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velmex11 · 4 months ago

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Precision Rotation Tables - Velmex Inc

Precision Rotation Tables: Enhancing Accuracy in Motion Control

Precision rotation tables, also known as rotary tables or indexing tables, are essential components in various industrial and scientific applications. They are designed to provide precise angular positioning, enabling accurate control over rotational movements in manufacturing, research, and automation systems.

What Are Precision Rotation Tables?

Precision rotation tables are mechanical devices that allow for controlled rotation around a single axis. They can be manually operated or motorized, depending on the level of precision required. These tables are commonly used in CNC machining, metrology, robotics, and optical applications where exact angular positioning is critical.

Key Features and Benefits

High Accuracy and Repeatability: Precision rotation tables are engineered to achieve tight tolerances, often within arc-seconds, ensuring consistent and repeatable positioning.

Load Capacity: They can support various load sizes, from lightweight optical components to heavy industrial machinery, without compromising accuracy.

Versatility: Available in different configurations, such as worm gear, direct drive, and air-bearing tables, they cater to diverse applications requiring different levels of precision and speed.

Integration with Automation Systems: Modern precision rotation tables can be easily integrated with computer-controlled systems, enhancing efficiency in automated processes.

Applications of Precision Rotation Tables

CNC Machining: For precise cutting, drilling, and milling operations, allowing complex geometries and multi-axis machining.

Metrology: In coordinate measuring machines (CMMs) for accurate measurement of angles and dimensions.

Robotics: For the precise movement and positioning of robotic arms in assembly lines.

Optics and Photonics: In laser systems and telescopes where fine angular adjustments are crucial.

Choosing the Right Precision Rotation Table

When selecting a precision rotation table, consider factors such as load capacity, rotational speed, accuracy requirements, and environmental conditions. Motorized tables offer higher precision and automation capabilities, while manual tables are suitable for simpler tasks.

Conclusion

Precision rotation tables are indispensable tools in industries that demand high levels of accuracy and control. By enabling precise angular positioning, they contribute significantly to the efficiency, quality, and innovation of modern technological processes.

#lead screws #xy table stepper motor #inductive rotary encoders #national petrographic #joystick motor control #rotary table controller #motorized positioning tables #motorized xy system #measuring counters

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edir2rell · 1 year ago

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https://www.futureelectronics.com/p/semiconductors--comm-products--i2c/pca9515adp-118-nxp-7183946

What is I2C communication, serial communication bus, I2C logic

PCA9515A Series 3.6 V 5 mA 400 kHz 6 pF I2C-bus Repeater - SOIC-8

#NXP #PCA9515ADP #118 #Comm Products #I2C #What is I2C communication #serial communication bus #I2C logic #Surface Mount I2C bus repeaters #Wire Interface Bus #USB to I2C converter #Encoder motor driver #i2c communication protocol #I2C bus switches

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sneaky-tank · 10 months ago

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Working on building a cutie a new body.

Walking them through the configuration process of their new skeleton, taking measurements like a tailor, fine tuning offsets and sizes via VR motion tests.

Either ship of theseus conversion of their brain or taking a scan while holding their hand.

Helping them build the skills to control peripherals from limbs to sensors.

Starting the print for their brand new skeleton, nerves, and the tooling for molding their soft features.

Watching their body slowly coalesce from different lentil-like plastic pellets used artfully and intentionally.

Installing and sealing their brain into their skeleton, so they can feel and enjoy the process of being freed from their soluble support structure.

Manually washing them down with solvents to melt away all the support scaffolding, freeing up their joints for the very first time and testing their range of motion before they even have their motors installed.

Taking them out of the spray down station and dutifully bolting each of their motors in place, crimping ferrules onto the leads, and connecting their motors and encoders for the very first time.

Giving them a few moments to amble around on their own, doing the pre-overmolding checklist to ensure they can hold the right position as their soft features are molded on.

Finally, you lead them gently by the hand to the molding machine, they stand in place, and a suit of armor specifically tailored to them assembles around them to have the spaces filled with their soft artificial skin.

Indecent for the first time in their new life, you kiss them on the cheek and dress them in the standard hospital gown and guide them to the auto-tailor that has already sewn their new outfits of choice to perfectly match their new form.

For the first time in their life, everything fits. Perfectly. Not a single hitch or tear, everything just as tight or loose as they want it. They fill out their outfit perfectly and you stand there in awe even though this is your 6,735th time. It really never gets old.

This time is special though, because you'll be spending the rest of your unnatural lives together. This is the last hour of your last day, and you walk out for the last time. For the first time hand in hand with your gorgeous handsome beautiful cute adorable pretty breathtaking perfect partner.

It's time to enjoy eternity, together, no need to worry about 'in sickness or in health', and death will never do us part.

#decided to keep this one gender neutral for everyone.#i do hope you all enjoy this #especially the robots #and the robot fuckers

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amber-tortoiseshell · 29 days ago

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MLPH - Melanophilin

The protein encoded by this gene is involved in melanosome transport and serves as link between melanosome-bound RAB27A and the motor protein MYO5A. Mutations here cause "standard" dilution.

Ball python

ghost

Inheritance: recessive.

image source

Chicken

lavender

five-gray

Inheritance: recessive to wild type, interaction unknown.

lavender, five-gray

Japanese quail

lavender

Inheritance: recessive.

wild type and lavender. image source

Canary

opal/mogno

onyx

Inheritance: recessive to the wild type, intermediate with each other.

opal, onyx, opal and onyx variations (mogno proved to be the same mutation as opal)

Mouse

leaden

Inheritance: recessive.

image source (mice have two blue genes with identical phenotypes - i can't tell it this is a leaden (aka "mock blue") or a "proper blue".)

Rabbit

dilute

Inheritance: recessive.

image source

Dog

dilute (three different mutations)

Inheritance: recessive.

image source

Domestic ferret

silver

Inheritance: intermediate.

Light silver, dark silver. I couldn't find trustworthy illustrations for these colors, however i tried to choose pictures according to the descriptions in paper identifying the mutation: "the homozygotes for the mutant type are almost completely white, and the heterozygotes have a weakened color and white spots in various parts of the skin".

American mink

silverblue (two mutations)

Inheritance: recessive.

image source

Domestic cat

dilute

Inheritance: recessive.

image source

Sheep

lilac

Inheritance: recessive.

image source

Cattle

cool gray/Larson blue

Inheritance: recessive.

image source

#crying over how that cat is called russian blue in the linked page #have you ever seen a russian blue #color genes across species #mlph #dilution #ball python #chicken #japanese quail #canary #mouse #rabbit #dog #domestic ferret #american mink #domestic cat #sheep #cattle

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stevebattle · 2 months ago

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MITEE 8 (1995), by David Otten, MIT. MITEE Mouse 8 came 2nd in the 16th All Japan Micromouse Competition in 1995, losing to Ssing Ssing 3. The video is an excerpt from "UK Micromouse 1998."

"One of the fastest micromice, MITEE 8 by David Otten of MIT, contains two DC motors with encoders, six 225mAh NiCd rechargeables and weights about 200 grams. Side sensors consist of infrared emitter and a PSD sensor, whose output is proportional to the distance independent of reflectivity of the surface." – A Survey of Robotic Competitions, by Richard Balogh.

"Triangulation sensors [were] pioneered by David Otten. These sensors consist of a narrow beam emitter coupled with a Position Sensitive Detector (PSD) which has a lens in front of it. The idea is that the emitter illuminates a spot on the wall and then the lens images the spot on to the PSD. As the distance between the sensor and the wall changes, the location of the spot on the PSD moves. By determining the location of the spot on the PSD, you can tell how far the wall is from the sensor. What is super nice about this approach is that it is wall reflection intensity insensitive. The downside is that it requires precise location of the emitter, detector, lens and two trans-impedance amplifiers per PSD." – Micromouse Sensor Design, by Harjit Singh.

"Mitee Mouse 8 is another micromouse from David Otten of MIT in collaboration with Tony Caloggero. It is driven by DC motors and gets its power from six 225mAHr NiCd batteries. Total weight is about 200g. The sensors are side-looking and use an assembly consisting of an IR emitter, lenses and hamamatsu position sensitive detectors. A spot of light is created on the wall and its image focussed onto the PSD. The result is an output that should be independent of the reflectivity of the walls and proportional only to distance. Demonstrated linearity and range of these sensors is remarkable. The underside view show encoder disks attached to the wheels for velocity feedback. Separate encoders 9with the small black tyres) are mounted just inboard of the drive wheels for distance/position sensing." – Pete Harrison.

#cybernetics #robot #micromouse #UK Micromouse 1998 #MIT #MITEE #1995 #All Japan Micromouse Competition #16th All Japan Micromouse Competition #maze solvers

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bixels · 2 years ago

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so how exactly does magic work in your au?

There are four main methods of magic:

Tonics – your basic potion-making/alchemy. The brewer must be able to disassemble and weave ingredients together into a greater sum of its parts. This type of magic must be ingested to affect a person's physical properties and traits. They're temporary.

Formulas – physical pieces of art with magic encoded in itself. These can take the form of woven charms, embroidered fabrics, or drawn artwork (often in art-nouveau, secessionist, or modern styles). A witch fluent in formulaic magic can read and translate these pieces into hexes. These are considered high forms of delicate art. Spellbooks will often contain pages of these instead of instructions or notes. Formulas affect an area indefinitely. Collectors will often frame or display them, especially if they offer good luck or protection.

3. Hexes – incantations, blessings, and curses. They must be spoken, usually in rhyming form. While blessings are temporary, curses must be broken or dispelled.

4. Spells – the softest and least complicated magic. Wave your hands and an object will float towards you. Spells come naturally to most witches and do not need to be uttered, as it only requires the will of the mind and heart to produce. Before long, casting spells becomes second nature and an extension of ones motor functions.

#ask me #anon #the formulas thing is something tulli and i came up with to balance magic as an art and mathematical science #because the show treats spells as mathematical formulas which is SUPER cool and unique #we didn't wanna get rid of that but we also wanted to stick the type of soft magic found in american folktales #so we turned the math into art

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compneuropapers · 4 days ago

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Interesting Papers for Week 25, 2025

Opponent control of reinforcement by striatal dopamine and serotonin. Cardozo Pinto, D. F., Pomrenze, M. B., Guo, M. Y., Touponse, G. C., Chen, A. P. F., Bentzley, B. S., Eshel, N., & Malenka, R. C. (2025). Nature, 639(8053), 143–152.

Emergence of a Dynamical State of Coherent Bursting with Power-Law Distributed Avalanches from Collective Stochastic Dynamics of Adaptive Neurons. Chan, L.-C., Kok, T.-F., & Ching, E. S. C. (2025). PRX Life, 3(1), 013013.

Fear conditioning modulates the intrinsic excitability of ventral hippocampal CA1 neurons in male rats. Ehlers, V. L., Yousuf, H., Smies, C. W., Natwora, B. R., & Moyer, J. R. (2025). Journal of Neurophysiology, 133(3), 853–867.

Separating cognitive and motor processes in the behaving mouse. Hasnain, M. A., Birnbaum, J. E., Ugarte Nunez, J. L., Hartman, E. K., Chandrasekaran, C., & Economo, M. N. (2025). Nature Neuroscience, 28(3), 640–653.

Neural mechanisms of learned suppression uncovered by probing the hidden attentional priority map. Huang, C., van Moorselaar, D., Foster, J., Donk, M., & Theeuwes, J. (2025). eLife, 13, e98304.3.

Robust encoding of stimulus–response mapping by neurons in visual cortex. Jonikaitis, D., Xia, R., & Moore, T. (2025). Proceedings of the National Academy of Sciences, 122(9), e2408079122.

Long-term memory facilitates spontaneous memory usage through multiple pathways. Kumle, L., Kovoor, J., Watt, R. L., Boettcher, S. E. P., Nobre, A. C., & Draschkow, D. (2025). Current Biology, 35(5), 1171-1179.e5.

Error prediction determines the coordinate system used for the representation of novel dynamics. Leib, R., & Franklin, D. (2025). eLife, 14, e84349.

Statistical learning re-shapes the center-surround inhibition of the visuo-spatial attentional focus. Massironi, A., Lega, C., Ronconi, L., & Bricolo, E. (2025). Scientific Reports, 15, 7656.

Hair Cells in the Cochlea Must Tune Resonant Modes to the Edge of Instability without Destabilizing Collective Modes. Momi, A. S., Abbott, M. C., Rubinfien, J., Machta, B. B., & Graf, I. R. (2025). PRX Life, 3(1), 013001.

Decision cost hypersensitivity underlies Huntington’s disease apathy. Morris, L.-A., Horne, K.-L., Manohar, S., Paermentier, L., Buchanan, C. M., MacAskill, M. R., Myall, D. J., Apps, M., Roxburgh, R., Anderson, T. J., Husain, M., & Le Heron, C. J. (2025). Brain, 148(3), 861–874.

Integration of Euclidean and path distances in hippocampal maps. Ottink, L., de Haas, N., & Doeller, C. F. (2025). Scientific Reports, 15, 7104.

Aversive generalization in human amygdala neurons. Reitich-Stolero, T., Halperin, D., Morris, G., Goldstein, L., Bergman, L., Fahoum, F., Strauss, I., & Paz, R. (2025). Current Biology, 35(5), 1137-1144.e3.

Compartmentalized dendritic plasticity in the mouse retrosplenial cortex links contextual memories formed close in time. Sehgal, M., Filho, D. A., Kastellakis, G., Kim, S., Lee, J., Shen, Y., Huang, S., Lavi, A., Fernandes, G., Davila Mejia, I., Martin, S. S., Pekcan, A., Wu, M. S., Heo, W. Do, Poirazi, P., Trachtenberg, J. T., & Silva, A. J. (2025). Nature Neuroscience, 28(3), 602–615.

Adaptive chunking improves effective working memory capacity in a prefrontal cortex and basal ganglia circuit. Soni, A., & Frank, M. J. (2025). eLife, 13, e97894.3.

Attention to memory content enhances single-unit spike sequence fidelity in the human anterior temporal lobe. Sundby, K. K., Vaz, A. P., Wittig, J. H., Jackson, S. N., Inati, S. K., & Zaghloul, K. A. (2025). Current Biology, 35(5), 1085-1094.e5.

Acetylcholine modulates prefrontal outcome coding during threat learning under uncertainty. Tu, G., Wen, P., Halawa, A., & Takehara-Nishiuchi, K. (2025). eLife, 13, e102986.2.

The effect of fasting on human memory consolidation. Yang, X., Miao, X., Schweiggart, F., Großmann, S., Rauss, K., Hallschmid, M., Born, J., & Lutz, N. D. (2025). Neurobiology of Learning and Memory, 218, 108034.

Neural Correlates of Perceptual Plasticity in the Auditory Midbrain and Thalamus. Ying, R., Stolzberg, D. J., & Caras, M. L. (2025). Journal of Neuroscience, 45(10), e0691242024.

Hippocampal neuronal activity is aligned with action plans. Zutshi, I., Apostolelli, A., Yang, W., Zheng, Z. S., Dohi, T., Balzani, E., Williams, A. H., Savin, C., & Buzsáki, G. (2025). Nature, 639(8053), 153–161.

#neuroscience #science #research #brain science #scientific publications #cognitive science #neurobiology #cognition #psychophysics #neurons #neural computation #neural networks #computational neuroscience

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naomithegiraffe · 2 years ago

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still have a bunch of bouncy balls in my head

unreasonably excited about mid-80s auto focus cameras this evening

#cant believe i forgot about the contax that did auto focus by moving the film back and forth inside the camera #like wtf why how what #or also the different ways of encoding data #cuz like people wanted dates and other info on the film strips but they didnt always want it in the picture #for many reasons #so some cameras started printing it vertically between frames like ok sure #then some mad camera scientists decided that wasnt enough so they built a camera that printed data in between the sprocket holes #like what even that's such a tiny why there #only one camera ever did that and i think for good reason #also special mention goes to the 1960s date back that just had a tiny glowing clock inside that would expose the current time #directly onto the film #as like a clock #with little hands and even littler numbers what the fuck #or there were a couple early auto exposure accessories that just mounted motors on front of the camera to automatically move dials #the same way a people would but with motors #i love that so much honestly #cameras man #i really should be asleep i need to be up early #but old funky cameras are calling to meeee

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gallifreyinstituteforlearning · 1 year ago

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Can we get some details about Time Lord/TARDIS symbiosis? And how it works for a single pilot vs a full crew of six pilots being bonded?

How does TARDIS symbiosis work for individuals and groups?

🧬 Rassilon's Imprimatur: The Symbiotic Core

Rassilon’s Imprimatur, also known as 'imprimature' or 'imprimateur', is the term for the essential connection that Time Lords form with their TARDISes. This link is facilitated by the 'symbiotic nuclei' encoded within the hidden 4th strand of a Time Lords' DNA. This connection is mutually beneficial as the TARDIS needs the Time Lord's unique genetic codes to work - like a key in the motor - and the Time Lord obviously needs a TARDIS for safe time travel.

🚀 Single Pilot vs. Crew Dynamics

Single Pilot Bonding: When a Time Lord pilots their TARDIS solo, the connection is intensely personal and direct. Imagine a rope linking two entities, where communication and control flow seamlessly as long as the rope is in one piece. This way, the connection is quite intimate.

Crew Pilot Bonding: Introducing a full crew of six to the equation transforms this intimate connection into more of a network of friends. Each Time Lord adds their own strand of rope, creating a web of interconnected symbiotic nuclei. This expanded setup can enhance the TARDIS’s capabilities, distributing the piloting and navigational duties among the crew and allowing for more complex operations. However, all pilots must have harmony and precise coordination to maintain stability and efficiency.

🌌 Consequences of Symbiotic Disruption

Disruption to the symbiotic nuclei or the 'rope' itself, whether through damage, illness, or external interference, has consequences. Symptoms can range from physiological distress to severe mental afflictions for both TARDIS and Time Lord. In extreme cases, this disruption can endanger the lives of both the Time Lord and the TARDIS.

Factoid: What's the link between a Time Lord and their TARDIS?

Factoid: How do Time Lords biologically stay connected to the Matrix?

Hope that helped! 😃

More content ... →📫Got a question? | 📚Complete list of Q+A and factoids →😆Jokes |🩻Biology |🗨️Language |🕰️Throwbacks |🤓Facts →🫀Gallifreyan Anatomy and Physiology Guide (pending) →⚕️Gallifreyan Emergency Medicine Guides →📝Source list (WIP) →📜Masterpost If you're finding your happy place in this part of the internet, feel free to buy a coffee to help keep our exhausted human conscious. She works full-time in medicine and is so very tired 😴

#doctor who #gil #gallifrey institute for learning #dr who #dw eu #GIL biology #whoniverse #time lord biology #GIL: Asks #gallifreyan culture #gallifreyan lore #gallifreyan society #GIL: Culture and Society #gallifreyan biology #GIL: Biology

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briterencoder · 2 months ago

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Premium Servo Motor Encoders - High-Precision Optical Technology

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#Servo Motor Encoders #Servo Motor Encoder

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bananiballecter · 1 year ago

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Ive been going down a rabbit hole of open source robotics and really want to build a 6 axis arm just so I can stick a dildo on the end of it.

On a tangential project, there's a control mechanism that can be theoretically used to control each axis of the arm by using a contraption that looks the same, but has encoders instead of motors for each joint. By moving the end of the arm on the controller, I can move the arm of the robot.

SO, what does this mean? I could hook a fleshlight up to one unit and the dildo up to the other, and experience some odd mechanized sensation of fucking myself in either direction.

That got me thinking about gathering data about how I fuck myself. I could hook up some electrodes and analyze physical response tagged vocally while I use robots to masturbate. I could then analyze the data, pull out movement sequences that I really like, then build a second arm to join the first. With the data I could just sit back and have some automated gooning.

BUT Wait, there's more! With that kind of automation, I could either rig up the program to a model in unreal and fuck a character in VR, or I could add trackers to the physical robots and have the assets rigged to the trackers and if I decide to take manual control, the scene would be dynamic (of course I could close loop my motors and pull that data but that get into a different realm of expense plus a big redesign). Maybe an existing dev would be willing to add trackable characters if I could sell them on gonners wanting to track dolls. Hmmmm...

These aren't even sexy androids, they are automation hardware that I'm trying to use to turn myself into a cum factory. My brain broke. Anyhow, just thought I'd share my day browsing github and Ali express while actively resisting the urge to buy the gyno chair for sale on govdeals.com.

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scarlineorbit · 21 days ago

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🔐 PANDORA – ENVY DIVISION DOSSIER

SUBJECT: KHALILSON, SIRIUS Call Sign: Graft Clearance Level: ██/███ (Tier-9 Envy Access Only) Dossier ID: PND-ENVY/Δ-HXN14-633

BIOLOGICAL OVERVIEW

Field Entry: Full Name: Sirius Khalilson Date of Birth: 12 May 1989 Height: 5’7” Weight: 154 lbs Place of Birth: Alexandria, Egypt Nationality: Dual – Egyptian / Classified (Naturalized ██████) Species: Human (Genetically Modified) Affiliation: Pandora Initiative – Envy Division Former Affiliation: REDACTED CIA – Covert Operations Division Status: Active / Monitored

INTERNAL EVALUATION REPORT

SECTION I: GRAFT ABILITY OVERVIEW

Classification: Tier-IV Neurokinesis Baseline Genome: Homo sapiens (genetically modified)

A. Neural Manipulation Capabilities

"Neurocartography"—the ability to perceive, manipulate, and extract the neurological "maps" of sensation, memory, and pain encoded within the nervous system, particularly along the spinal column. The “pages” appear in his perception like glowing neural tattoos hovering in space. The longer a "page" is held outside a host, the more unstable it becomes—like a fraying nerve, it degrades and corrupts. Victims may convulse or experience involuntary muscle spasms during extraction.

To Graft, a person's spine is not just a bundle of nerves—it's a living archive. Every trauma, every learned reflex, every scar of experience is encoded in the body's electrical language. He can reach into that system and tear out pieces of it like pages from a book.

Neuro-Spinal Grafting: Subject can extract and imprint pain-response pathways from others via physical contact, particularly along the spinal column.

Pain Transference: Subject can reroute nociceptive signals—emotional or physical pain—from one being into another, or internalize them.

Synaptic Mapping: Capable of creating temporary neuro-empathic links, allowing for the perception and extraction of deeply embedded emotional trauma.

Pain Extraction: Graft can isolate and rip the neural mapping of specific pain memories or trauma, leaving the target numb, confused, or emotionally hollow. Victims often feel a phantom absence, as if something fundamental is missing from their nervous system.

Sensory Hijack: By dragging or splicing these maps, he can transplant pain pathways from one person into another—making one person suffer another’s wounds or guilt.

Neural Silencing: He can temporarily (or permanently) sever connections between the brain and the body—cutting off pain, emotion, or even motor control with precision. This is often used mid-combat to disable or interrogate.

Echo Mapping: When he extracts a pain-map, Graft gains brief psychic "echoes" of the target’s trauma—flashes of memory, fear, or sensation. These moments are invasive, sometimes overwhelming, and often addictive.

"Spinal Bookmarking": He can mark a specific nerve thread and return to it later—revisiting a memory or reactivating pain as a threat or reminder.

B. Structural Integrity & Recovery

Accelerated Tissue Regeneration: Healing factor calibrated to 5.1× human baseline; minor wounds self-seal within minutes.

Adaptive Neurological Compensation: Nervous system dynamically adapts to new grafted data, granting temporary access to pain tolerances, reflexes, or biological instincts from others.

Neuroempathic Binding: When emotionally tethered to another subject, can redirect trauma responses to stabilize or destabilize neural equilibrium.

SECTION II: SENSORIAL AND PHYSICAL ENHANCEMENTS

A. Sensory Expansion

Olfactory Resolution: 45× human range. Utilized for emotional trace detection and trauma scent decoding.

Auditory Range: Detects ultrasonic emissions up to ~64 kHz.

Empathically responsive to distress tones.

Emotive Field Perception: Subconscious detection of fear, grief, and intent via biochemical cues.

B. Physical Conditioning

Subject exhibits enhanced muscular strength and endurance, with peak output estimated at nearly three times that of an average human.

Strength levels dynamically fluctuate based on the current neurokinetic load and graft-induced physiological adaptations.

Reflexes and agility are markedly improved, allowing for sudden bursts of rapid, unpredictable movement in combat or escape scenarios.

Subject demonstrates limited organic mimicry, temporarily altering dermal texture and muscle tone to blend with environmental or emotional cues, aiding stealth and resilience.

SECTION III: COGNITIVE PROFILE & BEHAVIORAL PERFORMANCE

A. Tactical Intelligence

Capable of real-time strategic recalibration under high duress.

Uses empathic-neural input to anticipate opponent behavior.

Avoids direct command hierarchies; prefers independent execution or small-unit autonomy.

B. Emotional Regulation

Subject exhibits alexithymia.

Emotional recognition in others is strong; emotional articulation for self is deficient.

Displays guarded affect but is highly reactive to distress signals.

SECTION IV: TECHNICAL EQUIPMENT INTERFACE

Primary Weapon: Custom-modified compact assault rifle (caliber classified)

Secondary Weapon: Silenced semi-automatic pistol

Melee Weapon: Surgical-grade scalpel set (various sizes, titanium alloy blades)

Additional Tools: Covert tactical knife (ceramic blade), field med-kit for emergency wound treatment

SECTION V: OPERATIONAL SPECIALIZATIONS

Neural Mapping & Emotional Residue Analysis

Memory Bleed Resistance (compartmentalized trauma locks)

Pain Redistribution (neurokinetic absorption and redirection)

Hostage Emotional Stabilization & Triage

Infiltration via Empathic and Neural Linkage

Environmental Tracking through Neural Echoes

SECTION VI: LIMITATIONS AND RISK FACTORS

Identity Disruption: Recurrent neuro-spinal grafting causes dissociative episodes and emotional boundary collapse.

Neural Feedback Syndrome: May suffer from seizures or paralysis due to overloaded neurokinetic transfer.

Emotional Saturation: High-emotion zones can short-circuit empathic buffers, leading to neurological shutdown.

Delayed Communication: In high-intensity neurokinetic states, subject struggles with coherent speech or response.

Biological Overload: Absorbing multiple trauma signatures simultaneously risks permanent nerve damage.

Exploitation Risk: Vulnerable to psychic or AI-driven psychological subversion through emotional resonance traps.

Solitude Dependency: Requires recovery periods of isolation to recalibrate neural thresholds and emotional alignment.

Tactical Rigidity: Functions best in small-cell environments; exhibits resistance to hierarchical structure.

Sensory Overload: Extreme auditory/visual stimuli can disorient or incapacitate subject temporarily.

Evaluation Summary:

LIMITATIONS

Graft demonstrates extraordinary capabilities rooted in neurokinesis—particularly neural pain transference and emotional extraction. However, the invasive and intimate nature of his ability imposes dangerous consequences on his cognition, physiology, and operational coherence.

Cognitive Displacement: Subject risks permanent identity fragmentation through repeated grafting cycles.

Partial amnesia and persona contamination have been observed.

Neuropathic Burnout: Subject has exhibited blackouts and cardiac distress following prolonged neural absorption.

Residual Trauma Retention: Psychological echoes from previous grafts remain embedded. These fragments interfere with present emotional processing.

Pathological Transmission: Subject can absorb and unwittingly internalize mental disorders or psychosomatic triggers.

Autonomy Override: Attachment to emotionally charged subjects often overrides extraction protocol.

Technological Ineptitude: Lacks intuitive engagement with electronic systems under pressure. Delegates all tech-interaction in field.

Summary Judgment: Graft is indispensable in high-emotion, trauma-sensitive environments but poses a systemic threat to mission cohesion if overexposed. Recommends emotional containment handler assignment on all future ops.

SECTION VII: INCIDENT LOG EXCERPTS

Incident #041 – Neural Feedback Loop Date: 22 May 2023 Outcome: Feedback from linked operative caused neurokinetic seizure. Subject unconscious for 17 hours post extraction.

Incident #087 – Hostage Stabilization (Cairo Market Siege) Date: 18 Oct 2024 Outcome: Siphoned panic signals and trauma loops from five civilian children. Subject suffered severe nosebleed and memory distortion.

Incident #104 – Deep-Graft Fugue Date: 19 Feb 2025 Outcome: Located 12 km off-grid in fugue state. Subject displayed partial memory from linked civilian with no debrief record.

PSYCHOLOGICAL PROFILE [CONFIDENTIAL – REDACTED]

Diagnosed with Controlled Empathic Dissociation Disorder Compulsion: Logs emotional trauma in encrypted neural diary Attachment Schema: High affective enmeshment; prefers solitude Trust Rating: Moderate – highly situational Loyalty Tier: ██ (Anchor Dependent) Obedience Level: Autonomous

Watchlist Tag: "If overwhelmed, do not touch. Withdraw."

Behavioral Note (per Division Psych Lead): “Graft exhibits a paradox of hyper-attunement and emotional detachment. While his neurokinetic abilities grant him intimate access to others’ trauma, he remains emotionally non-integrated with his own experiences. He responds to suffering with precision, not empathy—intervening like a surgeon, not a savior. Isolation is his default coping strategy, yet he’s magnetically drawn to pain in others. Recommends close monitoring for emerging compulsions tied to unresolved emotional grafts.”

CLASSIFIED — AUTHORIZED MEDICAL PERSONNEL ONLY

Subject: Medical and Enhancement History Report Operative Call Sign: Graft Date: May 20, 2025 Prepared by: Division Medical and Biotechnical Services

MEDICAL AND ENHANCEMENT HISTORY REPORT

Initial Integration: March 7, 2019 – Cairo Site-09 Procedure: Tier-IV Neurokinetic Grafting Implant Outcome: 93% synaptic retention rate. Subject stabilized after 72-hour sensory fragmentation.

Phase II Enhancements (August 2020 – Berlin Cell):

Neural relay mesh implanted for signal redirection

Pain conduit routing adjusted for enhanced durability

Neurofeedback buffer to reduce overload risk

Complications:

Graft Episode #12 (March 2021): Involuntary bond with rioter led to loss of self-identity for 36 hours. Memories distorted.

Phase III Enhancements (October 2023 – Site-12):

Pain transference refinement module installed

Reflex acceleration node integrated into basal ganglia

Known Medical Flags:

Mild arrhythmia post-graft

Spiking neurochemical levels in zones of extreme grief

Elevated oxytocin retention linked to prolonged emotional tethering

Monitoring Notes:

Subject's neurokinetic field reacts unpredictably to certain biotypes. Continues to refuse emotional suppressants.

Ongoing Precautions:

Mandate psych recovery window post-op (3–5 hours)

Enforce handler presence near trauma-site survivors

Revoke solo deployment in extreme emotional zones exceeding 48 hours

SPECIALIZATIONS

Neurokinetic Pain Transference

Tactical Infiltration

Emotional Field Mapping

Nerve Network Hijacking

Environmental Adaptation

Emotional Signal Disruption

Empathic Covert Reconnaissance

Close Quarters Threat Neutralization

Behavioral Surveillance

LIMITATIONS

Identity Dissolution

Neural Fatigue

Communication Lag

Trauma Residue Retention

Manipulation Vulnerability

SKILLS

Proficient:

Stealth & Infiltration

Close Combat Mastery

Insight

Intimidation

Pain Tolerance

Expertise:

Tactical Foresight

Substandard:

Athletics

Vehicular Operation

KNOWN ANOMALIES

Subject retains sensory and memory data from past contact

Neural echo recall includes sight, sound, and emotional profile

Encrypted trauma logs updated subconsciously

🗂️ MISSION LOGS – CLASSIFIED ENVY OPS

🔻 END OF FILE

"He carries the dead inside him—so no one else has to." – Pandora Internal Memo

#pandora.intro

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putrefacion · 1 month ago

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REGARDING THE STATE LUTE WAS IN SHORTLY AFTER HER CREATION; SHE WASN’T CONSCIOUS, BUT SHE WAS ALIVE — TECHNICALLY, BRUTALLY. NOT AWAKE OR AWARE, BUT STILL PRESENT. SIMILAR TO A CORPSE IN THE AFTERMATH OF DEATH, PARTS OF HER WOULD TWITCH, CONVULSE, SPASM; PAIN WOULD SPIKE THROUGH HER SYSTEM, THERE WAS NO NEURAL FRAMEWORK YET IN PLACE TO INTERPRET IT. NO INSTINCTS, NO MEMORY, NO VOICE, NO PERSONALITY; JUST RAW NERVE ENDINGS MISFIRING IN A BODY THAT DIDN’T YET UNDERSTAND IT EXISTED,

HER FORMATION WAS NOT INSTANTANEOUS; BUT THE PROJECT WAS RUSHED; IT WASN’T DIVINE SPARK & BREATH, SOFT OR FULL OF LOVE & GLITTER LIKE LILITH & THE REAL EVE — IT WAS DIVINE PROCEDURE [ SURGICAL, MECHANICAL, PROLONGED ] THE SERAPHIM ASSEMBLED HER, LIMB BY LIMB…

[ I DON’T IMPOSE THIS ON ADAM WRITERS, OF COURSE; BUT FOR MY DEFAULT LORE: ] ADAM NEVER GAVE HIS CONSENT. THE SERAPHIM DIDN'T ASK; THEY ASSUMED THEY WOULDN’T GET IT IF THEY HAD. ONE MIDRASHIC INTERPRETATION SUGGESTS THAT GOD FORMED EVE LIMB BY LIMB IN FRONT OF ADAM, & HE WAS SO HORRIFIED BY THE PROCESS, SO DISGUSTED BY THE SIGHT OF IT, THAT HE REJECTED HER OUTRIGHT, EXCLAIMING SHE WAS FULL OF BLOOD & SECRETION. THE SERAPHIM WOULDN’T RISK THAT OUTCOME; THEY CONDUCTED THE PROCEDURE IN SECRET,

IT RESEMBLED FETAL DEVELOPMENT IN REVERSE; A BODY FORMING BEING ASSEMBLED WITHOUT BIOLOGICAL ORDER. HER FORM WAS A MESS OF EXPOSED FLESH, UNFINISHED BONE, RAW NERVES, TWITCHING MUSCLE; LIMBS EXTENDING BEFORE JOINTS COULD MOVE, FLESH CLINGING TO BONE WITHOUT PURPOSE OR BREATH. DIVINE MATTER SEEPED THROUGH THE BANDAGES, ADAM'S BLOOD ( BOTH RED & GOLD ) BINDING TO FLESH THAT WASN’T FULLY FORMED,

THIS IS PART OF THE REASON LUTE IS ABLE TO RIP HER OWN ARM OFF; PART OF IT WAS ADRENALINE, TRIGGERED BY BEING CALLED A FAILURE & FUELED BY RAW HATRED FOR VAGGIE — BUT HER BODY WAS BUILT TO WITHSTAND DISASSEMBLY & REASSEMBLY. PAIN ISN’T A DETERRENT FOR HER THE WAY IT IS FOR OTHERS; NOT WHEN HER EARLIEST SUBCONSCIOUS MEMORIES ARE OF BEING PULLED APART & STITCHED TOGETHER BEFORE SHE EVER TRULY LIVED,

ONCE HER FORM STABILIZED, THE FIRST WAVE OF EXORCISTS WERE MADE & THEY WERE IMMEDIATELY DEPLOYED, WHICH PROVED TO BE A SEVERE MISTAKE. THOUGH LUTE'S BODY WAS STRUCTURALLY COMPLETE, HER MIND REMAINED UNDEVELOPED — UNDEFINED, UNSTABLE & UNFIT FOR DEPLOYMENT; HER CONSCIOUSNESS HAD YET TO FORM.

& AFTER THE FIRST WAVE PROVED UNSTABLE, LUTE WAS RETAINED FOR PSYCHOSPIRITUAL INCUBATION, TO COMPLETE WHAT WAS LEFT UNFINISHED, & TO RECONDITION; SHE WAS PLACED IN A CRYOPOD FOR CONTAINMENT. INTEGRATED WITHIN THE POD WAS A SIMULATION CHAMBER MODELED AFTER EDEN; A CLOSED GENESIS DESIGNED TO TEST HER OBEDIENCE, LOYALTY, & VIABILITY AS A SUPPORT UNIT FOR ADAM. DURING THIS PERIOD, HER ARTIFICIAL NEURAL FRAMEWORK BEGAN TO TAKE SHAPE; SIMULATED INPUTS WERE INTRODUCED INCREMENTALLY: PRESELECTED MEMORIES, LINGUISTIC SCAFFOLDING, INSTINCTUAL DIRECTIVES, & BEHAVIORAL CONDITIONING BASED ON THE SERAPHIM'S INTERPRETATION OF RIGHTEOUSNESS,

HOWEVER, THE INTENDED REFORMATION RESULTED IN IMPRINTED TRAUMA; THE PSYCHOLOGICAL IMPACT OF HER ARTIFICIAL FALL WAS ENCODED INTO HER CORE BEFORE CONSCIOUSNESS FULLY STABILIZED. SHE DISPLAYED: SPONTANEOUS MOTOR ACTIVITY, UNPROVOKED VITAL FLUCTUATIONS, & EMOTIONAL REACTIONS TO STIMULI SHE HAD NOT YET BEEN TAUGHT. THE SIMULATION WAS EVENTUALLY INITIATED. LUTE WOULD LIVE A FULL ARTIFICIAL LIFETIME AS A REVISED EVE; SHE EXPERIENCED SIN, EXILE, GRIEF, & DEATH. WHAT WAS MEANT AS CONDITIONING BECAME IMPRINTING; THE TRAUMA SHE UNDERWENT WAS ENCODED BEFORE CONSCIOUSNESS FULLY FORMED. WHEN SHE AWAKENED, HER BODY WAS FUNCTIONAL, BUT HER PSYCHE BORE THE AFTEREFFECTS OF SIMULATED GUILD & LOSS. RATHER THAN RESOLVING HER INSTABILITY, THE SIMULATION SEVEREL REPRESSED IT & WHILE LUTE EMERGED BEHAVIORALLY CORRECTED ON THE SURFACE [ OBEDIENT, PRECISE, FUNCTIONAL ] THE UNDERLYING FRACTURES REMAINED INTACT, DEEPENED BY TRAUMATIC IMPRINTING. THIS RECONDITIONED STATE, POLISHED BUT COMPROMISED, BECAME THE TEMPLATE FOR THE SECOND WAVE OF EXORCISTS

#✧ narrative | headcanons #cw medical #cw gore #cw needles #[ if by any chance you ever watched Hellsing Ultimate; remember how Mina Harker looked? kind of like that except way less bandages ]

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