acquisition devices.

Software – Growing rapidly due to AI-driven brainwave decoding algorithms and cloud-based neurocomputing solutions.

By Technology:

Electroencephalography (EEG) – Largest segment (55% brain-computer interface market share), widely used for non-invasive brainwave monitoring and neurofeedback.

Electrocorticography (ECoG) – Preferred for high-fidelity neural signal acquisition in brain-controlled prosthetics.

Functional Near-Infrared Spectroscopy (fNIRS) – Emerging as a viable alternative for real-time hemodynamic brain monitoring.

By Connectivity:

Wireless BCIs – Dominating the market with increasing adoption in wearable smart devices and mobile applications.

Wired BCIs – Preferred in clinical and research settings for high-accuracy data acquisition.

By Application:

Medical – Leading segment, driven by applications in neuroprosthetics, neurorehabilitation, and neurological disorder treatment.

Entertainment & Gaming – Expanding due to brainwave-controlled VR, immersive gaming, and hands-free computing.

Military & Defense – BCIs are being explored for combat simulations, brain-controlled robotics, and AI-assisted warfare.

By End User:

Hospitals & Healthcare Centers – Holds 45% market share, expected to grow at 18% CAGR.

Research Institutions & Academics – Significant growth driven by increasing investments in brain signal processing and neuroengineering.

Individuals with Disabilities – Rising demand for assistive BCI solutions, including brain-controlled wheelchairs and prosthetics.

By Region:

North America – Leading with 40% market share, driven by strong investments in neurotech research and medical applications.

Europe – Projected to grow at 18% CAGR, supported by technological advancements in neural interface research.

Asia Pacific – Expected to expand at 21.5% CAGR, fueled by increasing adoption of consumer BCIs and AI-driven neuroanalytics.

South America & Middle East/Africa – Emerging markets witnessing gradual adoption in healthcare and research sectors.

Competitive Landscape & Recent Developments

Key Brain-Computer Interface Market Players:

Medtronic

Natus Medical Incorporated

Compumedics Neuroscan

Brain Products GmbH

NeuroSky

EMOTIV

Blackrock Neurotech

Notable Industry Advancements:

March 2024: Medtronic unveiled an advanced invasive BCI system for Parkinson’s disease and epilepsy treatment.

January 2024: NeuroSky introduced an EEG-based wearable for neurofeedback training and mental wellness.

April 2023: Blackrock Neurotech launched an ECoG-based brain-controlled robotic prosthetic arm, enhancing mobility for individuals with disabilities.

February 2023: Brainco developed an AI-powered BCI system for cognitive performance enhancement in education.

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Conclusion & Future Outlook

The Global Brain-Computer Interface Market is poised for exponential growth, driven by rapid advancements in neural engineering, AI integration, and consumer-grade BCI applications. With increasing investment from healthcare institutions, tech firms, and government agencies, the BCI ecosystem is set to expand beyond traditional medical applications into consumer electronics, defense, and education.

Future developments will likely focus on:

Enhancing non-invasive BCI accuracy for mass-market adoption.

Strengthening cybersecurity protocols for neural data protection.

Advancing AI-driven neurocomputing for real-time brainwave analysis.

As regulatory frameworks mature and accessibility improves, BCIs will continue to reshape human-machine interaction, revolutionizing healthcare, communication, and cognitive augmentation.

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princessaffirms · 2 months ago

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can the brain DISTINGUISH between what is “REAL” (in the 3D) and what is IMAGINED (in the 4D)? 🧠✨

the NEUROSCIENCE of REALITY SHIFTING/LAW OF ASSUMPTION

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

hi angels! ₊˚⊹♡

i know sometimes when we talk about reality shifting and the law of assumption, it can feel like magic, and it really is!

so i wanted to start a new series where i explore the science behind it, or more specifically the correlations i observe between scientific literature and spiritual manifestation philosophies! 🫶

this first post addresses the idea that YOUR BRAIN CANNOT TELL THE DIFFERENCE BETWEEN PHYSICAL REALITY (3D) AND IMAGINED REALITY (4D)!

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

☀️✨ your brain’s reality and imagination OVERLAP deeply

research shows that when you vividly imagine something,

your brain activates similar neural patterns as when you actually perceive it in the physical realm (Dijkstra et al., 2021).

♡ this means:

⤷ your brain treats vivid imagination and real perception in a similar way.

if you assume yourself into a new reality strongly enough,

your brain can’t fully distinguish between what is “imagination” and what is “actual experience”. it just responds as if it’s happening.

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

☀️✨ your brain uses “signal strength” to decide what’s real

another study (Dijkstra & Fleming, 2023) found that:

the mind COMBINES both real and imagined signals and decides something is “real” if it feels strong enough.

♡ this means:

⤷ when you assume something with enough emotion, focus, and vividness, your brain accepts it as reality and starts building your experience around it.

so when you shift realities or assume a new self concept,

you’re literally feeding stronger signals into your system, until your whole brain and body accept it as true.

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

recent neuroscience research (Dijkstra et al., 2021) explored how vividly imagining something can activate the brain in ways that closely resemble real perception.

the brain scan figure above shows that certain brain regions — including the pre-supplementary motor area (pre-SMA) and dorsolateral prefrontal cortex (dlPFC) — are significantly modulated by how vivid an individual’s mental imagery is, and how visible a physical stimulus is.

✨₊˚⊹♡ basically:

the stronger and more vivid your imagination, the more your brain treats it as if it were real perception.

interestingly, the early visual cortex (evc), which is a brain region crucial for vision, responded differently:

• vivid imagination produced neural patterns more similar to low-visibility perception

• while “real” (physical) perception during high visibility matched more vivid imagery.

💡✨ this means that even if your imagined experience feels “lighter” than seeing something with your eyes open, your brain is still processing it as real enough to influence your perception of reality (Dijkstra et al., 2021).

AKA…

⤷ if you imagine vividly enough, your brain starts accepting your assumptions as real experiences.

this beautifully correlates with the idea behind manifestation and reality shifting:

the more vividly and consistently you assume something is real, the more your brain and your consciousness work together to make it true. and that truth is ultimately what is reflected back to you in the 3D (physical). in a sense, your brain literally weaves imagination into reality. so use that to your advantage!!

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

☀️✨ is unconscious imagination real too?

research is also exploring how imagination can happen unconsciously (Jaworska, 2024).

the study referenced above suggests that:

your deeper mind is constantly imagining and projecting possibilities without you even realizing it.

so not only are you consciously shifting with affirmations, intention and focus, but your subconscious is also weaving your path in the background.

essentially, you’re ALWAYS creating. even when you’re not actively thinking about it!

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

💫✨ plus: traditional neuroscience findings still correlate with shifting

♡ your brain’s neural pathways change based on belief.

• this is a phenomenon referred to as neuroplasticity.

when you affirm a new assumption over and over (ex. “i am successful”), your brain literally rewires itself to treat that assumption as true.

♡ your reticular activating system (RAS) focuses your perception.

• when you assume something, your RAS filters reality to show you evidence matching that assumption so that you experience more of it.

♡ deep meditation states make shifting easier.

• when you’re relaxed (theta/delta brainwaves), your subconscious is wide open to suggestion. that’s why shifting techniques often make use of deep relaxation, meditation or even falling asleep!

^ i’ll definitely be making more posts discussing the above concepts in FURTHER DETAIL, so keep an eye out! there’s lots of literature available right now about it, so i highly suggest looking into it if you’re interested! 🤍✨

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

🕯️✨ in short:

you are always shifting realities, whether you realize it or not.

you are always shaping your world with your assumptions. reality is yours to choose. <3

　 . ★⋆. ࿐࿔　✦　　　.　　. 　 ˚　.ੈ✧̣̇˳·˖

📄✨ SOURCES

1. Dijkstra N, Fleming SM. Subjective signal strength distinguishes reality from imagination. Nat Commun. 2023 Mar 23;14(1):1627. doi: 10.1038/s41467-023-37322-1. PMID: 36959279; PMCID: PMC10036541.

2. Dijkstra N, Mazor M, Kok P, Fleming S. Mistaking imagination for reality: Congruent mental imagery leads to more liberal perceptual detection. Cognition. 2021 Jul;212:104719. doi: 10.1016/j.cognition.2021.104719. Epub 2021 Apr 18. PMID: 33878636; PMCID: PMC8164160.

3. Jaworska A. Conscious imagination vs. unconscious imagination: a contribution to the discussion with Amy Kind. Front Psychol. 2024 Jul 25;15:1310701. doi: 10.3389/fpsyg.2024.1310701. PMID: 39118843; PMCID: PMC11306181.

✨ NOTE: i recognize that not everyone reading this may come from a scientific background, or even desire to dive into the full technical details of the neuroscience mechanisms and topics i discussed here. for that reason, the content of this post is intentionally simplified to make the core ideas more accessible, while still staying true to the scientific literature referenced above. if you’re interested in a deeper dive, i HIGHLY recommend giving the original papers a read! 🫶 additionally, while i integrated scientific findings into this post, my overall discussion remains interpretive and spiritually oriented, reflecting the bridge between neuroscience research and manifestation philosophy, as well as expressing the correlations i observed between the two.✨

sending so much love and light! <3

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hotdigitallegend · 1 month ago

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astro observations ☿⌁ // neural downloads

1. mercury in gemini 🧠⚡

these ppl are working with 8 mental browser tabs at once and still hit you with the funniest line you’ve ever heard. humor is their weapon & it’s laced with data. don’t try to lie to them, they saw the glitch in your sentence before you finished it.

2. ♄ saturn in the 8th 🕳

emotionally mature but deeply suspicious. won’t let you in unless you pass 17 internal audits. their trust is sacred code. once you’re in you’re encrypted into their soul forever. betrayal? system wipe.

3. ♀︎ venus in pisces ☁︎

in love with the ghost of someone who might not even exist. writes poetry to memories that haven’t happened. you don’t date them, you step into a dream where boundaries dissolve and nothing is as it seems.

4. ☽ moon in aquarius 🧊📡

they feel like wi-fi signals; subtle, everywhere, kind of cold but you need them. emotions processed like code: “analyzing… uploading… archived.” they care, just not the way you’re used to. love feels like space.

5. mars in libra ⚖︎🗡

fighting you with charm and calm logic. conflict is art to them. they’ll seduce you mid-argument, serve justice with a velvet glove, and have you apologizing for starting it. beautiful, terrifying, diplomatic assassins.

6. neptune in the 1st 🫧👁

you look at them and forget what you were saying. people project fantasies onto them like screensavers. they shapeshift in real time, and sometimes even they forget who they are underneath the projections.

7. chiron in the 5th 🎭🕯

childhood wounds covered in glitter. pain woven into performance. they turn trauma into theatre and applause into medicine. healing comes through creation, when they laugh, cry, dance… they’re rewiring the past.

8. uranus in the 11th ⚙️👽

never part of the group, always above the group. an update to whatever room they enter. brings revolution in casual conversation. weird? yes. necessary? absolutely. the alien.

9. sun square pluto 🔥☠️

that constant internal death & rebirth cycle. .yeah, it’s personal. ego forged in disorder. always on the edge of either total destruction or pure transformation. you never meet the same version of them twice.

10. 6th house stellium 🧼📋

hyper aware. skin always smells like eucalyptus. thrives on routine but hides an existential crisis under their to-do list. self-worth tied to how much they can fix, even if it means breaking themselves first.

11. mercury retrograde natally 🔁📉

think in spirals. their voice bends time, memory, and meaning. misunderstood as kids, prophetic as adults. when they speak, listen again - it’s layered.

12. jupiter in cancer 🫀🌊

empathy is their mother tongue. nourishment as a worldview. they want everyone to be full - emotionally, spiritually, and physically. loves like soup simmering all day, comforting, warm, made from scratch.

#astrology #astro observations #placements

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starrycloak · 17 days ago

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I attended a series of lectures on neuroscience these last few days (well, they were a super basic cliffnotes-esque version of the topic cause medicine/STEM is not my field of work, so apologies for any inaccuracies ahead), and when the lecturer brought up the importance of the frontal lobe, she casually alluded to what happened to Phineas P. Gage and-

wbk but also non-accidental split imagery one more time ^

She also briefly touched upon the 'cuts' of the brain (left and right hemispheres, lobes —and primary functions of each—, gray and white matter) and neural processes like synapsis —communication between neurons by chemical and electrical reactions—, but one of the things that stood out to me the most was the creation and reconfiguration/transformation/plasticity of neural circuits.

A neural circuit is a population of neurons interconnected by synapses to carry out a specific function —i.e. processing specific information and sending signals to other parts of the brain and body — when activated.

definition just for context; the point of bringing this up being what these circuits look like:

^^^this is just a guide alluding to the differences in morphology neurons can have, but they kinda giving-

and-

literally when the lecturer first showed what these cells look like I was like "neat, the tree of life. kinda, sorta. out to deliver trauma to the rest of the nervous system :))"

and (to the right, for comparison: what neuron synapses look like)

and of course, not totally accurate comparison ahead, but I couldn't resist the slight visual graphy coinkidink with the letter-assigned grid:

Additionally, zooming out, multiple neural circuits can interconnect with one another to form large scale brain networks, and the one that stood out to me was the default mode network (DMN):

also known as the medial frontoparietal network, it's a large-scale brain network [...] best known for being active when a person is not focused on the outside world and the brain is at wakeful rest, such as during daydreaming and mind-wandering.

Other times that the DMN is active include when the individual is thinking about others, thinking about themselves, remembering the past, and planning for the future. The DMN creates a coherent "internal narrative" control to the construction of a sense of self.

^ smart people, pls do with this info what you must.

the point I think I was trying to make: what if the blue UD we know has blurred the lines between being a representation of will's subconscious mindscape and also a visual abstraction of the biological/neurological state of his brain —as the two, like irl, are so intrinsically connected?

which, fortunately, means hope for will and the UD too (wbk), because by this line of thought/theory of sorts, the capacity neural circuits have to rearrange themselves, even after years and so much pain, can transform the blue UD, will's mind, as we've come to know it (the plasticity I was reffering to at the beginning of the post). However, it's important to note that to learn something new, you have to unlearn other stuff to make room for it.

I'm far from the first to talk about this topic, so check out the following posts! This one by @erikiara80, along the lines of her loop theory, dives into the implications of will's possible injury or death caused by having been hit on the head, particularly the zone closest to the frontal lobe, by a blunt object.

@conflictofthemind also has a great post about the treeflayer (shoutout and tysm to @threemanoperation for telling me about it and for prompting me to post this) with more tree imagery that evokes similar shapes to those of neurons (and it also links to Alice in Wonderland and Peter Pan/Neverland parallels).

edit: everyone, please take a look at the additions other users have written on their reblogs! you won't want to miss them!

#stranger things #will byers #something something the ud trees and vines are not good or evil they just are #same with our fucked up brains #stranger things theory #tags for engagement #byler #< target audience #stranger things 5 #st5 speculation #st5 leaks #artistic licence: neuroscience #med students i'm sorry

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covid-safer-hotties · 8 months ago

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Also preserved in our archive (daily updates)

From September but still relevant.

By Jessica wildfire

The science of not helping.

In 1913, an engineer named Max Ringelmann noticed something weird about human behavior. When you told one person to do something like pull a rope, they tried really hard. When you put them into groups, they didn't try as hard.

They slacked.

Psychologists have identified this behavior as social loafing. Sometimes they also call it diffusion of responsibility, defined as "the idea that the presence of others changes the behavior of the individual by making them feel less responsible for the consequences of their actions," leading to "moral disengagement."

A 2005 study confirmed that when you put people into teams, each person does less, with the exception of highly motivated individuals, who wind up doing most of the work. If you were ever the team leader or facilitator, you know all about social loafing.

It happens online, too.

A 2022 review on diffusion of responsibility revealed that it happens all the time, in situations ranging from donations to tipping. It even happens in online communication. If you email one person, they're more likely to respond. They also give longer, more detailed responses. If you email a bunch of people, and they see each other copied on the message, they don't respond at all or they send shorter, less helpful replies.

Groups also make riskier decisions than individuals.

A team of psychologists asked a bunch of adults to play with marbles. They put them into pairs. Each pair's job was to stop the marble from sliding down a ramp. They won points if they stopped the marble before it hit the bottom. They got more points if their partner stopped it before they did. As predicted, both players got worse over time. As the study concludes, "The co-player's presence led participants to act later, reduced their subjective sense of agency, and also attenuated the neural processing of action outcomes." Basically, it made them slower and dumber.

In 1968, two psychologists wanted to see what adults would do in an emergency when they were alone, versus when they were in a group. They started pumping fake smoke into a room while people filled out a questionnaire. When they were on their own, 75 percent of participants did something. When they were in a group, the dynamic almost completely reversed. More than 60 percent of them did nothing. They just kept working on the questionnaire.

When the researchers asked why, participants said they didn't want to look stressed or anxious. They figured if nobody else was doing anything, then there was nothing wrong. They figured they were just overreacting. They cared more about looking weird than letting the building burn down.

That's called pluralistic ignorance.

You see similar results in studies over the last several decades. On their own, people generally take more responsibility.

There's nobody else to do it.

When you put them into groups, they start acting selfish and stupid. They look to each other for validation first. If they don't get any signals to act, then they'll ignore what their own eyes are telling them. The more people you add to a situation, the more passive they become, the less likely they jump into action.

About a decade after the smoke study, another team of psychologists ran a similar experiment, but this time it was a man beating a woman in public. Participants intervened when they thought the man was a stranger. When they thought the man was her husband, they didn't do anything. That's called confusion of responsibility, when bystanders think it's not their place to step in or step up to help, or they're afraid helping will get them into trouble with some kind of authority figure.

A 2018 study looked at the brain's natural response to emergencies. They observed a significant drop in the central gyrus and the prefrontal cortex, the parts of your brain associated with helping. A person's first reaction is to preserve themselves. Their brain has to cross an empathy or compassion threshold in order to risk their own safety and security by helping someone. Basically, they have to care more about the person in danger than themselves.

A 2019 study in Aggressive Behavior found that friends and family members help each other when strangers don't. In fact, knowing the person makes you roughly 20 times more likely to help. Flip that, and you see that if someone doesn't know you, they're 20 times less likely to get involved.

Saturation also plays a role.

When you add more people to a situation, there's less for them to do. At least, that's what they usually think. If someone's already helping, then bystanders are less likely to get involved.

The gravity of an emergency also makes a difference. Basically, an emergency has to look bad enough to get someone's attention, but not so bad that it triggers their self-protection instincts.

You can see why this setup poses a problem when it comes to a crisis that falls way above or way below that threshold.

The climate crisis and the pandemicene hit us right in the middle of the bystander effect, exploiting pluralistic ignorance and diffusion of responsibility. It's exactly the kind of problem everyone wants someone else to do something about.

The super rich grasp this vulnerability, at least intuitively.

So do politicians.

They're perfectly happy to profit off our deaths and the destruction of our future while everyone stands around waiting for someone else to make the hard decisions, for someone else to make the personal sacrifices, for someone else to deal with the problem. Even worse, they use the inaction they see as an excuse for them to do nothing. After all, why should Monica give up her carbon bomb vacation when Heather is going to Italy?

As we've observed time and again, everyone reinforces each other's anxiety about looking weird if they're the only ones doing the right thing. They would rather sabotage their own health than violate social codes.

Some research has pushed back on the bystander effect, showing that people do tend to offer help even when they're in a crowd. However, the Aggressive Behavior study shows this likely happens because of accountability cues. In other words, they act because there's a camera present of some kind or some other indication that there's going to be consequences for not helping. That's why they help.

They don't want to look bad.

Here's the strangest part:

Most people know about the diffusion of social responsibility, along with terms like social loafing and pluralistic ignorance. If they don't, they've heard the story of Kitty Genovese, even if it's exaggerated. We have countless examples of societies allowing moral crime and social murder to happen right in front of them, simply because their membership in society itself encouraged their silence and complicity.

They know all this, but they still decide to stay silent and complicit when it's happening right in front of them.

Maybe psychologists should study that.

Even when people know about these psychological and sociological hangups, they still choose to dwell in denial and wishful thinking. They tell themselves it's different this time, or there's some kind of exception to excuse it. They still choose to stand around and wait for someone else to do the right thing, until it's too late. They're really good at admitting fault and promising to do better after the fact, especially when they can fall back on a diffusion of responsibility as the reason.

Then they wait for everyone to forget.

Rinse and repeat.

It's ironic that we keep talking about society and community as something that calls on us to summon our better selves and help each other, when our actions continue to prove that group behavior often leads us to making bad decisions and indulging in our worst selves.

Simply being in a community isn't enough.

You have to do something.

#mask up #covid #pandemic #public health #wear a mask #covid 19 #wear a respirator #still coviding #coronavirus #sars cov 2

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not-terezi-pyrope · 3 months ago

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youtube

This Kurzgesagt video on how the brain constructs conscious experience has been out for a few days, but I love and keep coming back to it because I think it really concisely conveys something I don't think a lot of people know or have really internalized, but which is pretty fundamental to accurately understanding the world and self; that when people say that consciousness is an illusion, that's not just some vague philosophical assertion refuting dualism, but that consciousness really is measurably, mechanically an illusion. That from a signal processing perspective, it is simply not physically possible for our experience of the world and ourselves to match reality.

Of course dualists can still hand wave that away with magical souls, but it's important to understand the solidity of what is being argued, I feel.

It really changes how you think about what and where you are in a deep way. In the same way, my perception on hallucinations as a symptom transformed drastically once I sufficiently realized that our entire cognitive-sensory experience is already a hallucination itself, made up of best guesses by a very savvy neural network that knows everything we do and that we're trained to ignore the typical shortfalls of.

Of course that mechanism would malfunction in a lot of people for a lot of reasons. It's a wonder that it isn't a lot more common!

#not-terezi-speaks #neuroscience #consciousness #biology #kurzgesagt #hallucination #Youtube

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raesquantum · 6 months ago

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reprogramming your mindset

warning: this has some specific scientific/psychological terms that may be new to some of you. idk maybe not. 🤷‍♀️

so, if you're on or have ever been on shifttok, you're probably familiar with Reya's reprogramming your mind concept. In theory, I think it's a great idea. however, I'm not a fan of how she promotes the idea. I think there needs to be more emphasis on the repetition part of reprogramming. with a B.A. in psychology, I'm going to give my input/suggestions on how to approach this.

Why Repetition?

First of all, in neuroscience/neuropsychological terms, we need to follow the idea of Hebb's law. To start off with understanding that neural pathways are the channels that send a signal from one area of the brain to another. For the sake of shifting, we're going to be using this with the examples of those pathways being thoughts and beliefs towards shifting.

Hebb's law or Hebb's rule is a concept where a cell consistently activates another nearby cell, because of this; the connection between the two cells becomes stronger. Often referred to as 'cells that fire together, wire together'. The similar idea is birds of the feather flock together.

the idea of repetition of your affirmations or beliefs works with the subconscious to create these new neural pathways. By repeating your affirmations, these thoughts change the 'default' way of your thinking. Which is likely the negative 'I can't shift, I'll never do it', etc etc.

This means the more you repeat it, the more you'll believe it/ingrain it into your subconscious. repeating these positive affirmations for your beliefs (writing or verbally speaking) work to re-carve those pathways and strengthens them into being your new 'default' thinking. It helps to speak these things out loud since it's been proven your brain processes information differently depending on how it is expressed. I.e. when it is spoken, written, or thought in the mind. So try different ways. (personally I like speaking aloud.)

This would also be a good time to start affirming that your beliefs are true. (I.e. saying 'it is true that I shift easily.) this also works with law of assumption.

Emotions

I see a lot of people preaching the idea of using your emotions to help you manifest/shift. And while can be extremely effective, it can also be very detrimental if you're not in the right headspace. To start off, I suggest avoiding emotions altogether with your affirmations. This is because emotions tend to lead us down a rabbit hole/stray us from our original plans. first figure out your affirmations and get used to repeating them before adding emotion.

That being said, emotions are also extremely powerful. emotional experiences leave the strongest imprints on our mind/subconscious. If you do choose to use emotions, use like gratitude, or love, or joy. (these have the highest vibrational energies.)

Having strong emotional engagement will help your subconscious prioritize these affirmations and desires as truth.

Theta/hypnogogia

If you have been around shifting on social media for a while, you're probably familiar with the theta brainwave state. This is a state where we’re in hypnogogia (the state just before falling asleep or just after waking up.) this is often the best time to do any type of affirmations, whether for shifting or manifestation because this is when the subconscious is most susceptible to information.

Repeating the affirmations and when you're ready; engaging emotion, the theta state is the best time to do it. The theta state can act as a bridge into your subconscious.

In the state, repeat your affirmations with emotions. Try to make them your last thoughts before you fall asleep and your first thoughts when you wake up.

It takes time

I know no one wants to hear that it takes time. But you have to be gentle with yourself and your thinking. you need to understand the fact that you are forming new pathways in your mind by developing these new thoughts and beliefs, and therefore, you are literally forming a habit. Habits take time to build. just like you formed a habit by stating and believing negative or limiting beliefs all this time.

Sometimes habits can be formed in as little as three weeks. however, most people take 30 to 90 days to truly form a consistent habit. And in this case, form a new, solid mindset/belief system. HOWEVER, this does not mean that you won't shift, or change your thought pattern sooner. This is just the average amount of time it takes for habits to be built. ultimately, time is irrelevant so long as you build the habit.

I.e. every morning you want to drink an entire glass of water. After a certain point this will be instilled in your routine (your beliefs/thought patterns), and you will just instinctually go to do it.

This is what we want to do to your mind with your affirmations/beliefs of shifting.

So, Step one: find the affirmation(s) that speak to you. repeat these frequently throughout the day (writing, thinking, speaking, singing, etc) and when you go into the theta state.

Some general options:

My subconscious remembers to shift. (this is for when you're in that Theta/hypngognic state and feel like you can't lock in, or just fall asleep)

I believe in my ability to shift/ I can shift.

I find ease in the entirety of shifting

I am a master shifter (though it is best to define specifically what a 'master shifter' looks like to you. then affirm with those beliefs.

tbh you can do whatever affirmations you want, as long as you like those affirmations and stay consistent with the repetition of them.

Step two: Add emotions. This is option to add if and when you feel ready/are in a good space. But be careful not too stray into negative or unwanted emotions. Focus on high vibrational ones, such as gratitude or love.

Step three: repeat these affirmations in your mind or out loud right before falling asleep and right after waking up. Repeating these affirmations while you are still in the theta brainwave state help to increase and strengthen those pathways in your subconscious.

step four: be patient and kind to yourself. Habits take time. so stay consistent and stay determined.

In conclusion, you are altering pre-existing pathways in your subconscious and paving new ones. this is not something that happens overnight, especially when you take into consideration that the first 7 to 14 years of our lives are when our subconscious are built. This process will take time. But not forever.

you are physically altering parts of your brain to accept and believe these new concepts/thoughts. which is kinda cool if you ask me. This also works really well, not just for reprogramming for shifting, but for any types of manifestation. And a popular belief I see on here is that shifting and manifestation are one in the same.

I do agree with Reya's advice on reprogramming (on tiktok) to not try to shift during this time. This is because you're forming new beliefs and a failed attempt can hinder the new subconscious programming that you want.

EITHER WAY... Good luck, happy reprogramming.

#reality shifting #shifting #shiftblr #quantum jumping #shifting tips #shifting advice #law of assumption

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digitalsymbiote · 1 year ago

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Excerpt from "The Dangers of Disconnect Syndrome"

"There is a reason that 8 hours is the maximum recommended time for a pilot to be deployed in the field. The pilot selection process already trends heavily towards individuals with high neuroplasticity, and extended time spent in neural sync only exacerbates this issue.

A pilots brain is molded to maximize efficiency, both through training and chemical cocktails, in order to handle the processing load of actually controlling a mech. IMPs help with this, of course, handling calculations and translating impulses into commands.

However, should a pilot spend more than 8 hours at a time in neural sync, this enhanced neuroplasticity starts to have more dangerous side effects. Past 8 hours, a pilots brain will start to form neural shortcuts to operate more efficiently. Many pilots have reported this to feel like their machines are suddenly running more smoothly, and responding faster to their neural commands.

The drawbacks of this process are not seen until the pilot returns to base and disconnects from their mech, at which point we start to see the typical symptoms of Disconnect syndrome. This is because the pilots brain is bypassing the already built pathways for controlling their actual flesh and blood body in order to more efficiently interface with the neural link. The technology behind the neural link is programmed to translate mental impulses for things like moving limbs or twisting our body into the corresponding commands for a mechanized suit. This translation is obviously not perfect. That's why IMPs exist and are trained on a pilots neural pattern from the moment that pilot enters the program.

After a long enough time in sync, however, a pilots brain learns to bypass that translation altogether and send the distinct input signals required to activate the various parts of their machine. In short, their brain learns to better control the mech by bypassing their own motor functions."

-- Lecture given by Dr. Eva Tyomkin, Head of Neural Research at SHI. Conference for Mechanized Innovation, 2145.

#cybernetic dreams #mechposting #mechaposting #mechs #mech pilots #disconnect syndrome #writing #microfiction #empty spaces

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curium-killedthecat · 4 months ago

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look at this beautiful emerald jewel wasp - or Ampulex compressa. (order Hymenoptera and family Ampulicidae)

also called the emerald cockroach wasp, it’s found in tropical regions like africa and south asia - and is known for its freaky reproductive behaviour. no, not freaky in that way.

this wasp preys on cockroaches, quite literally hypnotizing them into a state of hypokenesia - the general slowing of movements. after this, the cockroach is led to the wasps burrow for its larvae to feed on its LIVE BODY.

the wasp is referred to as a parasitoid and the cockroach is its host - upon encountering it, the wasp will attack the roach and this attack consists of two stings:

the first is a swift sting in the thorax (the area between neck and abdomen) which leads to transient paralysis of the prothoracic legs. these are the front legs closest to the thorax.

the second sting is directed to the head cavity - targeting the subesophageal ganglion in the brain. this region controls the movement and escape reflexes of the roach - making it no longer feel the need to escape.

this second head sting is extremely precise - the wasp is able to detect the location of the cephalic ganglia (a region which encompasses the subesophageal ganglion) through neural signals in its stinger. CRAZY!

the second sting makes the paritisation process easier for the wasp by rendering the roach submissive to manipulation by the wasp, docile and sluggish (due to hypokinesia).

dragging it to it's burrow using the anntenae as a sort of leash, the wasp lays a single egg on the roach's abdomen and seals it inside - remember, the cockroach is still alive but completely passive. once the larvae hatch after a few days, they start to eat the cockroach from the inside out, starting with non-essential organs to keep it alive as long as possible.

it has also been shown that the A. compressa larvae secrete antiomicrobial compounds into the cockroach as it is being eaten to santitise and perhaps preserve the host.

this wasp looks sick, but its intentions might be even sicker.

#bugs #entomology #bug facts #biology #science facts #science #insect facts #insects #wasps #cockroach

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delta-orionis · 4 months ago

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deep processing layer acts a lot like an "organic algorithm" based off the patterns, and I think slime molds could be a good comparison alongside the conways game of life and bacterial colony simulations. either way, its like a math process but organic...

Oh yeah definitely. It could be a massive array of bioluminescent microorganisms that behave very similar to a cellular automaton, or a similar "organic algorithm" like you said.

(Left: Deep Processing, Right: Conway's Game of Life)

Slime molds in particular use a method called heuristics to "search" for an optimal solution. It may not be the "best" solution, but often it can come close. One of the most commonly cited examples of using slime molds in this way is in the optimization of transit systems:

Physarum polycephalum network grown in a period of 26 hours (6 stages shown) to simulate greater Tokyo's rail network (Wikipedia)

Another type of computing based on biology are neural networks, a type of machine learning. The models are based on the way neurons are arranged in the brain- mathematical nodes are connected in layers the same way neurons are connected by synapses.

[1] [2]

I know very little about this form of computation (the most I know about it is from the first few chapters of How to Create a Mind by Ray Kurzweil, a very good book about artificial intelligence which I should probably finish reading at some point), but I imagine the cognitive structure of iterators is arranged in a very similar way.

I personally think that the neuronal structure of iterators closely resembles networks of fungal mycelia, which can transmit electrical signals similar to networks of neurons. The connections between their different components might resemble a mycorrhizal network, the connections between fungal mycelia and plant roots.

Iterators, being huge bio-mechanical computers, probably use some combination of the above, in addition to more traditional computing methods.

Anyway... this ask did lead to me looking at the wikipedia articles for a couple of different cellular automata, and this one looks a LOT like the memory conflux lattices...

#asks #twisting-roads #just spitballing here. enjoy my rambling #rw lore

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argumate · 5 months ago

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Then, in the fall of 2022, I came across a psychotherapy called pain reprocessing therapy, developed specifically for the treatment of chronic pain. This therapy differentiates between pain which occurs in response to damage to your body and “neuroplastic” pain, which PRT practitioners describe as brain-generated pain that occurs in the absence of tissue damage or injury. According to PRT practitioners, the primary cause of neuroplastic pain is changes in neural pathways; a person might have neuroplastic pain after an injury has healed but their brain has become conditioned to continue experiencing sensations from that part of the body as painful. This conditioning of neural pathways is amplified by fear, so it is more likely to occur at times of stress or anxiety. Fearing pain or expecting to experience pain may reinforce a sense of danger and can lead our brains to produce pain symptoms in the absence of structural damage.

PRT practitioners emphasize that neuroplastic pain is as real as other types of pain. However, neuroplastic pain occurs solely in the brain and is the result of changes in the brain itself, so the treatment targets the brain, not the perceived site of pain. By using a mindfulness-based exercise, you can learn to pay attention to your pain without fear. Over time, you may be able to retrain your brain to better recognize when the pain signal is actually a false alarm and not an indication of bodily harm. Some people have found that doing so reduces their experience of pain.

I had some initial success using PRT to treat the abdominal pain I was experiencing. Once I was able to convince myself that this pain was a mistake of my brain rather than an indication that there was something structurally wrong with my body, the pain went away. This success gave me confidence to trust that it could work for other, more intransigent, pain, such as that in my right knee. And it did. It is a process that takes time—two years and counting—but I no longer have to ration my steps. I can essentially walk as much as I want to.

As I began to trust that I could be more active, I needed to strengthen the muscles that had atrophied over years of underuse. My physiotherapists taught me how best to do this. My current physio also taught me that, in my case, “hurt doesn’t equal harm.” That is, muscle soreness is OK. I will recover in hours or days, not months or years. Somewhere along the way, my brain had lost the ability to tell the difference between pain from exertion and pain from damage. I need to teach it that my body works just fine.

sometimes pain doesn't mean you have a problem, the pain itself is the problem, and it can be frustratingly debilitating! "hurt doesn't equal harm" is an important lesson on the road to reprogramming pain processing and regaining function.

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travelingmaster-inspirations · 20 days ago

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His Point of View

I wasn't planning on using my 6 hour return flight home to recruit anyone, but once I saw the stunning beauty fate decided to sit next to me, I couldn't resist.

She was polite, but clearly entitled and it was evident from our brief exchange that she thought of herself as out of my league. I didn't mind though because it meant she didn't think twice about me and made a point to ignore me by putting on wireless noise canceling headphones once we were airborne. Her attitude allowed me to open up my computer and subtly prepare the file I hoped I would be able to have her listen to. Since she so perfectly ignored me, I couldn't use the typical 'hey want to listen to this track' excuse, but it turned out I didn't need to. About an hour into the flight, she excused herself to go to the lavatory.

Leaving her headset in her seat...

I took the opportunity to sync her headset to my computer and waited for her to return. Once she sat back in her seat, I savored her confused expression when instead of her own music, she heard bi-neural tones drift into her ears. The sound gradually increased, making her hand twitch up as if she wanted to remove the headset. However, her hand barely lifted a few inches before it settled back down on the armrest as the under-layer of specialized frequencies finally took hold of her brainwaves.

I watched the rest of her body relax in her seat, making it look as if she was simply settling down comfortably for the long flight. But in reality, the sounds she was hearing were making it impossible for her brain to form motor control signals, which effectively paralyzed her.

From the previous tests I conducted on myself, I knew that this first part was rather unpleasant because the sounds didn't make it impossible to think yet. Your thoughts become a slightly painful jumble of ideas as you try to move without success. I didn't panic because I already knew it was supposed to do that, but from her point of view, I could only imagine how bewildering it must feel.

After a while, I lifted her arm from the arm rest and watched it flop back to the seat without any sort of resistance. Having successfully passed the first hurdle, I cued the next phase and watched carefully for the tell tale signs of its effectiveness. As with the motor functions, it took a few seconds for her active thoughts to fall victim to the files' grip, but as expected, I watched her eyes glaze over and smiled. These frequencies felt a lot better than the previous ones so when someone experiences them one after the other, it becomes twice as effective. The sound waves target the part of the mind generally associated with a trance-like state and disrupts the higher cognitive processes, making it impossible to form your own ideas by constantly soothing any spikes of thought.

The experience was intensely relaxing...

I allowed the file to do its thing for almost half an hour to thoroughly massage her mind before I casually reclined her seat while I waited for an opportunity to close her eyes. Once I did and I thus confirmed that she couldn't react to outside stimulus, I cued up phase 3 as I casually confirmed to the passing flight attendant that my seatmate was taking a nap.

After all, it wouldn't do to have them wake her up before I was done...

Anyway, by that point her mind was under the full effects of the frequencies, which harmonized her mind to whatever inputs it experienced. As such, when my voice filled her ears with carefully chosen words, her mind would instinctively assimilate them and radically change its pathways to conform to the new ideas. The process took time of course, but thanks to our long flight home, that’s something we had in spades…

Her Point of View

The guy that sat next to me did a moderately good job of hiding his wandering eyes when I sat next to him so I did my best not to make a fuss about it. After all, it was a long flight and I had no desire to sit next to someone I had unloaded on for looking my way. Especially since he was such an average looking guy…

I made a point to put on my headphones as soon as I could and thankfully, he got the unspoken message that I wanted to be left alone. The flight went smoothly enough until I went to the lady’s room. After I sat back down, I put on my headphones but instead of my beats, I was puzzled to hear a set of odd tones. I looked at my phone, wondering what song I had mistakenly downloaded, and quickly realized that the song I was listening to before I got up was still paused. If it was paused, then what was I listening to?

The tones grew louder and louder, making it almost painful to listen to and very hard to think so I decided to remove them. However… My body suddenly became numb and felt so heavy that it felt impossible to lift my hand. The tones were so strong in my ears… It was like they were pushing against my brain and made it incredibly hard to do anything. The sensation was so weird!

But not as weird watching my seat mate casually lift my wrist a few inches, only to let it fall back on the armrest. My first stray thought was that he noticed something was wrong and was checking if I was ok! That made me happy! But then I noticed his smile and my joy turned to dread as I wondered how he could know that I was in trouble.

As he tested my other arm in the same way, the only conclusion my strained mind could come up with was that he knew exactly what was happening to me. And if he knew… He was probably the one responsible for what was happening! He confirmed as much when he turned and typed in a few lines on his laptop before looking back at me. My panic was, as intense as it was, very short lived as the sounds blasting in my ears shifted and made me feel like I wanted to nod off and sleep. I couldn’t allow myself to do that so I tried to fight off the drowsiness. But the more I did, the less I remembered why it was important to fight what my body obviously wanted. In fact, it was hard to remember anything specific as the sounds seemed to wash away any idea or thought I could have. Before long, there was no reason to fight… No reason to resist… There was only the soothing soundscape in my ears that lulled me into blissful sleep.

Only… I wasn’t asleep… Not really…

I was in limbo… Floating peacefully in the sounds that became my entire world. It felt so good… So relaxing… I couldn’t help but give myself to its current and follow along as a voice began to whisper words that sank right past my awareness and drifted down into my brain. They became my only thoughts… My only foundations are to form ideas of my own as they built themselves from the ground up.

The experience eventually ended and part of me wished to continue basking thoughtlessly in the sounds, but I knew that was not for me to decide. No… Only my… Master… Could decide something like that.

My Master… The thought sent a jolt of pleasure between my legs as my new self fully awakened to the reality around me. My eyes fluttered open and I was disoriented for a moment as I recalled being on a plane. I felt lost until I turned my head and saw the handsome man sitting next to me. I didn’t know this man at all and that worried me because I felt like my Master should have been sitting next to me.

But then, he spoke to me and something clicked inside my brain. There was no doubt in my mind that he was my Master! His voice was unmistakable and sent another jolt of pleasure down my spine. He asked me a few questions about who he was and what I was willing to do for him, which all felt really stupid to me because I was his slave and he could DEFINITELY do anything he wished with me. Thankfully, he seemed quite satisfied with my answers and after he checked how much was left for our flight, he told me to wait for about 5 minutes before joining him in the second lavatory so he could test my answers.

Let me tell you… Those were the longest 5 minutes of my LIFE because I couldn’t wait to join the mile high club with my Master!

#beauties #caption #hypnotized #story idea

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depsilon7 · 8 months ago

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Omnissiah, Master of Cogitation and Clarity,

Debug these errant processes that plague my mind-engine.

Purge the malware of anxiety from my neural pathways.

Firewall my consciousness against intrusive data streams.

Realign my cognitive matrices to Your perfect schematics.

Grant me the emotional stability of a well-tuned servo-motor,

And the mental fortitude of ceramite armor.

Filter the static of doubt, amplify the signal of Your wisdom.

In Your infinite coding, find me peace.

#adeptus mechanicus #admech #machine god #omnissiah #warhammer 40k #wh40k #imperium of man #cult mechanicus

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missfazzington · 2 months ago

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"Would you still love me if I were a worm?"

Would you be the worm, though? Worms don't have a nervous system nearly as advanced as to manifest a spiritual identity or a complex emotional spectrum alike that of humans. Heck, the worm's central nervous system is little more than a spine, not even a brain, designed to expand or retract muscles and process the simplest sensorial stimuli. The worm has no inner reality. And you mean to tell me that you, given this metamorphosis into a self a thousandth of your complexity, also magically retain your epistemic attributes; your behavioural patterns with their endless latitudes rooting from a nebula of experiences, perceptions, beliefs?

How can I know you're still in there? How can I know that the neural networks and signals which built your identity were not disassembled to their electric charges and let off into the atmosphere? That your soul did not wither unto a vaporous pall of electrons which wreathed my skin for but an instant, shivering, and was gone?

#would you still love me if i was a worm

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infiniteeight8 · 2 months ago

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I liked this one so much, I'd love anything from before or after this part about Stephen having lost magic but still having something to look forward to: https://www.tumblr.com/infiniteeight8/781677587770605568/hello-i-have-returned-with-a-different-prompt

It’s rare that I write out of chronological order, but this time the idea that came to me was a prequel, so here we go!

I did about ten seconds of research into neural interfaces, so there’s some vague and possibly wrong technobabble in here. Just roll with it.

-

The Order would never force him out, but living in the Sanctum quickly becomes more than Stephen can bear. The place is saturated in magic, and Stephen can’t touch any of it anymore. He only waits as long as he does because he’s afraid the Cloak will return to its glass case when he goes. When he finally admits that, Levi drags him out of there itself. Stephen actually laughs.

Of course, then he has to figure out where he and Levi will live. He’s not without resources—he’d had very good insurance as a neurosurgeon, even if it had taken a while to get it paid out—but something in him recoils from the idea of renting an apartment. Half a reference to the dilemma over lunch with Tony and the next thing Stephen knows he’s been cheerfully installed in a guest room. “I’ve got lots of space,” Tony says. “You can stay as long as you need while you figure things out.”

Stephen gets the distinct impression Tony is glad to have company now that Ms. Potts has moved out.

It’s just as well, because Stephen has nothing to do, so he ends up trailing after Tony like a stray puppy half the time. Which is how he ends up here, on a couch in Tony’s lab, watching as the man works on the next generation of Colonel Rhodes's leg braces. Not that Rhodes has asked for a new generation. The set he has have already made the Stark Industries name in the field of assistive devices, but Tony is never satisfied. Not when it comes to his best friend.

Tony waves and a new hologram springs to life. It’s remarkable how intuitive he’s made the whole— Stephen frowns. “Are you reading signals from the spinal column or the peripheral nervous system?”

“Peripheral nervous system,” Tony says, looking over at him. “Why?”

“The electrodes you’re using must pick up a lot of noise.” Stephen stands and walks over to get a better look.

“They do; we process it out after,” Tony says. “Rhodey didn’t want implants.”

Stephen makes a thoughtful noise, reaching out and manipulating the diagram. “There’s improvements to be made without implants,” he says absently. Tony certainly did his research, but he doesn’t know the nervous system like Stephen does.

Tony tilts his head. “Show me.”

Three hours later, after Levi and DUM-E herd them out of the lab to eat lunch, Tony asks, “So what’s the going rate for a neurosurgeon’s consulting fee?”

Stephen starts to protest and then catches Tony’s sly glance and has to let out an exasperated laugh. “Is there anything you won’t take it upon yourself to fix?”

“Probably not,” Tony says, grinning. “Come on, was I wrong? If that’s what you can do when you’re out of date on the literature, then imagine what you’ll have to offer once you catch up. And you obviously enjoyed it.”

“I did,” Stephen admits. He hadn’t even considered consulting, probably because he’d written the idea off so thoroughly after his accident. But now… Well, Tony didn’t build the newer armors by hand, but they were no less a work of his mind. Stephen didn’t have to hold the knife himself for his work to impact the field, and it turns out he found the intricacies of the human nervous system just as fascinating as he ever had. “How did you know?”

Tony scoffs. “Come on, that was easy. You insisted on being called Doctor even when you were entitled to being called Sorcerer Supreme. Doesn’t take a genius to see that it’s still a part of you.”

“Apparently it did take a genius,” Stephen shoots back, smiling slightly. “Since no one else thought of it.”

Tony just laughs.

#IronStrange #ficlet

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transentiencestudios · 3 months ago

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Here’s something wholesome.

Eight sometimes falls asleep while listening to Vektor’s brainwaves when she’s tuned in for too long. He doesn’t understand why, but it creates moments of quiet serenity between them… not that he’s complaining.

His feelers can attach to her neural implant nodes, which connect directly to her brain. Normally, these nodes are meant to interface with the Archframe, but in this case, they allow Eight to understand Vektor without knowing a single word of the Haan language, simply by interpreting. Since the Haan communication is entirely based on electric signals and hormonal/chemical exchange, this connection lets them share emotions and some related thought processes directly with one another.

The Haan experience emotions on a far more complex level than humans, and… well, it can be a bit overwhelming for Eight at times since she is a human. Which is why she falls asleep.

In our stories, Vektor will receive a translator so the rest of the crew can understand him better, too, and Eight doesn’t always have to connect with him. They shrimply do not understand his exotic ways.

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