integrated sensors monitor

Integrated sensors monitor various parameters—such as current, temperature, and fluid flow—enabling real-time data collection for applications like energy efficiency and predictive maintenance. Scops offers plug-and-play IoT sensors that are wireless, battery-powered, and non-invasive, simplifying installation and providing immediate insights into asset performance. ​

SwitchBot Wireless Temperature Sensor

I just discovered the SwitchBot wireless temperature sensor and I am thrilled about its features! I was looking for a reliable way to monitor the temperature in my home, and this device exceeded my expectations. Has anyone else tried it recently? The reviews I found online are overwhelmingly positive, highlighting its accuracy and ease of use. I love that it seamlessly integrates with my smart home setup. It's great to see a product that delivers on its promises. Any tips on how to maximize its potential?

What Is the Best Approach to Setting Up a Smart Garage?

As homes become more interconnected and smart devices permeate every corner of daily life, the garage is often overlooked. However, integrating smart technology into your garage can significantly enhance convenience, security, and efficiency. So, what is the best approach to setting up a smart garage? Whether you’re looking to streamline your morning routine or boost the security of your home, a…

Importance of Server Temperature Monitoring

Server temperature monitoring is critical for maintaining optimal performance and preventing equipment failure in data centers. By continuously monitoring the temperature of servers and networking equipment, businesses can identify potential overheating issues before they escalate. This proactive approach helps prevent downtime, data loss, and costly repairs. Advanced monitoring systems offer real-time alerts and remote access, allowing IT teams to take immediate action to address temperature fluctuations and ensure the reliability and efficiency of their server infrastructure.

Distribution Automation Solutions Market Trends, Key Factors, Scope, Demand by 2032

Market Overview: The Distribution Automation Solutions Market refers to the market for technologies and systems that automate the monitoring, control, and management of electricity distribution networks. Distribution automation solutions help improve the efficiency, reliability, and flexibility of power distribution, enabling utilities to deliver electricity more effectively. These solutions encompass a range of technologies, including smart grid systems, sensors, communication networks, advanced metering infrastructure, and automation software.

Latest Technological Developments:

Advanced Sensors and IoT Integration: Distribution automation solutions are leveraging advanced sensors and the Internet of Things (IoT) technology to provide real-time data on grid conditions, equipment health, and power quality. These sensors enable proactive maintenance, predictive analytics, and improved decision-making for grid management.

Artificial Intelligence (AI) and Machine Learning (ML): AI and ML algorithms are being integrated into distribution automation systems to analyze vast amounts of data and predict potential faults or disruptions in the grid. These technologies optimize energy distribution, fault detection, load balancing, and outage management.

Edge Computing: Edge computing is gaining prominence in distribution automation by processing data closer to the source, reducing latency and enabling real-time decision-making. Edge devices are used to analyze and act upon data locally, enhancing grid stability and responsiveness.

Distributed Energy Resources (DERs) Integration: With the rise of distributed energy resources like solar panels and energy storage systems, automation solutions are being developed to seamlessly integrate and manage these resources within the distribution grid.

Cybersecurity Enhancements: As automation systems become more interconnected, cybersecurity becomes crucial. New technologies are emerging to safeguard automation solutions from cyber threats, ensuring grid reliability and data privacy.

5G Connectivity: The rollout of 5G networks provides higher bandwidth and lower latency, enabling faster and more reliable communication between automation devices and control centers, enhancing the responsiveness of distribution automation systems.

Scope:

Grid Modernization: Distribution automation solutions play a pivotal role in grid modernization efforts. They help utilities transform traditional grids into intelligent and adaptive systems that can manage distributed energy resources, integrate renewable energy, and ensure optimal energy delivery.

Smart Grid Implementation: The scope of distribution automation extends to smart grid initiatives, which aim to enhance grid efficiency, reliability, and resilience through advanced technologies, automation, and real-time monitoring.

Microgrid Management: Distribution automation solutions are essential for managing microgrids, which are smaller-scale energy systems that can operate independently or in conjunction with the main grid. Microgrids improve energy resilience and enable localized energy management.

Voltage Optimization: Automation systems help in voltage optimization, ensuring that voltage levels are maintained within the optimal range to reduce energy losses, extend equipment lifespan, and improve overall system efficiency.

Load Management and Demand Response: Distribution automation solutions facilitate load management and demand response strategies, allowing utilities and consumers to control energy usage during peak demand periods and balance grid loads.

Asset Management and Predictive Maintenance: The scope extends to asset management, where automation solutions monitor the health of distribution equipment and predict maintenance needs based on real-time data and predictive analytics.

Rural Electrification: In regions with limited grid infrastructure, distribution automation can be used to efficiently manage and optimize power distribution in rural electrification projects, ensuring reliable access to electricity.

 Challenges: The distribution automation solutions market also faces certain challenges, including:

The implementation of distribution automation solutions can involve significant upfront costs. Utilities need to carefully evaluate the investment and assess the long-term benefits and return on investment to justify the implementation.

Interoperability and standardization of distribution automation technologies are crucial for seamless integration and effective communication between various devices and systems. The lack of standardized protocols and interoperability can hinder the deployment and scalability of distribution automation solutions.

The successful implementation and operation of distribution automation solutions require a skilled workforce trained in advanced technologies and system management. Utilities need to invest in training programs to ensure their staff has the necessary expertise to manage and maintain these solutions effectively.

Overall, the distribution automation solutions market offers significant opportunities driven by grid modernization, increasing energy demand, and the need for grid resilience. Addressing challenges related to costs, interoperability, and skilled workforce will be critical for widespread adoption and successful implementation of distribution automation solutions.

 By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

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Market Segmentations:

Global Distribution Automation Solutions Market: By Company

• ABB

• Eaton

• Schneider Electric

• Siemens

• GE

• Hitachi

• Toshiba

• Fuji Electric

• Mitsubishi Electric

• Hyosung

• S&C Electric

• G&W Electric

• Kalkitech

• TBEA

• XD

Global Distribution Automation Solutions Market: By Type

• System-Level Distribution Automation Solutions

• Customer-Level Distribution Automation Solutions

Global Distribution Automation Solutions Market: By Application

• Industrial

• Commercial

• Residential

Global Distribution Automation Solutions Market: Regional Analysis

The regional analysis of the global Distribution Automation Solutions market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Distribution Automation Solutions market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Distribution Automation Solutions in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Distribution Automation Solutions in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Distribution Automation Solutions in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Distribution Automation Solutions in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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Happy Chirstmas Shana! 🎅🏻 I’d love some more F is for Frankenstein that shit is singlehandedly making me care about marvel again

a continuation of 1 2

Supposed damage to the suit hides the fact that he can’t fly it back to New York. He boxes it up and loads it onto one of the company’s private jets that comes to pick him up, which is nerve-wracking despite his lack of nerves. Tony’s body is still in the suit, being maintained and monitored by JARVIS, and it’s going to have to stay there until they have someplace better. At least all the damage to Stark Tower gives him a decent cover for setting up a cryogenic lab.

Pretending to be Tony Stark means no one thinks anything of him pouring himself a stiff drink. Not actually being Tony Stark means it doesn’t do jack shit. He is vaguely impressed at how well the combination of sensors on his tongue and memories integrated into his programming almost makes it seem like he can taste the whiskey. It’s just a shade off, faint and pale in comparison to how it would actually taste, but enough to know.

He's designed for public appearances and that tends to involve eating and drinking. It would be rather unlike himself if he didn’t notice he was being served rotgut.

When he lands, Pepper and Rhodey are waiting for him.

He should have expected that.

Pepper runs, not even wobbling in her very tall heels, and he catches her in easily. He’s still trying to figure out what to say when she kisses him and he freezes, not even a full second, and then he’s kissing her back because he has to, because that’s what Tony would do, and he hates himself.

“Hey,” he says softly when she pulls back, burying her face into his neck. He runs a gentle hand down her back, meeting Rhodey’s eyes over her shoulder and nearly flinching. The pressed together lips, barely held back irritation, and stiff stoicism only comes out when Rhodey’s right on the edge of completely losing it. “It’s alright, everything’s okay.”

Why did he say that? It’s a lie. He’s lying to her.

He’s going to have to lie to her a lot more. It shouldn’t hurt this much. It shouldn’t hurt at all. He’s not even real.

What materials is Biohazard made of? I guess not everything resists radiation

Indeed! No material is totally resistant to radiation; it always depends on the amount of radiation and the exposure time.

Let me get a little nerdy

I clarify and repeat: I'm not an expert on the subject. I did research for this AU in general and thus determined the right materials for the construction of Biohazard. I may be wrong. But this is sci-fi, and some things are improbable but intentional, like Biohazard's melting rays!

Endoskeleton and joints: titanium alloys, stainless steel, and aluminum reinforced with carbon fiber.

Internal components:

Microchips and components: specifically designed to withstand high doses of radiation and encased in a dense layer of ceramic material within a tungsten protective box.

Sensors made with materials resistant to radiation and high temperatures. Integrated into the endoskeleton and protected by a dense covering material.

Actuators: electric or hydraulic motors made with corrosion- and wear-resistant materials. Located within the joints and protected by the endoskeleton.

Metallic lithium-Ion batteries specially designed to operate in extreme environments, housed in a tungsten protective box, away from sensitive components.

Cooling system: copper tubes and non-flammable, radiation-resistant cooling fluids integrated into the endoskeleton to dissipate heat generated by electronic components and shielding.

Protection systems:

Primary shielding: lead sheets and boron-based composite materials, 1.5 centimeters thick.

Secondary/Exterior shielding: tungsten sheets, 1 cm thick.

Biohazard has numerous limbs and components functioning as redundant systems. In the event of a failure, he can continue operating with backups.

He used to integrate cameras and sensors for remote monitoring and data collection. These are no longer operational.

Being made of very dense materials, he's extremely robust and heavy! You practically couldn't lift one of his arms if he were off!

He was very, very expensive to manufacture as well. The frustration was very great when the project "didn't work".

Junkyard Love

(based vaguely on a conversation with @virtualgirladv)

You’ve always loved the scrapyard. The perfect graveyard of parts. The beauty of twisted metal and plastic. The towering walls of robotic corpses, most old chassis's thrown away after an upgrade, others, less fortunate. You’ve lost count of how many times you’ve rebuilt yourself in a place like this, but today you’re not here for yourself.

You have most of this place mapped out by now, after decades of sifting you developed a general understanding of where certain parts tended to pile up. Today that system is really paying off as you speed through the narrow pathways between the monoliths of scrap surrounding you. Bursting into the sunlight of an open part of the yard, your optical sensors slowly adjust to the sudden increase in brightness. You look up, eyes wide as you stare at the mountain of corpses before you.

This is where they keep the newest arrivals, and the least likely to have been picked through. Not great for finding specific parts but perfect if you’re searching for something valuable. You know exactly what you’re here for but it's rare and you’re desperate, you don't care how long it takes.

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

It's been hours, hours sitting under the sun combing through corpses, searching each of them for any parts not taken before they were disposed of. You’ve been through dozens so far, most of them the generic sleek form most people go for, the occasional decommissioned war bot and exotic chassis. You don't have the time to admire the work as you quickly check each one for what you need.  You can feel the heat bearing down on you, the darker parts of your chassis reaching dangerous temps. You can't help but let your mind wander as you continue to search, the oppressive heat sparking memories deep in your hard drives. Decades old memories pouring to the surface, it's been years since you thought about her. She built you in a place like this, she's part of the reason you know your way around here so well. A bittersweet smile crosses your face-plate. Her body is buried under one of these steel monuments. She was only flesh, but she always loved this place and you couldn't bear to see her moved.

You’re interrupted from your trip down memory lane when something catches your eye, across from you in a discarded chassis you haven't searched yet you spot something familiar, the obvious shape of an intact containment unit. You scramble across the metallic forms below you as you frantically grab hold of the unit, turning it rapidly in your hands, searching for any signs of damage. Having confirmed its integrity you don't hesitate, sliding down the mess of empty shells towards your goal.

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

You practically tear the door out of its frame as you come rushing home, slamming your way through the house.

“Babe, I'm back!” You yell through the small apartment.

Darting into the bedroom excitedly, you glance around for a second, sensors still adjusting to the dark room. Across the room you spot her, splayed across your full-sized bed, her bulky form taking up most of the small bed, exposed wiring delicately laying across her beautiful steel body. Her chassis was an ancient design, old and primitive. You cant help but smile at her as she sleeps. She adores her design and wouldn't change it for the world, even if she could. You giggle gently as you carefully cross the room towards her, you love the way her chassis lays in your bed, the subtle whirr of her fans, the way her bulky armour sinks into the mattress, her face plate dimly lit as she rests, the screen simply displaying a sleeping emoticon.

Climbing onto the bed, you crawl your way onto her beautifully heavy form, straddling her hips as you gently press your weight into hers. Her monitor slowly lighting up as she awakens, the confused emote slowly growing excited. You feel her servos and motors kick up as she attempts to sit up into your arms, wincing as she does.

“Hey now, careful, love” you purr, placing a metallic hand on her chest with a clink.

“Bad pain day?” you gently enquire.

A small nod and frustrated sigh escape her speakers, her servos disengaging along with a defeated flash across her screen.

“I’ve got a surprise for you~” you blurt out, unable to contain your excitement.

Before she can respond you reveal the containment unit previously concealed behind your back, a look of recognition flashing on her screen. Her fans increasing speed as she looks into your eyes.

“W-where did you ev-” she stammers out before you cut her off.

“Don't worry about it, bot” you say quickly, trying to ease her worries. “I know it wont help with the pain...or much else unfortunately but...I was hoping it might help you just feel a little better.”

You pause, waiting for a reaction before continuing but she just waits patiently for you to explain.

“I know you cant get a new body…no-not that you would want to but just like, I don't know I thought maybe it would feel nice to get a shiny new...well kinda new...part ya know?” you ramble out, worried you’ve made a mistake.

Panicking at the lack of reaction you start to sit up. You fucked up, you need to get off and give her space, you need to do... something. But before you can escape, her entire body slams into yours, strong arms wrapping themselves around your form, heavy combat armour pressing hard against your sleek, simple chassis.

A small sound escapes her speakers, now pressed up against you. “T-thank you…”

You chuckle to yourself, you’re an idiot, of course you didn't fuck up, how could you with this amazing girlfriend? You gently lay her back down on the bed, careful not to cause too much movement through her system. A smirk curling across your lips.

“Want me to install it now?” you whisper in her ear.

A small whimper escapes her frame as she nods, embarrassed.

“Good girl” you whisper again before sitting upright.

You waste no time, quickly setting the unit down on the bed next to you before opening a small compartment in your abdomen. Pulling out all the tools you need and placing them on her chassis, watching her squirm as you do. You run your fingers under the thick plates covering her chest, fingers gliding until *click* a latch gives way and the armour is released from its seating. Gently lifting it from its position and placing it on the bed next to you, grabbing your tools and carefully reaching inside, stopping briefly at the breach, looking for consent to continue. A slow nod grants you access. You slowly begin unscrewing panels, removing the softer, thinner metal beneath her armour. As you expose more and more of her inner workings you notice her screen changing to a more crimson colour. You adore the way she blushes. She’d never let anyone else remove her armour, let alone get this deep in her internals. You smile at that thought.

*click*

The final piece of metal covering her small nuclear reactor is removed, you can finally begin work on replacing its containment unit. The technology is perfectly safe, with so many fail safes and precautions in place she could do anything in here and nothing would go wrong, but with an old and damaged unit it can limit ones ability to draw energy. You really hope this new one will help. With a small flick and bump you disconnect the old unit, watching as your girlfriends emotes go all fuzzy and warm, the lack of containment making her mind all blurry and hazy. Moving the new unit into place you try to be careful, which is only made more difficult but the squirms and shudders of the robot beneath you. Reaching out with your free hand you place it gently around her neck.

“Be still for me baby, I’m almost done, then we can take it for a spin, ok?” You speak with a hint of command in your tone.

Instantly her body goes still, obeying your every word as her emotes begin to blur into a blushing, whimpering mess. Finally you start to fit the unit into place around her reactor, her heart. Your tongue sticking out as you focus on the final pieces clicking into place, her fans speeding up as you have to put more of your arm into her body to complete the installation. Having everything where it needs to be you lock it into place, and begin to remove your hand before you hear a desperate whimper escape from the bot your currently deep inside.

“What’s that? Does pretty bot want more?” you say, a dangerous smile curling up your face plate.

A moan escapes her speakers, her screen glitching slightly before a desperate “Pleaaaase” finds its way out.

Without needing to hear any more you dive down to meet her body with yours, planting your cold synthetic lips on her screen, playing with her emote with your tongue. You feel the heat rushing into her system as her fans begin blasting warm air into the room, you feel her servos and motors desperately squirming under you, she could easily throw you across the room if she wanted, but she’s too high on your touch to ever try. You wrap your hands around some wires inside her chest, gently stroking them with your thumb, ever so slightly threatening to yank them out. You smile into her screen as she trembles under you, her whole body vibrating as you moan into her chassis.

“Fuck.” Her voice jolts through you, sending shivers down your spine.

You know she’s close, desperate for you to overload her system. Reaching your free hand down between her legs, you feel her cold smooth metal as you begin to rub her, fingers moving fast and rough as you try to push her body over the edge. You watch as her screen begins to glitch more and more, her entire system overloading with power as you stroke her internal wires. Her moaning becomes choked, her movements more erratic and desperate, her hand reaches up to hold your arm as her entire screen turns blue, an error message sprawled across it as her body goes limp beneath you.

You smile gently, looking down at the bulky, semi armoured form below you. It’ll take a few moments before her system is able to boot herself back up, so you get to work quickly, replacing her chassis, screwing parts back together as you close her chest back up and finally click her armoured plate back into place.

You lay yourself down, planting your head onto the bots chest. Holding her tight, you listen to her system slowly begin to power back up, and you smile to yourself.

You’ve always loved the scrapyard.

~~~

If you wanna support me - Ko-fi

WLF-Xb-KNT Wolf Knight

Description:

The WLF-Xb-KNT Wolf Knight is highly specialised one of a kind mech made from primarily the chassis of a Black Knight and a number of parts from a Battlemaster. Made to the whims of a mechwarrior with a strange idea with some mechtech experience, the Wolf Knight was constructed allegedly from a dream, that was then committed to paper, explored and executed. Its primary purpose is to be an upgraded Black Knight with heavier armour, jump jets and extensive re-engineering of the Black Knights interior and sensor suite. The interior was remade to fit a powerful Extra-Light engine. The chassis and frame was remodeled extensively and changing to a more common frame model of pieces of changed BL-7-KNT Black Knight pieces and that of a BLR-1G Battlemaster. Despite its Frankenmech design, the focus on off the shelf parts allows the Wolf Knight an ease of access for repairs and maintenance to a surprising degree despite the heavy modifications. The most taxing parts are its dual Myomer and servo system and the cockpit to sensor connections. The refit process documented the notes of these two extensively but nevertheless requires a very qualified engineer to repair and maintain. It makes extensive use of Triple Strength Myomers that run through the mech coupled with finely and highly tuned actuators, calibrated after the pilot's movements, the Wolf Knight can swing the great blade's motions in its hand with tilts, flicks and even whips in its attacks. This is made possible with a secondary Myomer system that works on tandem with the more powerful one, giving increased agility and precision. Lastly this secondary Myomer system is backed up and tied into an integrated hydraulic servo system with the fibres themselves attached to limit switches for a natural pullback and resistance. The practical nature or battlefield application was contentious even by the refitting engineers but it was found difficult to argue against the one placing the order. One of its most curious features and the namesake is the re-engieering of the sensor suite of the Black Knight. It uses similar principles as the originals Beagle Active Probe system which uses the small laser to scan. Instead it has a second sensor tower, giving it two "ears" on the Knight helmet. Together with the pilot harness this is called the High Oscilation Wave-Length system or H.O.W.L. for short. It functions by generating pulses and frequencies through the heart rate monitor and neurohelmet's brain wave readings. Which in turn create an algorithm that is impossible to predict or even anticipate for a computer. This forms the basis of the skip-frequencies used in the sensor system in its pulses. The effect shifts the Mech's position by one to two meters between pulses on hostile sensors, slightly distorting the Wolf-Knight position, velocity and direction. Even skilled combatants can be caught unaware of their mech suddenly shifting the targeting to compensate. Leading to glancing shots. However the H.O.W.L. system distorts command and control communication over long distance, forcing it rely on short wave range bands. For this reason, it is usually only active during active combat operations in order to allow for strategic coordination. This, along with the precise movements of the arms is achieved by a specially made cockpit. Rather than the usual joystick configuration, the mechwarrior wears a harness that can mimic arm movements of the pilot. In addition it keeps track of the pilot's vitals and uses these together with the helmet to modify the frequencies of of the sensor suite and probe. The harness is heavy to move and is is wholly integrated with the neurohelmet and cockpit at large and tailored for a single individual and does not interact well with ejections.

Armament:

The Wolf Knight wields a large sword in the right, though functionally is follows the design principles of Fedcom-era hatchets. Otherwise the loadout is very similar to that of a Black Knight. A Lord's Light 2 rather than the royal versions' Kinslaughter ERPPC in the left arm allows for long range sniping with an original Maxell DT medium laser mounted under the main cannon. It is supported by two Magna Mk III large lasers as shoulder cannons along with parts of the housing used for a Rifleman. Instead of the the original torso mounted McCorkel mounted in order to make space for the new internal systems. Using parts and housing from a a Catapult on each side of the torso is a pair of Martell Medium Lasers and Omnicron 1000 Small lasers. Allowing the Wolf Knight to brawl with to a similar degree as a standard Black Knight.

Sixteen Double heat sinks allows the Wolf Knight to remain at range and fight without significant overheating. Once it gets close and pounces with the shorter range lasers it can easily activate the full potential of the Triple Strength Myomer system.

Inside the chest of the Wolf Knight however remains the Beagle Active Probe from which the black knight was noted for carrying. It has been wired to a Ceres Metals model 666 Communication system that connects into the Beagle Active Probe together with the original TransComm Beta targeting system.

The engine is connect to a RedLine-F Series Outland Supercharger system that allows the Wolf Knight to pounce on targets with the blade. Four Chillton model 600 Jump jets give it an extra level of mobility. However the XL is a weak point in long engagements where endurance becomes the dominating factor as a single torso side being blown apart would stall the engine.

Made in blender by kitbashing a number of things together.

Wireless IoT Sensors for Efficient Monitoring

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Engineering Ecstasy

[Ao3 Mirror] Pairing: Ramattra/Reader (Gender Neutral, implied to have a vagina) Rating: Explicit WC: 2,065 Warnings: None

-----

Surrounded by tools and screens and lights, Ramattra stands in his workshop and stares at the device before him. It floats softly on a light pad. Beside it, a screen shows off its blueprints, complete with a cut-away view, to show where each piece will lay, where the sensors are suspended, the indicator lights. It's rather a marvel, if he's truly being genuine- the design is custom, the inlaid nodes are all cutting edge, fast and sensitive and durable. Every aspect has been nurtured and guided into the form displayed before him.

And this is the lowest he has ever felt.

Because the appendage that floats before him is an imitation of a human cock. A mockery, even, intended in every way to be better, but perhaps... familiar enough to not be off-putting. He hopes.

It's shameful.

Making the thing itself is not the problem. Life was meant to be enjoyed, omnics were meant to explore and seek new experiences and integrate themselves among humanity- sex was a part of that. Even at the monastery it wasn't unusual for those omnics that had the hardware to use it- and to discuss the implications of having it to begin with. But he did not envy his brothers and sister who were made with genitals. Ramattra had never seen the appeal; all the ecstasy and release from sensory overload could be achieved without any attachments.

He had not understood the desire until you.

You and your laughter that plays endlessly in his memory banks, your soft, fleeting touches to his plating that tingle hours after, your kind words that pull his mind from the task at hand. He's itched endlessly to reach out and touch you, to know what it is about you that's made his processors hang, caught endlessly in the minutia of your existence. And how he wishes it was just simple fascination- he hates how quickly it turned to him prodding at his own sensory nodes, plucking wires in his hips and wishing it was your hands instead.

This- the purple silicone device in his hand- is only the latest fantasy he's indulged.

After all, what if he were to finally approach you and you were uninterested in toying with his systems? And even if you were, he wouldn't be able to please you at the same time-- he would not risk an unintentional twitch of his hands. This... this was just an investment in the future. He hadn't quite gathered your input on the design or shape or size-- or expressed his interest in you at all-- but he'd invested time to research popular shapes, ones well-received by humans. This... he's fairly sure will please you, if you let him- and if it isn't to your tastes, then he'll make it again and-

...

He should probably test it, before he gets ahead of himself.

He takes the cock in one hand and examines the ports, where it will connect to his frame. He squeezes it, feeling the firmness of the silicone. Honestly, he isn’t sure what density he was aiming for; it’s so much softer than his plating, he has no idea what would be ideal. Not just for what you want from him either; if the silicone's curing has somehow distorted a wire or dulled the sensors’ abilities, then the whole design will have to be scrapped.

Ramattra's hands shake as he disconnects the paneling at the end of his torso. Before, this little crevice had only housed a chip for monitoring the health of his hip joints. Now that was pushed further back towards his spine- with a minor upgrade to allow for more precise movements, smoother rotation of the joint- given the purpose of the device, it felt appropriate to make sure he could use it correctly. Where the chip had sat before is a new plate with two jack outputs.

They line up with the ports, at least. Ramattra allows himself one more moment of preparation before slotting them together. The circuits connect at once- and the buses inside are still working, aligning themselves with his systems, synchronizing, adjusting the pre-loaded drivers, running a self-check automatically. The internal display of his model updates- and another wave of shame nearly makes him pluck it off again as the cock- his cock- appears on the diagram.

The self-check concludes, the indicator lights flash green- muddied through the purple- then match his preset red. Every system reports back: ready, online. Between his legs his cock stands proudly. The translucent silicone glows where the red lights shine just under the surface.

He could leave it at that…

but he should test the sensors. After all, they all might be online, but they still might need adjustments. He has no idea if the silicone has disturbed their functionality at all. Hesitantly, as though the appendage would burn him, Ramattra touches the surface above one LED. It's smooth and cool to the touch. Something prickles in his sensory subroutines, the data input on his cock is so minuscule and yet so sensitive.

He wraps one finger and thumb around the base. Instantaneously, warmth spreads through his circuits, settles into those wires at his hips. He strokes upwards-

”Aaah…” The noise slides from his voice box unbidden, a kernel-level reaction to stimuli coming forth unintentionally. And Ramattra would make a note to investigate that, to minimize uncontrolled reactions- except that every process is overridden by the drag of silicone on metal, on the rubber pad of his palm, on how every wire in his body is lighting up.

One stroke and it’s like you’ve breathed on every sensor in his body. And you- how does his mind always wander back to you?- your hands would be so much smaller, softer- delicate, even. You would- he shudders, delves into fantasy- You would start so slowly, fingers barely touching him. His hand mimics his thoughts, loosening until there’s barely any pressure, stroking so slowly it hurts. Maybe you’d be nervous- it’s okay, he would be too.

And you- you would see how he’ll try to be still, to let you explore him, and you’d see how badly he needs more. You would be kind to him, wouldn't you? With those soft smiles, you wouldn't deny him. At least, in his fantasy. His grasp tightens again, thinks only of your little hands on his cock.

Each motion brings fire through his circuits, a haze to his mind. You… oh, you could do this to him as long as you wanted. Forever, maybe, if it always felt like he was burning from the inside out. Maybe... you would touch him elsewhere, too. Perhaps bracing yourself against his chest or shoulder, or exploring his ribbon cables or along his neck, down the sensitive, covered wires of his spine. He can almost feel you, your weight across his thighs, stroking with one hand and holding him close with the other- and he would hold you, splay his hands across your back and lean in closer to press his array to your forehead.

The thought alone has him shuddering, warmth spreading in his chest and-

and he needs more.

He would whisper to you, May I have you?, but even in his own mind he sounds desperate, aching.

It wouldn't matter, because you would say Yes, of course, I'm yours.

He groans aloud at the last one; yes, yes, he wants- he needs you. To have you, not just in physicality, but in every other way he can imagine. And he imagines much. Like how you'd move, how you'd reveal yourself to him. It isn't what lies beneath that excites him- it's you doing it at all, showing him what you hide from everyone else. Letting him explore you the same way, though he's not sure what you would feel like. Most of his experience with human skin and flesh is not what he wants to associate with you, so he skims this part of his fantasy until he's prodding between your thighs.

The internet has helped him visualize this part. He may not know what sensations you would provide him there, but he can picture your face when he slides into you. How your brow pinches, how your lips part- and you would be so wet for him-

and suddenly the drag of metal and rubber on silicone is not nearly enough. He needs- he needs to know how it would feel, that slickness you would surround him with. His workshop table provides an obvious option. A bottle of machine lubricant would be close enough- anything at all to sate the impulse. He pours the oil over his hands- and thinks of his fingers covered in your arousal instead.

When he strokes this time, there's hardly any friction at all. A smooth glide from root to tip has him throwing his head back, voice box crackling out another broken moan. All of that burning inside becomes liquid, waves of hot pleasure that crash over him with stunning ease. His hips twitch into his palm- and he lets the instinctive chase of desire take over, fucking into his fist with abandon.

He imagines you on top of him- and oh, he'd have to be so gentle with you, but he can't with himself now. He'd hold you, careful with his hands when his hips aren't. You'd cling to him, barely keeping yourself up as he fucks you- and he likes that, how you'd melt against him in pleasure. The pleasure he gives you. You would trust him with this, that he wouldn't harm you. And in turn, the moans he's heard in his research would be nothing compared to the noises from your lips. Would you be loud, quiet? Would you call his name- oh, yes- an overheat warning pops into his HUD, he likes that. How you'd sound saying his name, moaning it in broken tones, like his staticked voice as he pleases you until you-

his frame shudders as he strokes himself faster, imagines how your face would twist and pinch as you'd near your end with him. Would you tremble when you finished? And inside, what does it feel like in-

His ventilation falters, half his fans seizing as tips over the edge. Pleasure floods the same wires he used to manipulate, a white static rushing through every logic circuit, drowning out every thought as his body rushes to dump the excess sensory input. Heat surrounds him- literal heat, as his processors run and run with no coolant pumping. A droning noise fills his workshop- and it takes much too long for him to realize it's his own synth.

A pop-up tells his release vents have opened- a quiet hissing of steam and hot air rushing out somewhere. His fans resume their buzzing pace as he finally begins to cool off.

Ramattra falls back onto his workshop table and lays there, waiting for his systems to completely refresh- and enjoying the lingering tingles like sparks between wires. After only a few moments the high has passed, systems flushed and returned to working order. An automatic check returns ready, online across every parameter.

And Ramattra is left with his own cock once more standing proudly between his thighs. Perhaps that would be awkward for you, in the time afterwards.

Afterwards. When you're flushed and panting and curled up next to him- you would stay, wouldn't you? He's read humans need care once the activity itself has concluded. His refresh would mean he could tend to you in whatever way you needed; sustenance, contact (though, he would have to purchase pillows), perhaps he could clean you. A stray thought slips by, the image conjured before he can stop himself: What would you look like with...?

The shame returns, but Ramattra suspends the feeling and adds a note to the blueprints of his cock- should he make another, he'll add a fluid reservoir tank. It's practical, he argues. Self-lubrication would make this much easier.

With an internal tank he could leave his fluids on you- in you. Non-toxic- in case you wanted to... A prickle of stray electricity runs down his spine. His fist curls around the silicone again, still slick with oil. With the thought of your tongue peaking out to taste him, he can't stop himself from beginning to stroke again.

After all, another set of data would be very useful...

Do Dreadnoughts dream of taking a bath?

#Inspired by PowerWash x Warhammer 40K and Roco.

#I love Dreadnought.

"Do Dreadnoughts dream?"

That is a question with no certain answer. On one hand, a Dreadnought is more machine than man, neural implants fuse mind to machine in ways bizarre to comprehend. Their armored carapace shelters only remnants of flesh, sustained through bionic might alone. By all rights, their cerebral cortex should have decayed long ago.

By such logic, one could argue conscious thought ends where flesh yields to steel. Sleep and its dreamscapes are biological realities, are they not? With only trace humanity remaining, why expect mental functions of slumber? But integrated into their armored shells are enough enhanced organs and neural implants to sustain bioniorganic functions far beyond mere biological viability. Isn't the nature of dream itself stems from biological instincts overwritten.

The pain was a dull ache, easily ignored after centuries entombed. But a new irritation assailed him now, crawling itches across flesh long denied sensation. Confusion, this body felt change, though it had lain inert as worlds turned. Deeper still came the oppression, lungs seizing as if drowning once more in bloody. 

What trickery was this? Diagnostics reported stasis, all systems firing true. Yet the discomforts grew, phlegmy coughs racking the half-machine beast. Panic swelled, animal instincts long dormant rising within the eternal tomb. Then light, piercing the darkness behind closing lids. Sweet air rushed into ruined lungs, this labor easing at last. 

His eyes snapped open to an unfamiliar realm. No armored bulk rose before him but limbs scoured by shrapnel and burned by virus-bombs. His original form, given once more against all reason, a gift or curse, he knew not. Unfettered he stood, wounds healed to bare scars across taut flesh. This was a dream, or something. 

An uncertainty gripped him. What madness was this? To be returned to old flesh but feel no urge to battle, no call to crusade? A different impulse arose, foreign but ingrained, cleansing ritual performed eons past in youth. He walked uncertain, waters calling him to rites unseen by any in aeons untold. 

Ribs still bore flecks of ceramite and plasteel patched within living shell. He paused before the waters, studying form that had known only warfare. Scars told their own tales, each etched upon memories kept alive through aeons in stasis. With care he entered in that, waters lapping old wounds as if in benediction. 

There he lingered, letting cares and pains wash freely away. Muscles long locked in adamantium relaxed, tension fleeing in steam rising. For the first time in memory untold, no demands of duty or flesh assailed him. A feeling swelled within him, emotion locked beyond reach of mortal sensation. Peace, serenity swept over ancient minds as waters sloughed away cares of ages...

Pain pulsed through his battered form as consciousness returned. The fleeting peace of dreams melted away, centuries of enforced half-life onboard the Dreadnought crashing back upon ancient shoulders. Systems booted sluggishly, sensors recalibrating after solaris of monotony disturbed. 

A hum escaped grille as servos whirred back to their duties securing crumpled flesh deeper than mortal sight could pierce. Outside clangs and grinding announced the diligent ministrations of tech-priests ensuring their perpetual charge clung yet to shadow of function. One voice carried clearly through armored carapace:

"Vitals stabilize in sector C-12 Magos. Neural links firing within tolerances." The Tech-priest's voice rang through microphones.

"Understood. Continue maintenance protocols and monitor for anomalies. This relic has served faithfully many centuries. Pray for the Omnissiah." The Magos's bionics buzzed in compliance. They ensured history marched on, whatever hulls preserved that march.

With effort, aged vox-grille creaked open. "Brother, I was dreaming." Static laced speech imparted by cobbled augmetics mere palliates for ravaged throat too ruined for basic sounds. The Techmarine's etheric sensors detected words nonetheless.

A static pause preceded Techmarine's reply. "Dreaming? Impossible, your neural engrams show only baseline activity."

Mirthless chuckle issued from loudspeakers. "Impossible, yes, But I dream... I'm taking a bath." 

Silence answered as Techmarine puzzled over the incomprehensible scene. "The priests scrub your plating clean as monthly rite. Perhaps some synapse misfired."

Silence reigned for moments uncounted as ritual continued outside. Then, a final whisper from within. "Indeed. A... nice dream." 

With that, consciousness fell back into lowest-level rest as painkillers suffused systems. The Techmarine watched monitors return to quiescent patterns, then signaled to close the Dreadnought once more. Its machine spirit's notions were beyond his. The armored tomb closed, and darkness reigned once more.

What Are the Latest Breakthroughs in Wearable Tech?

In 2024, the world of wearable technology is evolving faster than ever. With advancements spanning health, fitness, productivity, and even entertainment, wearable tech has become an integral part of daily life. But what are the latest breakthroughs in wearable tech, and how are they shaping the future? From AI-driven health monitors to augmented reality (AR) devices, new innovations are pushing…

A Modern Leak Detection System

Leak detection is a crucial aspect of maintaining safety and preventing damage in various industries. Whether it's detecting water leaks in plumbing systems, gas leaks in pipelines, or chemical leaks in industrial settings, early detection is essential to mitigate risks and prevent costly consequences. Advanced technologies such as sensors, acoustic devices, and infrared cameras play a vital role in quickly identifying leaks and allowing prompt intervention. Implementing robust leak detection strategies ensures proactive maintenance, environmental protection, and operational continuity across different sectors.

Kickr Run Treadmill Review

Our True treadmill was 20 years old and though still functional was starting to show its age after thousands of miles. I did some research on the new Wahoo Kickr Run treadmill and was intrigued. We have two Kickr bike trainers and I've ridden thousands of miles on mine. When it started to malfunction 3 years after purchase, they replaced it quickly for free. That's the kind of company that deserves more of my business.

The treadmill has received universally positive reviews, especially from DC Rainmaker. I like running on a treadmill and I envisioned doing run workouts similar to those I can do on the Kickr bike trainer. I can program very detailed (I.e. exact watts) bike workouts in Zwift and Training Peaks and expected to do the same on their treadmill. The treadmill also has a unique innovation called RunFree in which a sensor monitors your position on the belt and automatically speeds up or slows down as you move forward or back on the belt. Just start running faster and the belt speed will instantly adjust.

The Kickr treadmill is a 400 lb beast. Wahoo requires that it be professionally delivered and setup and it must have a dedicated 15 amp circuit. The treadmill is very well made and sturdy and I'm confident it will last for many years. It is one the few treadmills that can be used to run a 4 minute mile (not that I will ever experience this). Wahoo correctly assumes that most people have their own TV so instead of attaching a crappy one they provide a deck for tablet or laptop with an integrated USB C charging port. That's the perfect solution for using the treadmill in a virtual environment like Zwift.

I ran 20 miles on the treadmill this afternoon and while I can't say the time flew by, it was a good experience. The treadmill works well in Zwift and automatically adjusted the incline (including a 3% decline) as I ran a Zwift course. The incline and speed paddles are intuitive and responsive. Unfortunately you cannot program a run workout in Zwift like you can for the Kickr bike trainer and according to a Zwift help desk rep, it isn't on the roadmap. Wahoo has its own app that includes some preprogrammed training workouts though. It is possible to create a running workout in Training Peaks, but with limited specificity - for example you can't program 400 meters at an 8:00 pace, you have to choose a Zone or percentage of threshold.

The other disappointment was the RunFree function. It is too dynamic, constantly changing the speed of the belt. I've run thousands of miles on a treadmill and wasn't able to stay in the 2 cm zone of the belt which would ensure a consistent speed.

Our last treadmill cost $3,800 in 2005 and lasted 20 years. The Kickr cost - $5,500 (including delivery) and I expect it will last as long. Although I'm a little disappointed in some of the features, I'm still happy with it.

For years, Prof. Bozhi Tian's lab has been learning how to integrate the world of electronics—rigid, metallic, bulky—with the world of the body—soft, flexible, delicate. In their latest work, they have created a prototype for what they call "living bioelectronics": a combination of living cells, gel, and electronics that can integrate with living tissue. Their study was published May 30 in Science. The patches are made of sensors, bacterial cells, and a gel made from starch and gelatin. Tests in mice found that the devices could continuously monitor and improve psoriasis-like symptoms, without irritating skin. "This is a bridge from traditional bioelectronics, which incorporates living cells as part of the therapy," said Jiuyun Shi, the co-first author of the paper and a former Ph.D. student in Tian's lab (now with Stanford University).

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