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dynaloginc · 2 months ago

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Revolutionizing Precision: How Automated Measuring Systems Are Changing

The Game In today’s high-tech manufacturing and robotic landscape, precision is no longer a bonus—it's essential. As industries have stricter tolerances, faster production times, and flawless quality control, you can push the limits with specialized automated measuring systems—precision, efficiency and reliability in ways traditional measurement cannot support—and Dynalog is leading the way.

What are Automated Measuring Systems?

Automated Measuring Systems (AMS) use sophisticated technology to perform measurements automatically, without operator input. Automated Measuring Systems use a combination of sensors, robotics, software and analysis to provide measurements with extremely high accuracy, in real time. AMS can verify dimensions on a complex piece of material, check the position of the end effector on a robotic tool, or complete an entire inspection routine---and can do this quickly, at a consistent level of accuracy. For the manufacturer or production facility, AMS provide lower risk of error, faster throughput, and a better quality of product quality. It is not surprising that companies, like Dynalog, are advancing these systems for industries such as automotive, aerospace, electronics and medical device manufacturing.

The Importance of Accuracy is UndeniableIn manufacturing,

a difference of just 0.01mm can mean the difference between a product that works perfectly and one that does not work. As parts become smaller and more complicated, the margin of error is decreasingly smaller! Manual measurement is often human error-prone, slow, and inconsistent.

That’s why Dynalog has automated measuring systems.

Automated measuring systems take human error out of the equation and provide repeatable, consistent, real-time measuring data. With real-time feedback, manufacturers can change their processes on the spot, eliminating scrap and saving money.Dynalog: The Leaders in Robotic Accuracy and CalibrationAt Dynalog, accuracy is not just a marketing statement, accuracy is at the core of everything they do. With extensive experience in robotic measuring, calibration, and inspection systems, they build state-of-the-art solutions for the next generation of manufacturing.Automated measuring systems integrate with robotic arms and production lines, every movement and measurement is accurate and traceable. From Robot TCP Calibration to validating robot performance, Dynalog measuring systems are for manufacturers that cannot afford to be inaccurate.Key Dynalog Solutions for Automated MeasurementDynaCal® – A cutting-edge robotic calibration system providing sub-millimeter accuracy

Advantages of Automated Measurement Systems in ManufacturingLet's look at the rationale of why automated measurement is becoming the new standard in the industry:

1. Superior PrecisionAMS (Automated Measurement Systems) eliminate the subjectivity of the human eye and achieve measurements to the micron level of precision. For high-stakes industries like aerospace and medical equipment where safety is a stringent criteria, this level of precision is critical.

2. Accelerated Production Cycles Manual inspections hinder production, whereas with AMS, measurements occur in real-time—in-line or near-line—removing bottlenecks and even shortening delivery times.

3. Minimized Scrap and ReworkBy identifying deviations early in the process, manufacturers can take steps to correct defects prior to irreversible mistakes, resulting in more yield and less scrap.

4. Data-Driven DecisionsDynalog's systems not only measure, but they analyze. The real-time data can be accessed and input into process control systems to help engineers make informed data-based decisions for continuous improvement.

5. Easy Updated IntegrationToday’s AMS systems, like Dynalog's, can actually integrate with the existing robotic systems and software, creating a quick, affordable transition to your automated solution.

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journosatyam · 8 days ago

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how-israel-protects-itself-from-enemies-amid-clash-with-hamas-iran

ईरान, लेबनान, गाजा, हर तरफ दुश्मन, फिर भी कैसे अजेय है इजरायल?

इजरायल उन देशों में शुमार है, जिनकी सीमाएं, चौतरफा दुश्मन देशों से घिरी हैं. एक पड़ोसी ऐसा नहीं है, जिससे इजरायल की दोस्ती हो. चौतरफा इस्लामिक देशों से घिरा यह यहूदी देश अगर जंग न करे तो खुद खत्म हो जाए. 7 अक्तूबर 2023 के बाद दुनिया इजरायल की क्रूरता के किस्से सुना रही है. संयुक्त राष्ट्र संघ से लेकर पश्चिमी देशों तक, सबने एक सु�� में इजरायल की कड़ी आलोचना की है, प्रतिबंधों का ऐलान किया है लेकिन इजरायल ने न ईरान को बख्शा है, न ही गाजा पट्टी में महीनों से जारी सैन्य तबाही रोकने के लिए तैयार हुआ है. अब इजरायल ने ईरान के परमाणु ठिकानों पर हमला बोला है.

हमला इतना खतरनाक था कि ईरानी रिवॉल्यूशनरी गार्ड के चीफ हुसैन सलामी ढेर हो गए. लेबनान में हिजबुल्लाह आतंकियों को बैकअप देने में ईरानी रिवॉल्यूशनी गार्ड की मदद जगजाहिर है. इजरायल ने परमाणु ऊर्जा संगठन के पूर्व प्रमुख फिरेदून अब्बासी की भी मार दिया है. इस्लामिक आजाद यूनिवर्सिटी के अध्यक्ष मोहम्मद मेहदी तेहरानची को भी इजरायल ने ढेर कर दिया है. इजरायल ने साफ ऐलान किया कि जब तक ईरान की तरफ से पैदा होने वाले हर खतरे को वह खत्म नहीं कर देगा, जंग नहीं रुकेगी.

पूरा आर्टिकल पढ़ने के लिए नीचे लिंक पर क्लिक करें👇

ईरान, लेबनान, गाजा, हर तरफ दुश्मन, फिर भी कैसे अजेय है इजरायल?

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wohrparking · 3 months ago

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Parking Peace of Mind: How Wohr’s Automated Systems Keep Your Vehicle Safe

Finding a safe spot in a crowded city is a challenge. Scratches, dents, theft—traditional parking comes with risks. Your vehicle is constantly exposed to external threats, from careless drivers to intentional vandalism. But what if your car could park itself in a secure, damage-free, theft-proof space, eliminating these risks? That’s where Wohr Parking Systems steps in. With cutting-edge automated parking safety features, Wohr’s solutions ensure your vehicle stays as safe as when you left it.

As urban spaces become more congested, the need for smart parking technology is more critical than ever. Wohrparking offers a range of advanced parking solutions that go beyond just space-saving; they actively prevent vehicle damage and theft. With robust parking technology for theft prevention, Wohr’s automated solutions provide a level of protection that traditional parking methods simply cannot match.

How Wohr Automated Parking Systems Ensure Vehicle Safety and Security

Zero Human Error = Zero Damage

Most parking mishaps happen due to human misjudgment. Wohr’s automated parking systems eliminate driver involvement, ensuring perfect vehicle placement without dings or scrapes. Systems like the Parklift series use precise mechanical movements, protecting your car from accidental bumps. Automated vehicle damage prevention is a key feature of these solutions, making them a top choice for secure and damage-free parking.

Theft-Proof Parking with Secure Enclosures

Car theft and vandalism? Not in a Wohr car parking system. Vehicles are stored in enclosed, access-controlled spaces, eliminating unauthorized access. The Parksafe 580 and other tower/pit storage models make theft practically impossible. Reducing vehicle theft with automation is a priority in Wohr’s design, ensuring secure automated parking solutions.

Advanced Sensors: Smarter, Safer Parking

Wohr integrates ultrasonic and infrared sensors to detect obstructions and prevent accidents. These sensors also monitor weight distribution, ensuring the system operates smoothly and safely. If anything’s amiss, the system halts immediately, preventing damage. Innovations in parking security like this make Wohr a leader in parking system innovations.

Emergency Braking & Safety Mechanisms

Unforeseen failures? Wohr has that covered! Built-in emergency braking systems stop platform movement during malfunctions, preventing sudden drops or collisions. Wohr system safety mechanisms ensure that even in unexpected situations, your vehicle remains protected.

Hassle-Free, Secure Car Retrieval

Forget reversing out of a tight spot! Wohrparking solutions deliver your car directly to you, ensuring a smooth, damage-free parking system experience. No need to navigate narrow ramps or tight corners—just collect your vehicle and go. Safety in smart parking solutions ensures a stress-free experience every time.

Automated Maintenance: Consistent Safety Checks

Wohr’s parking technology self-monitors for maintenance needs, running diagnostics to prevent mechanical failures before they happen. This proactive approach ensures a flawless, long-lasting, and safe parking experience. Advanced parking solutions like this reduce downtime and enhance automated car parking security measures.

Wohr Parking Safety Features: Technology that Protects

Wohr’s smart parking technology is designed to enhance secure vehicle parking technologies. Some key highlights include:

Automated Parking Systems Features - Automated lifts and turntables accurately position vehicles without any driver intervention, reducing the risk of misalignment or scratches

Parking technology for theft prevention - Biometric access controls, PIN-based authentication, and RFID-enabled systems make it virtually impossible for intruders to gain entry.

Future of secure parking systems - Wohr is pioneering smart parking technology with real-time monitoring systems, predictive maintenance alerts, and AI-driven surveillance that enhance security

Vehicle protection innovations in automated parking systems - With real-time diagnostics, predictive maintenance, and fault detection technology, vehicles are safeguarded from potential mechanical failures.

Wohr automated parking solutions for theft prevention and vehicle security. With features such as multi-layered access authentication, enclosed storage systems, and automated retrieval protocols, Wohr significantly reduces the risks of vehicle damage and theft.

Why Wohr? The Future of Secure Parking is Here

Wohr isn’t just building parking systems; they’re engineering peace of mind. Their commitment to safety, security, and innovation ensures that every car parked in their systems is protected from theft, damage, and human error.

With AI-driven monitoring, IoT-enabled tracking, and smart automation, the future of parking is here—and it’s safer than ever. Benefits of using Wohr automated parking for secure vehicle storage are evident, making it the go-to choice for urban parking solutions.

As cities continue to grow and parking challenges become more complex, Wohr Parking Systems is leading the charge in redefining automated parking safety. Their solutions offer parking technology for theft prevention, automated vehicle damage prevention, and seamless convenience for modern drivers. By combining innovative engineering with state-of-the-art security measures, Wohr ensures that every vehicle is protected from both theft and accidental damage.

If you’re looking for a future-proof, secure, and hassle-free parking experience, it’s time to park smarter, park safer, and park with Wohr!

#automated parking safety #advanced parking solutions #secure automated parking #parking system innovations #smart parking solutions #Advanced car parking solutions #automated car parking security measures #smart parking technology

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vivencyglobal · 6 months ago

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Comprehensive Security Solutions by Vivency Global

Protect your business with Vivency Global's advanced security solutions. We specialize in tailored services to safeguard your assets and ensure safety across industries. Experience top-tier protection with our innovative approach to security.

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rawabialmahfar · 8 months ago

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https://justpaste.it/Advanced-Industrial-Instrumentat

#construction #saudi arabia #Advance Measuring Industrial Instruments Company #Industrial Instrumentation Control Systems

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semcoinfratechworld · 9 months ago

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Advancements in Precise State of Charge (SOC) Estimation for Dry Goods Batteries

In the dynamic world of dry goods batteries, accurately determining the State of charge estimation (SOC estimation for dry goods batteries) is crucial for optimal performance and longevity. This article explores two widely used methods for SOC estimation for dry goods batteries: the Anshi integral method and the open-circuit voltage method. By examining their mechanics, strengths, and limitations, we aim to understand each method's suitability for different battery types clearly, highlighting recent advancements in SOC estimation.

I. The Anshi Integral Method

The Anshi integral method precisely calculates SOC by considering critical variables such as charge and discharge currents, time, and total capacity. This method is a cornerstone of Precise SOC estimation technology and is versatile and suitable for various battery chemistries.

Operational Mechanics

Current Measurement: Accurate measurements of charge and discharge currents using high-precision sensors are fundamental to SOC measurement for dry batteries.

Time Integration: Integrating measured currents over time to determine the total charge transferred utilizes advanced SOC algorithms for batteries.

SOC Calculation: Dividing the total charge transferred by the battery's capacity to obtain SOC ensures Accurate SOC estimation methods.

Strengths

Versatility: Applicable to different battery chemistries, enhancing Dry goods battery SOC improvement.

Robustness: Resilient to noise and parameter variations, supporting reliable Battery state of charge monitoring.

Accuracy: Provides precise SOC estimation when combined with other methods, contributing to Improving SOC estimation accuracy.

Limitations

Sensor Dependence: Accuracy relies on the quality of current sensors, affecting overall Battery management system SOC.

Temperature Sensitivity: SOC calculation can be affected by temperature variations, necessitating adaptive measures.

Computational Complexity: The integration process can be computationally expensive, impacting real-time applications.

II. The Open-Circuit Voltage Method

The open-circuit voltage method estimates SOC by measuring a battery's voltage when no load is connected. This method is particularly effective for ternary and lithium manganate batteries due to their unique voltage characteristics, representing significant Innovations in battery SOC tracking.

Operational Mechanics:

Voltage Measurement: Measuring the battery's open-circuit voltage is a fundamental aspect of State of charge estimation techniques.

SOC Lookup Table: Comparing the measured voltage to a pre-constructed lookup table utilizes Battery SOC prediction advancements.

SOC Determination: Obtaining the corresponding SOC value from the lookup table ensures reliable Real-time SOC estimation for batteries.

Strengths:

Simple Implementation: Requires minimal hardware and computational resources, making it an Accurate SOC estimation method.

High Accuracy: Provides precise SOC estimates for specific battery chemistries, enhancing SOC measurement for dry batteries.

Temperature Independence: Relatively unaffected by temperature variations, improving overall SOC estimation accuracy.

Limitations:

Limited Applicability: Effective only for batteries with well-defined voltage-SOC relationships, restricting its use.

Lookup Table Dependence: Accuracy depends on the quality and completeness of the lookup table, highlighting the need for comprehensive data.

Dynamic Voltage Fluctuations: Self-discharge and other factors can affect open-circuit voltage accuracy, challenging State of charge estimation.

III. Suitability for Different Battery Types

The open-circuit voltage method is generally applicable, but its accuracy varies depending on the battery chemistry:

Ternary Batteries: Highly suitable due to distinct voltage-SOC relationships.

Lithium Manganate Batteries: Performs well due to stable voltage profiles.

Lithium Iron Phosphate Batteries: Requires careful implementation and calibration for accurate estimation within specific SOC segments.

Lead-Acid Batteries: Less suitable due to non-linear voltage-SOC relationships.

IV. Factors Affecting State of Charge Calculation

Several factors influence SOC estimation accuracy:

Current Sensor Quality: Accuracy depends on high-precision sensors, critical for Battery state of charge monitoring.

Temperature Variations: Battery capacity changes with temperature, affecting SOC calculation.

Battery Aging: Aging reduces capacity and increases internal resistance, impacting SOC accuracy.

Self-discharge: Natural discharge over time can lead to underestimation of SOC.

Measurement Noise: Electrical noise in the system can introduce errors in SOC calculation.

V. Enhancing SOC Estimation Accuracy

To achieve accurate SOC estimation, several strategies can be employed:

Fusion of Methods: Combining the Anshi integral method with the open-circuit voltage method improves accuracy by leveraging dynamic and static information, representing key Advancements in SOC estimation.

Adaptive Algorithms: Real-time data-driven algorithms compensate for changing battery parameters and environmental conditions, enhancing SOC algorithms for batteries.

Kalman Filtering: Advanced filtering techniques reduce measurement noise, enhancing accuracy and reliability.

VI. Impact of Accurate SOC Estimation

Accurate SOC estimation has significant implications across various applications:

Optimized Battery Usage: Avoiding overcharging and deep discharging extends battery life and enhances performance, contributing to Dry goods battery SOC improvement.

Improved Safety: Reliable information on remaining capacity prevents safety hazards associated with improper charging or discharging.

Extended Battery Lifespan: Minimizing stress on batteries prolongs their lifespan, reducing costs and environmental impact.

Efficient Battery Management: Accurate SOC information enables optimized charging, discharging, and prevention of premature failure, integral to Battery management system SOC.

VII. Applications in Various Industries

Accurate SOC estimation finds applications beyond dry goods batteries:

Renewable Energy Systems: Optimizes energy storage in solar and wind power installations.

Electric Vehicles: Predicts driving range and optimizes battery performance, leveraging Battery SOC prediction advancements.

Portable Electronics: Provides reliable information on remaining battery life in smartphones and laptops.

Medical Devices: Ensures reliable operation of battery-powered medical devices for patient safety.

VIII. Future Development

Advancements in SOC estimation can be expected in the following areas:

Advanced Machine Learning Techniques: Analysing data patterns for even greater accuracy.

Battery Health Monitoring Integration: Comprehensive insights into battery performance and failure prediction.

Wireless Communication: Real-time monitoring and remote battery management, enhancing Real-time SOC estimation for batteries.

Conclusion

Accurately estimating State of charge estimation is crucial for optimizing dry goods battery performance and lifespan. Understanding the mechanics, strengths, and limitations of the Anshi integral method and the open-circuit voltage method allows informed selection and implementation for different battery types. As technology progresses, further advancements in SOC estimation techniques will enhance the efficiency and reliability of dry goods batteries across diverse applications, driving forward Innovations in battery SOC tracking and Battery SOC prediction advancements.

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dental1231 · 1 year ago

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Periodontal Treatment: Glenview's Strategy Against Gum Disease | Best Dentist in Glenview

Combatting gum disease is a critical component of optimal oral health, and in Glenview, the frontline defense is at "The Dentists on Golf," recognized as the best dentist in the area. Our practice takes pride in offering advanced periodontal treatment strategies to address gum disease effectively.

As your trusted dentist near Glenview, we understand the importance of maintaining healthy gums for overall well-being. Gum disease, if left untreated, can lead to serious oral health issues and even impact your systemic health. At "The Dentists on Golf," our experienced team specializes in providing periodontal treatment in Glenview to tackle gum disease at its roots.

Our approach involves thorough assessments, including probing depth measurements and examinations to determine the severity of gum disease. We tailor periodontal treatment plans to each patient's unique needs, offering personalized solutions to restore gum health. Utilizing state-of-the-art technology, "The Dentists on Golf" provides comprehensive periodontal treatments near Glenview, including scaling and root planing, laser therapy, and other advanced techniques. Our commitment to being the best dentist in Glenview extends to ensuring that our patients receive the most effective and comfortable periodontal care available.

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romerona · 4 months ago

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Ethera Operation!!

You're the government’s best hacker, but that doesn’t mean you were prepared to be thrown into a fighter jet.

Bradley "Rooster" Bradshaw x Awkward!Hacker! FemReader

Part I

This was never supposed to happen. Your role in this operation was simple—deliver the program, ensure it reached the right hands, and let the professionals handle the breaching.

And then, of course, reality decided to light that plan on fire.

The program—codenamed Ethera—was yours. You built it from scratch with encryption so advanced that even the most elite cyber operatives couldn’t crack it without your input. A next-generation adaptive, self-learning decryption software, an intrusion system designed to override and manipulate high-security military networks, Ethera was intended to be both a weapon and a shield, capable of infiltrating enemy systems while protecting your own from counterattacks in real-time. A ghost in the machine. A digital predator. A weapon in the form of pure code. If it fell into the wrong hands, it could disable fleets, and ground aircraft, and turn classified intelligence into an open book. Governments would kill for it. Nations could fall because of it.

Not that you ever meant to, of course. It started as a little experimental security measure program, something to protect high-level data from cyberattacks, not become the ultimate hacking tool. But innovation has a funny way of attracting the wrong kind of attention, and before you knew it, Ethera had become one, if not the most classified, high-risk program in modern times. Tier One asset or so the Secret Service called it.

It was too powerful, too dangerous—so secret that only a select few even knew of its existence, and even fewer could comprehend how it worked.

And therein lay the problem. You were the only person who could properly operate it.

Which was so unfair.

Because it wasn’t supposed to be your problem. You were just the creator, the brain behind the code, the one who spent way too many sleepless nights debugging this monstrosity. Your job was supposed to end at development. But no. Now, because of some bureaucratic nonsense and the fact that no one else could run it without accidentally bricking an entire system, you had been promoted—scratch that, forcibly conscripted—into field duty.

And your mission? To install it in an enemy satellite.

A literal, orbiting, high-security, military-grade satellite, may you add.

God. Why? Why was your country always at war with others? Why couldn’t world leaders just, you know, go to therapy like normal people? Why did everything have to escalate to international cyber warfare?

Which is how you ended up here.

At Top Gun. The last place in the world you wanted to be.

You weren’t built for this. You thrive in sipping coffee in a cosy little office and handling cyber threats from a safe, grounded location. You weren’t meant to be standing in the halls of an elite fighter pilot training program, surrounded by the best aviators in the world—people who thought breaking the sound barrier was a casual Wednesday.

It wasn’t the high-tech cyberwarfare department of the Pentagon, nor some dimly lit black ops facility where hackers in hoodies clacked away at keyboards. No. It was Top Gun. A place where pilots use G-forces like a personal amusement park ride.

You weren’t a soldier, you weren’t a spy, you got queasy in elevators, you got dizzy when you stood too fast, hell, you weren’t even good at keeping your phone screen from cracking.

... And now you were sweating.

You swallowed hard as Admiral Solomon "Warlock" Bates led you through the halls of the naval base, your heels clacking on the polished floors as you wiped your forehead. You're nervous, too damn nervous and this damned weather did not help.

"Relax, Miss," Warlock muttered in that calm, authoritative way of his. "They're just pilots."

Just pilots.

Right. And a nuclear warhead was just a firework.

And now, somehow, you were supposed to explain—loosely explain, because God help you, the full details were above even their clearance level—how Ethera, your elegant, lethal, unstoppable digital masterpiece, was about to be injected into an enemy satellite as part of a classified mission.

This was going to be a disaster.

You had barely made it through the doors of the briefing room when you felt it—every single eye in the room locking onto you.

It wasn’t just the number of them that got you, it was the intensity. These were Top Gun pilots, the best of the best, and they radiated the kind of confidence you could only dream of having. Meanwhile, you felt like a stray kitten wandering into a lion’s den.

Your hands tightened around the tablet clutched to your chest. It was your lifeline, holding every critical detail of Ethera, the program that had dragged you into this utterly ridiculous situation. If you could’ve melted into the walls, you absolutely would have. But there was no escaping this.

You just had to keep it together long enough to survive this briefing.

So, you inhaled deeply, squared your shoulders, and forced your heels forward, trying to project confidence—chin up, back straight, eyes locked onto Vice Admiral Beau "Cyclone" Simpson, who you’d been introduced to earlier that day.

And then, of course, you dropped the damn tablet.

Not a graceful drop. Not the kind of gentle slip where you could scoop it back up and act like nothing happened. No, this was a full-on, physics-defying fumble. The tablet flipped out of your arms, ricocheted off your knee, and skidded across the floor to the feet of one of the pilots.

Silence.

Pure, excruciating silence.

You didn’t even have the nerve to look up right away, too busy contemplating whether it was physically possible to disintegrate on command. But when you finally did glance up—because, you know, social convention demanded it—you were met with a sight that somehow made this entire disaster worse.

Because the person crouching down to pick up your poor, abused tablet was freaking hot.

Tall, broad-shouldered, with a head of golden curls that practically begged to be tousled by the wind, and, oh, yeah—a moustache that somehow worked way too well on him.

He turned the tablet over in his hands, inspecting it with an amused little smirk before handing it over to you. "You, uh… need this?"

Oh, great. His voice is hot too.

You grabbed it back, praying he couldn't see how your hands were shaking. “Nope. Just thought I’d test gravity real quick.”

A few chuckles rippled through the room, and his smirk deepened like he was enjoying this way too much. You, on the other hand, wanted to launch yourself into the sun.

With what little dignity you had left, you forced a quick, tight-lipped smile at him before turning on your heel and continuing forward, clutching your tablet like it was a life raft in the middle of the worst social shipwreck imaginable.

At the front of the room, Vice Admiral Beau Cyclone Simpson stood with the kind of posture that said he had zero time for nonsense, waiting for the room to settle. You barely had time to take a deep breath before his voice cut through the air.

“Alright, listen up.” His tone was crisp, commanding, and impossible to ignore. “This is Dr Y/N L/N. Everything she is about to tell you is highly classified. What you hear in this briefing does not leave this room. Understood?”

A chorus of nods. "Yes, sir."

You barely resisted the urge to physically cringe as every pilot in the room turned to stare at you—some with confusion, others with barely concealed amusement, and a few with the sharp assessing glances of people who had no clue what they were supposed to do with you.

You cleared your throat, squared your shoulders, and did your best to channel even an ounce of the confidence you usually had when you were coding at 3 AM in a secure, pilot-free lab—where the only judgment you faced was from coffee cups and the occasional system error.

As you reached the podium, you forced what you hoped was a composed smile. “Uh… hi, nice to meet you all.”

Solid. Real professional.

You glanced up just long enough to take in the mix of expressions in the room—some mildly interested, some unreadable, and one particular moustached pilot who still had the faintest trace of amusement on his face.

Nope. Not looking at him.

You exhaled slowly, centering yourself. Stay focused. Stay professional. You weren’t just here because of Ethera—you were Ethera. The only one who truly understood it. The only one who could execute this mission.

With another tap on your tablet, the slide shifted to a blacked-out, redacted briefing—only the necessary information was visible. A sleek 3D-rendered model of the enemy satellite appeared on the screen, rotating slowly. Most of its details were blurred or omitted entirely.

“This is Blackstar, a highly classified enemy satellite that has been operating in a low-Earth orbit over restricted airspace.” Your voice remained even, and steady, but the weight of what you were revealing sent a shiver down your spine. “Its existence has remained off the radar—literally and figuratively—until recently, when intelligence confirmed that it has been intercepting our encrypted communications, rerouting information, altering intelligence, and in some cases—fabricating entire communications.”

Someone exhaled sharply. Another shifted in their seat.

“So they’re feeding us bad intel?” one of them with big glasses and blonde hair asked, voice sceptical but sharp.

“That’s the theory,” you confirmed. “And given how quickly our ops have been compromised recently, it’s working.”

You tapped again, shifting to the next slide. The silent infiltration diagram appeared—an intricate web of glowing red lines showing Etherea’s integration process, slowly wrapping around the satellite’s systems like a virus embedding itself into a host.

“This is where Ethera comes in,” you said, shifting to a slide that displayed a cascading string of code, flickering across the screen. “Unlike traditional cyberweapons, Ethera doesn’t just break into a system. It integrates—restructuring security protocols as if it was always meant to be there. It’s undetectable, untraceable, and once inside, it grants us complete control of the Blackstar and won’t even register it as a breach.”

“So we’re not just hacking it," The only female pilot of the team said, arms crossed as she studied the data. “We’re hijacking it.”

“Exactly,” You nodded with a grin.

You switched to the next slide—a detailed radar map displaying the satellite’s location over international waters.

“This is the target area,” you continued after a deep breath. “It’s flying low-altitude reconnaissance patterns, which means it’s using ground relays for some of its communication. That gives us a small window to infiltrate and shut it down.”

The next slide appeared—a pair of unidentified fighter aircraft, patrolling the vicinity.

“And this is the problem,” you said grimly. “This satellite isn’t unguarded.”

A murmur rippled through the room as the pilots took in the fifth-generation stealth fighters displayed on the screen.

“We don’t know who they belong to,” you admitted. “What we do know is that they’re operating with highly classified tech—possibly experimental—and have been seen running defence patterns around the satellite’s flight path.”

Cyclone stepped forward then, arms crossed, his voice sharp and authoritative. “Which means your job is twofold. You will escort Dr L/N’s aircraft to the infiltration zone, ensuring Ethera is successfully deployed. If we are engaged, your priority remains protecting the package and ensuring a safe return.”

Oh, fantastic, you could not only feel your heartbeat in your toes, you were now officially the package.

You cleared your throat, tapping the screen again. Ethera’s interface expanded, displaying a cascade of sleek code.

“Once I’m in range,” you continued, “Ethera will lock onto the satellite’s frequency and begin infiltration. From that point, it’ll take approximately fifty-eight seconds to bypass security and assume control."

Silence settled over the room like a thick cloud, the weight of their stares pressing down on you. You could feel them analyzing, calculating, probably questioning who in their right mind thought putting you—a hacker, a tech specialist, someone whose idea of adrenaline was passing cars on the highway—into a fighter jet was a good idea.

Finally, one of the pilots—tall, broad-shouldered, blonde, and very clearly one of the cocky ones—tilted his head, arms crossed over his chest in a way that screamed too much confidence.

“So, let me get this straight.” His voice was smooth, and confident, with just the right amount of teasing. “You, Doctor—our very classified, very important tech specialist—have to be in the air, in a plane, during a mission that has a high probability of turning into a dogfight… just so you can press a button?”

Your stomach twisted at the mention of being airborne.

“Well…” You gulped, very much aware of how absolutely insane this sounded when put like that. “It’s… more than just that, but, yeah, essentially.”

A slow grin spread across his face, far too entertained by your predicament.

“Oh,” he drawled, “this is gonna be fun.”

Before you could fully process how much you already hated this, Cyclone—who had been watching the exchange with his signature unamused glare—stepped forward, cutting through the tension with his sharp, no-nonsense voice.

“This is a classified operation,” he stated, sharp and authoritative. “Not a joyride.”

The blonde’s smirk faded slightly as he straightened, and the rest of the pilots quickly fell in line.

Silence lingered for a moment longer before Vice Admiral Beau Cyclone Simpson let out a slow breath and straightened. His sharp gaze swept over the room before he nodded once.

“All right. That’s enough.” His tone was firm, the kind that left no room for argument. “We’ve got work to do. The mission will take place in a few weeks' time, once we’ve run full assessments, completed necessary preparations, and designated a lead for this operation.”

There was a slight shift in the room. Some of the pilots exchanged glances, the weight of the upcoming mission finally settling in. Others, mainly the cocky ones, looked as though they were already imagining themselves in the cockpit.

“Dismissed,” Cyclone finished.

The pilots stood, murmuring amongst themselves as they filed out of the room, the blonde one still wearing a smug grin as he passed you making you frown and turn away, your gaze then briefly met the eyes of the moustached pilot.

You hadn’t meant to look, but the moment your eyes connected, something flickered in his expression. Amusement? Curiosity? You weren’t sure, and frankly, you didn’t want to know.

So you did the only logical thing and immediately looked away and turned to gather your things. You needed to get out of here, to find some space to breathe before your brain short-circuited from stress—

“Doctor, Stay for a moment.”

You tightened your grip on your tablet and turned back to Cyclone, who was watching you with that unreadable, vaguely disapproving expression that all high-ranking officers seemed to have perfected. “Uh… yes, sir?”

Once the last pilot was out the door, Cyclone exhaled sharply and crossed his arms.

“You realize,” he said, “that you’re going to have to actually fly, correct?”

You swallowed. “I—well, technically, I’ll just be a passenger.”

His stare didn’t waver.

“Doctor,” he said, tone flat, “I’ve read your file. I know you requested to be driven here instead of taking a military transport plane. You also took a ferry across the bay instead of a helicopter. And I know that you chose to work remotely for three years to avoid getting on a plane.”

You felt heat rise to your cheeks. “That… could mean anything.”

“It means you do not like flying, am I correct?”

Your fingers tightened around the tablet as you tried to find a way—any way—out of this. “Sir, with all due respect, I don’t need to fly the plane. I just need to be in it long enough to deploy Ethera—”

Cyclone cut you off with a sharp look. “And what happens if something goes wrong, Doctor? If the aircraft takes damage? If you have to eject mid-flight? If you lose comms and have to rely on emergency protocols?”

You swallowed hard, your stomach twisting at the very thought of ejecting from a jet.

Cyclone sighed, rubbing his temple as if this entire conversation was giving him a migraine. “We cannot afford to have you panicking mid-mission. If this is going to work, you need to be prepared. That’s why, starting next week you will train with the pilots on aerial procedures and undergoing mandatory training in our flight simulation program.”

Your stomach dropped. “I—wait, what? That’s not necessary—”

“It’s absolutely necessary,” Cyclone cut in, his tone sharp. “If you can’t handle a simulated flight, you become a liability—not just to yourself, but to the pilots escorting you. And in case I need to remind you, Doctor, this mission is classified at the highest level. If you panic mid-air, it won’t just be your life at risk. It’ll be theirs. And it’ll be national security at stake.”

You inhaled sharply. No pressure. None at all.

Cyclone watched you for a moment before speaking again, his tone slightly softer but still firm. “You’re the only one who can do this, Doctor. That means you need to be ready.”

You exhaled slowly, pressing your lips together before nodding stiffly. “Understood, sir.”

Cyclone gave a small nod of approval. “Good. Dismissed.”

You turned and walked out, shoulders tense, fully aware that in three days' time, you were going to be strapped into a high-speed, fighter jet. And knowing your luck?

You were definitely going to puke.

Part 2???

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reasonsforhope · 4 months ago

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1. More children are surviving today than ever before.

Close to 8 million more children in the world survive to see their fifth birthday than in 1990 — a 60 percent decline in annual under-five child mortality.

UNICEF and partners have contributed to this remarkable achievement through proven, sustainable solutions for improving maternal and child health care services and strengthening disease prevention — and delivering those solutions at scale...

2. Vaccines have saved 154 million lives in the last 50 years.

As the world’s largest vaccine supplier, UNICEF procures and distributes enough vaccines annually to immunize 45 percent of the world's children. In 2023, UNICEF supplied 2.8 billion vaccine doses to 105 countries, up from just over 2 billion to 102 countries in 2020. Through widespread immunizations, polio is on the brink of eradication.

3. Safe water is available to over 2.1 billion more people compared to 20 years ago.

Consistent access to a sufficient supply of safe water for drinking, cooking and personal hygiene is the foundation for child survival, healthier lives, stronger economies and more sustainable societies. With support from UNICEF and partners, more than a quarter of the world's population gained access to safe and clean drinking water in the past two decades.

UNICEF-supported programs help ensure access to safe water for 35 million people around the world every year. UNICEF also leads coordinated emergency response efforts related to safe water access in roughly 85 percent of countries affected by crises. In 2023, over 42 million people in 73 countries were reached with emergency water services, helping to prevent outbreaks of cholera and other waterborne diseases.

To help build community resilience to climate shocks, UNICEF has also supported the installation of more than 8,900 solar-powered water systems in 56 countries — an important climate adaption measure that also reduces the use of fossil fuels.

4. The number of children with stunted growth due to malnutrition has declined by 40 percent since 2000.

For more than two decades, UNICEF has been the world’s largest procurer of ready-to-use therapeutic food (RUTF), procuring up to 80 percent of global demand, ensuring children suffering from severe malnutrition can be treated successfully.

5. Over 68 million child marriages have been averted in the last 25 years, giving girls their childhoods back.

In the late 1990s, 1 in 4 young women aged 20 to 24 were married as children. Today, it's 1 in 5. UNICEF has played an important role in global efforts to end child marriage, supporting 35 countries in implementing action plans, and working at the community level and across the health, education and other sectors to increase knowledge and change attitudes around the practice.

In 2023, UNICEF reached 11 million adolescent girls with prevention and care interventions empowering them to delay marriage and choose their own futures.

6. Fewer kids are out of school.

The world stands on the cusp of realizing primary education as a basic right of every child. A world where more children learn is a world that is healthier, more prosperous and more resilient.

In the early 1950s, roughly half of all primary school-aged children were out of school. Now it's less than 10 percent. And every year, 23 million more girls are completing secondary school compared to a decade ago...

7. The world is on track to eliminate open defecation by 2030.

In the last two decades, 2.5 billion people have gained access to safely managed sanitation, while the number of people practicing open defecation has also declined by two-thirds — from 1.3 billion in 2000 to 419 million in 2022 — putting the world on track to eliminate the practice entirely.

Ending open defecation drastically lowers the risks of diseases and malnutrition among children in low-income and lower-middle-income countries. Child deaths from diarrhea — a leading killer of young children — have already decreased by 60 percent...

8. Birth registration rates are way up.

Today, 77 percent of children under 5 are registered, up from 60 percent in the early 2000s — a major leap towards ensuring every child has a legal identity and can access health, education and other essential services...

Countries that prioritize birth registration see rapid progress. In Côte d’Ivoire, birth registration prevalence rose steadily from 65 percent in 2012 to 96 percent by 2021, proving that change at scale is possible.

9. A future free from HIV seems possible, one baby at a time.

An estimated 1.9 million deaths and 4 million HIV infections have been averted among pregnant women and children in the past 25 years...

10. In times of crisis and emergency, UNICEF is there — helping to save more children's lives than any other humanitarian organization.

[Note: Okay, I think they're cheating listing this one, but the article header said 10 things, so if I included only 9 it would be weird. Obviously this is an article from UNICEF, but UNICEF's data, reporting, and statistics are considered to be of high quality.]

-via UNICEF, February 25, 2025

#unicef #children #children's rights #human rights #global #public health #sanitation #clean water #vaccines #cw child death mention #child marriage #good news #hope

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jymwahuwu · 9 months ago

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Capitano has me grrrr so ill—

So the heat has been bad and you’re capitanos arranged marriage darling so naturally you fall ill. When u go to a doctor they confirm that you’re expecting a baby and you’re terrified to tell your husband lmao. You have no idea how he’d react so you tell and/or bribe the doctor to just tell capitano for you while you do your best to avoid him as best you can the rest of the day :3

Love this!! The flustered and shy you and the affectionate Capitano… now besides Tsaritsa he has someone to pledge his undying loyalty…🥺💕

cw: yandere, arranged marriage, creampie, pregnancy, fem reader

The marriage to Capitano was arranged - a mission. Your relatives have already been looking for a lifelong spouse for you when you reach adulthood. In the eyes of these traditional people, nothing is more important than marriage and childbirth. What you didn't expect was. An armored warrior slowly walked into your village with gifts, solemnly knelt down on one knee and proposed to you, asking them to marry you to him. Your relatives are shuddering.

Of course, they accepted his gift.

Capitano sent enough supplies for the entire village and set up a heating system to help them survive the winter. In exchange, he got his bride.

You've never met him before, but he seems to know every strand of your hair, every smile and worry.

Fatui? That's too far away for you. You have no deep understanding of his power. Full of confusion, you married him. Your husband is upright, aboveboard, and strong… He is not out of control or impulsive. Sex also seemed like a routine. Always advance in a careful and firm rhythm, and stretch your thighs for several hours until your vagina is swollen and dripping. This is how every battle ends. His balls ravaged your quivering petals, his thick glans pushing into the tight depths. He kissed your lips and the back of your hands intently, his warm breath blowing behind your earlobes.

Maybe he just needed an heir. You wonder in despair. Marriage may be romantic, but it's not yours.

You have recently lost your appetite, vomited, and your breasts are swollen. You start to wonder if this could be…?

Capitano tells you that you need his permission to go out. He is not stuffy and conservative. This is a measure to ensure your safety. You are sick and you just want to see a doctor. That's okay, but you still can't go out. The doctor treats you at the manor.

The doctor's diagnosis and treatment results confirm your concerns - you are pregnant, and a little life is growing inside you.

"P-please tell my husband for me," you plead quietly, sniffing. You don't know how Capitano will react.

The doctor readily agreed. For the next half day, you tried your best to avoid your husband, including hiding in the greenhouse, watering the flowers and plants, searching for a magazine "you are interested in but can't remember the name" in the reading room, practicing cooking, and exploring new ways to play TCG. Just as you were hiding in a corner of the library reading pregnancy books, a rush of footsteps approached. It's his leather shoes.

"Are you pregnant?"

Looking at him as if you were caught in the headlights, you covered your cheek with your book and answered vaguely. "Uh…maybe…"

"Are you pregnant?"

Question again. Even your vision was shaken, your waist was lifted, and Capitano lifted you with one hand. The deep scar on his face has now been replaced by affection, and his chest is roaring with joy, bathing in it. You lowered your head and lifted your legs off the ground, panicking. "You, please calm down…"

"…Sorry, I got carried away." He carefully placed you back on the ground, as if you were fragile porcelain, and then he took the back of your hand and kissed it as usual. Those deep blue eyes exuded energy, like twinkling stars in the dark night.

#yandere capitano x reader #capitano x reader #genshin x reader #genshin impact x reader #yandere genshin impact x reader #yandere genshin #yandere genshin x reader

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dynaloginc · 1 month ago

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Unlocking Precision in Robotics with Dynaflex: A Dynalog-US Innovation.

Precision is paramount in today's fast-paced world of automation, with industries such as aerospace, automotive, electronics, and advanced manufacturing requiring robot systems to function with precision, in order for the process to deliver quality and consistent performance. This is where Dynatrol-US Dynaflex provides an unparalleled solution to improve robot calibration and motion control for industrial environments.

So, what exactly is Dynaflex?

Dynaflex is sophisticated real-time calibration developed by Dynalog-US- a leader in robotic accuracy solutions. These advanced dynamic performance assessment tools were developed specifically for robot systems. Dynaflex measures the dynamic performance (how robots behave while they operate), versus static calibration tools (preset calibration baked into the robots programming) by evaluating robot compliance and flexibility in real-time. This type of dynamic assessment provides potential for accuracy to industries where tolerances must be tight and conditions demand high levels of performance reliability.

Simply put Dynaflex gives practitioners visibility and insight into how a robot responds dynamically while at work and if sufficient stress or force signatures, behaviour is exhibited. In many cases, this is no different than creating significant and costly rework..

Why is Dynaflex so Important?

When robots perform jobs such as welding, painting, and assembling, even the most minor deviation in motion can create defects or misalignment. Traditional calibration methods consider positioning, but often don't consider the dynamic changes in robot posture due to many different factors such as: gravity, speed and payload. Dynaflex effectively takes calibration to the next level by adding dynamic variables to the calibration equation.

With the Dynaflex system, manufacturers can:

Measure and minimize robot compliance (flexibility under load)

Achieve better path accuracy with complex work processes

Validate robot performance in real-world conditions

Identify mechanical anomalies before they can become major catastrophes

Maximize repeatability and process consistency

These are meaningful relationships to ensure that the robot moves correctly on paper, but that it also can perform accurately on the production floor.

How Does Dynaflex Work?

Dynaflex implements a series of highly sensitive measurement tools and calibration routines that allow engineerings to visualize how the end effector of a robot moves while under load, or at high speed. By measuring real-time flexing, oscillation and inertia, Dynaflex creates a comprehensive map of the robot's behavior.

Once the data has been collected, the data is used to adjust the robot's motion algorithms and account for mechanical variation.

Who is Dynaflex for?

Dynaflex is ideal for companies and industries that expect critical congruency and which themselves use robotic automation, including:

Automotive manufacturing

Aerospace and defence

Medical devices

Electronics assembly

Metal fabrication

3D printing and additive manufacturing

If your company relies on multi-robot cells, automated welding cells, or pick-and-place systems, introducing Dynaflex to your calibration operations will provide great benefit.

Dynalog-US: The Experts in Robot Calibration

Dynalog-US was founded to provide accurate and reliable robotic systems and has been a leader in robot performance technology for several decades. Their products are being used by leading world manufacturers, many of whom are in the Fortune 500.

Whether it is for robotic inspection, Tool Center Point (TCP) calibration or improving robot cell accuracy, Dynalog has a history of introducing products to the marketplace that demonstrate thoughtful engineering, industry leading performance, and great customer support.

Dynalog's market leading solutions, to include Dynaflex, come with documentation, field training, and technical consulting, which is more than just selling a product; Dynalog provides a partnership to achieve your production success.

Many companies have seen measurable improvements after adding Dynaflex to their robotic workflow:

Up to 40% improvement in path accuracy Considerably less joint stress and less component wear Reduction of rework and scrap percentage Faster ROI from robotic systems

One aerospace customer even found that Dynaflex helped them to achieve their tolerance requirements that they previously thought could be accomplished only with standard robots or off-the-shelf robotic equipment.

Future of Robotic CalibrationAs AI, machine Learning, and Industry 4.0 technologies evolve, the need for ongoing performance validation to and compliance will become more valuable. Also, autonomous systems will validate performance more often, and human interventions will be using tools like Dynaflex to ensure safety, quality, and efficiencies.

With Dynaflex by Dynalog-US, businesses now have a scalable and future-proof calibration platform to leverage for future use and to enhance work processes while accomplishing productivity and accuracy improvements in the immediate.

Conclusion

When you invest in robots, investing in robot performance has to be a given. Properly calibrating robot performance starts with the initial calibration when it is stationary, when it is in motion, while it is under load, and evaluating at the full-speed capability.

Dynaflex by Dynalog-US is a calibration device that provides the measurement data (metrics) to give you a competitive advantage for an ever-evolving automated world.

Ready to take the next step in robotic precision? Visit www.dynalog-us.com to learn more about Dynaflex and schedule a consultation with the experts at Dynalog-US.

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dandelionsresilience · 4 months ago

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Dandelion News - March 1-7

Like these weekly compilations? Tip me at $kaybarr1735 or check out my Dandelion Doodles! I’m almost finished with February’s doodles, sorry for the delay

1. Charles Darwin saw this Galápagos bird on Floreana Island in 1835, then it wasn't seen again for almost 200 years

“The Galápagos rail […] had been deemed locally extinct – and due for reintroduction from other Galápagos islands – until it was seen during recent fieldwork. [… “R]emove the invasive threats, and native species can recover in remarkable ways,” says Island Conservation’s Paula Castaño.”

2. Bill supporting free student meals passes through Utah legislature

“[The bill] would move thousands of students who qualify for reduced-cost school meals into eligibility for free breakfasts and lunch. […] H.B. 100 secures $2.5 million from the state’s education budget to help students from families who do not qualify for federal aid like SNAP or TANF.”

3. Indigenous leaders sign landmark carbon deal in Philippines

“[The deal establishes] the country’s first locally owned forest carbon project. The project, which places a monetary value on the potentially climate-warming carbon stored in trees, aims to halt deforestation through the sale of carbon credits — effectively making the forest more valuable alive than cut down.”

4. Powerful Speeches From Trans Dems Flip 29 Republicans, Anti-Trans Bills Die In Montana

“Transgender Reps Zooey Zephyr and SJ Howell delivered powerful speeches on the Montana House floor on Thursday. Republicans defected en masse to join them in voting against anti-trans bills. […] One Republican even took the floor to deliver a scathing rebuke of the bill’s sponsor.”

5. Illinois proves states have a lot of power to advance clean energy

“[Two new bills] aim to evaluate the state’s current power grid, make it easier to expand the transmission system, and add a ton of new battery storage[…. Illinois already] has one of the cleanest grids in the nation thanks to bountiful nuclear power.“

6. ‘I feel real hope’: historic beaver release marks conservation milestone in England

“”We are visibly, measurably recovering nature and that is so exciting[….]” [… In] recent years, beavers have been returning to our waterways via licensed releases into enclosures and some illegal releases. […] Last week, the government announced that, with a licence, it is now legal for conservationists to release beavers into the wild, with no enclosures necessary.”

7. One of South Dakota’s largest wind farms just got the green light

“Invenergy says the new South Dakota wind farm will pump $78 million into landowner payments over the next 30 years, while local governments will see $38 million in property tax revenue. [… T]he project is expected to create 243 construction jobs and support eight long-term operational roles.”

8. The Antarctic ozone hole is healing, thanks to global reduction of CFCs

“[The] new study is the first to show, with high statistical confidence, that this recovery is due primarily to the reduction of ozone-depleting substances, versus other influences such as natural weather variability[….] "By something like 2035, we might see a year when there's no ozone hole depletion at all in the Antarctic.””

9. Monarch butterflies wintering in Mexico rebound this year

“The number of monarch butterflies wintering in the mountains west of Mexico City [doubled] in 2024 despite the stresses of climate change and habitat loss[….] Tavera Alonso credited ongoing efforts to increase the number of plants the butterflies rely on for sustenance and reproduction along their flyway.”

10. Pip in final egg means bald eagles Jackie and Shadow should soon be parents of triplets

“Triplets would be unprecedented for the eagles in a decade of observation. […] The [third] eaglet is "actively working on getting out of the egg." […] The two already-hatched chicks, who will be named by the public in the days to come, are "looking much stronger than they were even yesterday[….]””

February 22-28 news here | (all credit for images and written material can be found at the source linked; I don’t claim credit for anything but curating.)

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nasa · 1 year ago

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Setting Sail to Travel Through Space: 5 Things to Know about our New Mission

Our Advanced Composite Solar Sail System will launch aboard Rocket Lab’s Electron rocket from the company’s Launch Complex 1 in Māhia, New Zealand no earlier than April 23, at 6 p.m. EDT. This mission will demonstrate the use of innovative materials and structures to deploy a next-generation solar sail from a CubeSat in low Earth orbit.

Here are five things to know about this upcoming mission:

1. Sailing on Sunshine

Solar sails use the pressure of sunlight for propulsion much like sailboats harness the wind, eliminating the need for rocket fuel after the spacecraft has launched. If all goes according to plan, this technology demonstration will help us test how the solar sail shape and design work in different orbits.

2. Small Package, Big Impact

The Advanced Composite Solar Sail System spacecraft is a CubeSat the size of a microwave, but when the package inside is fully unfurled, it will measure about 860 square feet (80 square meters) which is about the size of six parking spots. Once fully deployed, it will be the biggest, functional solar sail system – capable of controlled propulsion maneuvers – to be tested in space.

3. Second NASA Solar Sail in Space

If successful, the Advanced Composite Solar Sail System will be the second NASA solar sail to deploy in space, and not only will it be much larger, but this system will also test navigation capabilities to change the spacecraft’s orbit. This will help us gather data for future missions with even larger sails.

4. BOOM: Stronger, Lighter Booms

Just like a sailboat mast supports its cloth sails, a solar sail has support beams called booms that provide structure. The Advanced Composite Solar Sail System mission’s primary objective is to deploy a new type of boom. These booms are made from flexible polymer and carbon fiber materials that are stiffer and 75% lighter than previous boom designs. They can also be flattened and rolled like a tape measure. Two booms spanning the diagonal of the square (23 feet or about 7 meters in length) could be rolled up and fit into the palm of your hand!

5. It’s a bird...it’s a plane...it’s our solar sail!

About one to two months after launch, the Advanced Composite Solar Sail System spacecraft will deploy its booms and unfurl its solar sail. Because of its large size and reflective material, the spacecraft may be visible from Earth with the naked eye if the lighting conditions and orientation are just right!

To learn more about this mission that will inform future space travel and expand our understanding of our Sun and solar system, visit https://www.nasa.gov/mission/acs3/.

Make sure to follow us on Tumblr for your regular dose of space!

#NASA #space #technology #explore #space exploration #Sun #solar sail #launch #tech #Youtube

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theresattrpgforthat · 26 days ago

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Any recommendations for a rules-lite mecha game?

THEME: Rules-Lite Mechs.

Hello friend, I sure do! I had a really fun time putting this recommendation list together, so I hope you also find something fun in here!

Reactors & Romance, by JP Bergamo.

Reactors & Romance is a rules-light, narrative-focused, one-shot-oriented RPG featuring mechs and flirting.

Players take on the role of a hot-shot mech pilot with only two ways of problem solving: flirt your way through with your romantic charm, or fight your way out with your mech. Your ability to do either is measured with one stat, your HEAT. Your HEAT measures both how hot your mech’s reactor is getting, and how hot of a pilot you are. Your mech will get less and less reliable as it builds up heat and takes on damage. Fortunately, you have always done your best flirting under pressure.

Say hello to a beautiful, quick game that focuses on the emotions that sizzle inside the gigantic battle machines, as well as the fights that might make those relationships complicated. With a nod to Lasers & Feelings, Reactors & Romance has some additional bits and pieces to play with, such as heat, which both propels you into the danger zone and also makes you very attractive. You also have Keepsakes, which are meant to represent romantic connections that help you clear your Heat. The author references Thirsty Sword Lesbians, Promare, and Gurren Lagann, which all make me super excited about this game.

Mech and Kaiju, by Minbot.

You are the pilot and crew of the Dominator, an advanced bio-mechanical skyscraper sized battle suit designed and built to fight the Kaiju, gigantic leviathan creatures from beyond the depths of space.

Based on the popular Lasers and Feeling RPG by John Harper and created for the Minimalist TTRPG Jam 3.

Simple and descriptive, Mech & Kaiju asks you to determine a few traits of your characters, a few traits of the mech you pilot, and a few truths about the Alien Overlord and the Kaiju you're going up against. When it comes to rolling, it's typical Lasers & Feelings: roll under your target if the situation is related to logic, reason or technology, and roll over if your approach is related to emotion, reasoning, or biological understanding. If you want a contrast between flesh and metal, you might like this game.

Resonance, by Foolhardy Press.

You and your team are Pilots; called upon as a team to control a single Mech capable of defeating the Intelligence

With your skills combined, your party alone can pilot the mech via Resonance, a state of understanding acquired through intense training and compatibility.

Each of you has an individual role to be expressed through your control of the Mech; the Captain, the Gunner, the Engineer, the Hacker, or the Muscle.

You must defeat the enemy Intelligence within a constricted amount of rounds or fail your mission.

Resonance feels very much inspired by Pacific Rim, what with the idea that all of your team is responsible for piloting a single mech, and the fact that the game defines success as relative to a target called The Drift. I like the idea that success here is related to how aligned the crew is in regards to the goal; it's an excellent example of a game that tries to weave the themes of the story into the mechanics.

Mechers, by Jason Pickering.

Welcome to Odin Corp new employee. You get to start your exciting new career as a Mecher working with our resource gathering facilities on the planet Sif 11. Your exciting career will see you wearing an Odin Corp Mech Suit as you transport cargo and supplies between our many different planetary stations as well as light resource gathering duties. In your journey you will see the wondrous sights, flora, and fauna this planet has to offer. Yes! It’s dangerous work, but your hard work will allow the facilities to keep operating so we can supply Odin Corp products to families galaxy wide.

Mechers is a rules-lite ttrpg that uses a 2D6 system, to determine outcomes for player actions. Players pilot a mech equipped with gear and adventure across an alien planet dealing with wild flora and fauna and an overbearing corporation. So grab your Dice, Load your tools, and head out into danger.

If you love mechs but you want to do something other than fight, Mechers is probably where you'll feel most at home. Your players are using mechs as tools to help them explore planets, rather than fight battles, although I wouldn't be surprised if you have to get a little bit physical to get yourself out of some tricky situations. Getting past obstacles requires filling tracks to represent the effort it takes to work through difficult situations.

Attempting to overcome an obstacle involves rolling 2d6 and trying to get a 7 or higher, with results of 10 or higher being without any consequences. It feels very akin to PbtA in terms of result range, but I think the ethos is a little less about generating interesting results and more about using what resources you have to improve your rolls and reduce any damage you take.

Immortal Gambit, by TitanomachyRPG.

IMMORTAL GAMBIT is a pick up and play 1-page mecha TTRPG you can start as soon as everyone has arrived to the session. Every player picks a different role (Pilot//Pilot’s Mech//Battleship Captain// Faction Leader//Rival//Rival’s Mech) and their own goal. Try to accomplish your goal while deducing who you can trust--and who is working against you!

Immortal Gambit looks to be about pitting children against each-other in gigantic mechs, all for political gain. I think it's interesting that a character and a character's mech are two different roles that are played by different people. Each character has a personal goal, one that is hidden from the rest of the table. You take turns trying to turn the tides of battle in your direction, using a d20 and a coin. I think it's interesting that this game is very competitive, and encourages your characters to work against each-other. It's a little bit like a hidden role game, so if you like keeping secrets, I think you might like this.

Big Robots, Big Feelings, by RentAThug.

Prime your laser cannons, draw your energy sword, and pilot your mech to glorious victory the only way you know how: how by feeling more feelings than anyone has ever felt! Battle enemy mecha and your own raging emotions in BIG ROBOTS, BIG FEELINGS!

Big Robots, Big Feelings is a one page RPG designed for the 2024 One Page RPG Jam! The game uses a simplified version of the Powered by the Apocalypse system, with Action Rolls determining outcome. Inspired by mecha anime, these Action Rolls are influenced by your character's emotions and relationships with other characters, allowing you to literally use the power of friendship to destroy your enemies.

This game feels very in tune with the color-coded superhero genre, with bright colors and themes that really double down on tropes. Your character has a background, three emotions, and a Mech that's designed to reflect their personality. When you try to do something, you use 2d6, as per a typical PbtA game, with modifiers related to your emotions and your relationships. In Big Robots, Big Feelings, you truly do win fights with the power of friendship!

Sad Teen Mecha Pilots, by Unknown Dungeon.

INCOMING TRANSMISSION….

Over twenty years ago, the first Demon attacked. Humanity fought back, but suffered great losses in the process.

In the decades since, a secretive program was initiated to build monstrous bio-mechanical mechas to fight the Demons, and to train the young pilots who control them.

You are those pilots.

Sad Teen Mecha Pilots is a collaborative story-telling RPG about the lives of young people faced with the impossible task of saving the world, and the strain it puts on them and their relationships.

A simple one-page game, this is all about the motivations behind a war, and the strain of trying to hold off Doomsday. The lose state of the clock is represented in a Doomsday clock, which looks like it's already partially filled when you start to play the game, although I'm not entirely sure if that's the intention. When the clock hits the Eleventh Hour, your characters are pulled away from their teenage lives for a nearly-hopeless battle.

The bulk of the game is definitely focused on the daily lives of your characters; their family relationships, their struggles with school or friendships, and recovering from wounds. I'd be interested in seeing how this game might combine with a more mechanically complex mech game to provide a lot of pathos in between high-combat scenes - although you as a group would have to be OK with going up against pretty impossible odds.

Also Check Out…

Mechs Part 1 Recommendations

Mechs Part 2 Recommendations

Gundam TTRPG Recommedations.

Metal Sword, by Mousewife Games (simplified Beam Saber!)

If you like what I do and want to leave a tip, you can check out my Ko-Fi!

#rules-lite #mechs #tabletop games #indie ttrpgs #game recommendations #dnd #asks #indie ttrpg

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keferon · 2 months ago

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Ooo Prowl deciding to snoop or bug the mecha scientists about how various ones work so that he can better figure out how to keep pilots from getting killed in the field, and Tarantulas being one of the only to actually show him the work plus talk possibilities once the mad scientist realizes that Prowl’s actually listening and genuinely paying attention.

Cue an increasing back and forth of Prowl coming by with new ideas for ways mecha abilities could be advanced for safety or protection, with Tarantulas consistently being the only one to figure out how to do the impossible work needed with their Earth materials (and scavenged Quintesson materials?).

Which then gets pushed even farther as Prowl gets more and more desperate with every death and puts himself front and center for Tarantulas to use as a test subject for their new ideas. Tarantulas’ questionable morals not seeing any problems with potentially dangerous or unstable upgrades bc the science is simply fascinating + Prowl really wants to do this clearly so who is he to refuse. Like Tarantulas is gonna make sure Prowl doesn’t die from such things, he likes having him around too much, but if the side effects are within a certain (dubiously safe) threshold then he’s not gonna exactly mitigate them all that much. (Upgrades for other mecha & pilots might be. A bit less safe comparatively. Tarantulas has a soft spot for Prowl and Prowl alone of course)

Eventually Tarantulas is bringing even more wild and dangerous ideas to the table, and bc of years of results and… companionship, one could say, between the two, Prowl is almost completely trusting with whatever Tarantulas brings to the table after only a quick (and maybe not entirely honest sometimes) rundown.

Which obviously has lead to an increasingly questionable state of Prowl’s general health. Not that Prowl would care as long as he’s able to pilot his mecha and do his job.

As well as increased isolation from many others somewhat encouraged by Tarantulas as Prowl focuses only on his pilot work and being around Tarantulas for brainstorming sessions or upgrades. Withdrawing from many around the base as a defensive measure so he doesn’t get overwhelmed if something goes horribly wrong out in the field- grief could get in the way of directing or helping others to safer situations after all. And this being the way things are for a long while.

Until a certain visored bot crashes into the tactician’s life.

OH MAN IMAGINE

Jazz doesn't want everyone to know that he is secretly tiny because he is shady and sneaky like that. But also his armor is too big to fit in corridors so he can't really follow Prowl everywhere. Including the labs~

So one day he decides that "fuck it I wanna know more" and hacks into security system to look though cameras footages right. And he finds the ones that placed in the labs and discovers the fucking HORROR that regularly happens there.

Bonus points if he doesn't realize that the reason Prowl does all this is kind of. him. Jazz.

He looks at Tarantulas and thinks there must be some kind of shady scheme involved. He thinks that Tarantulas is somehow forcing Prowl to go through this shit.

While the real reason is just. Prowl lost his previous partners. He doesn't want to lose the new one. He is afraid he wouldn't be good enough to keep Jazz alive and Tarantulas is very conveniently here reaching his hand and promising that "You can be better at protecting him and keeping him alive. Sure thing you can save him you just need to let me do a couple of tweaks and upgrades~"

#reverse mecha au

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semcoinfratechworld · 9 months ago

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Exploring SOC-OCV Curves in Lithium-ion Battery Management

In the rapidly evolving world of lithium-ion battery technology, understanding the SOC-OCV Curve (State of Charge - Open Circuit Voltage) is crucial for optimizing battery management systems (BMS) and enhancing battery performance. This blog delves into the significance of SOC estimation, the relationship between Open Circuit Voltage (OCV) and State of Charge (SOC), and how these concepts play a pivotal role in the effective management of lithium-ion batteries.

Unraveling the SOC-OCV Mystery

The SOC-OCV curve is a fundamental tool for estimating the state of charge in lithium-ion batteries. By analyzing this curve, we can gain insights into how voltage changes with varying levels of charge. This relationship is essential for accurate battery state estimation techniques and informs the development of advanced battery management systems.

Our research highlights that precise SOC-OCV calibration is vital to understanding battery behavior, especially around critical SOC levels like 60%. Factors such as active materials, capacity attenuation, and silicon doping can significantly influence the curve's shape and behavior.

Dynamic Factors Influencing SOC-OCV Curves

Several dynamic factors impact the SOC-OCV curves, including:

Active Materials: The type of materials used in the battery, such as lithium iron phosphate and graphite, significantly affects voltage characteristics and overall performance.

Battery Types: Different battery chemistries exhibit unique SOC-OCV relationships. Understanding these differences is crucial for effective performance analysis.

SOC Adjustment Parameters: The direction in which SOC is adjusted during charging or discharging can alter the OCV readings, making it essential to consider these parameters in battery management algorithms.

Negative Silicon Doping: This innovative approach can enhance battery performance but also complicates the SOC-OCV relationship, particularly during phase transformations.

Challenges and Solutions

The complexity of the SOC-OCV curve, especially near 60% SOC, presents challenges for accurate voltage measurements. The voltage step observed in this region is primarily due to phase transformations in negative graphite. Our research addresses these challenges by providing insights into how various factors contribute to the curve's behavior, ultimately leading to improved battery health monitoring and degradation analysis.

Key Insights from Our Research

Our findings reveal that while the full battery OCV is determined by material properties, the shape of the SOC-OCV curve is influenced by several factors:

Active Material Differences: Variations in active materials can lead to distinct voltage characteristics.

SOC Regulation Direction: The method of adjusting SOC impacts OCV readings and must be carefully managed.

Charge and Discharge Cycles: These cycles affect battery capacity over time, influencing both SOC estimation and OCV measurements.

Role of Negative Electrode: The negative electrode's composition, particularly concerning silicon doping, plays a crucial role in shaping the SOC-OCV curve.

Future Frontiers in Battery Management

As we continue to explore lithium-ion battery technology, our research paves the way for future advancements in battery management systems. By enhancing our understanding of SOC-OCV mapping for energy storage systems, we can optimize battery performance and contribute to cleaner, more efficient energy solutions. In conclusion, comprehending the intricacies of SOC-OCV curves is essential for anyone involved in lithium-ion battery technology. As we push forward into a future powered by sustainable energy solutions, mastering these concepts will be key to ensuring that our batteries perform optimally throughout their lifecycle. Whether you are a researcher, engineer, or enthusiast, staying informed about these developments will empower you to contribute meaningfully to this dynamic field.

#SOC and OCV relationship #Battery health monitoring #SOC-OCV modeling for lithium-ion batteries #Advanced battery management #systems (BMS)#Lithium-ion battery performance analysis #Battery state estimation techniques #Voltage-based SOC estimation #SOC-OCV calibration #Battery degradation analysis using SOC-OCV #Lithium-ion battery voltage characteristics #OCV measurement for lithium batteries #SOC prediction methods #Battery management algorithms #Battery voltage vs SOC curve #SOC-OCV mapping for energy storage systems

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