Wi-Fi Data Logger That Simplifies Temperature and Humidity Monitoring

When we talk about efficiency and reliablility of monitoring of temperature and humidity, the Testo Saveris 2-H1 Wi-Fi Data Logger stands out as a premium solution. With its advanced features and user-friendly design, this Wi-Fi-enabled temperature and humidity data logger and it is ideal for sectors that require continuous environmental tracking, such as food storage, pharmaceuticals, and laboratories. This article delves into the benefits and features of the Testo Saveris 2-H1 and highlights why it’s the ultimate solution for businesses seeking reliable temperature and humidity monitoring.

The Importance of Accurate Environmental Monitoring

In various industries, maintaining a stable and regulated environment is crucial. Even minor fluctuations can compromise the efficacy and safety of products, leading to wasted resources and potentially severe health risks.

That’s where temperature logger Wi-Fi devices like the Testo Saveris 2-H1 come into play. They help businesses maintain accurate temperature and humidity records, ensuring compliance with regulatory standards and protecting valuable assets.

Features of the Testo Saveris 2-H1 Wi-Fi Data Logger

The Testo Saveris 2-H1 is a robust temperature humidity data logger Wi-Fi solution designed to simplify environmental monitoring. Let’s take a closer look at its main features:

Wi-Fi Connectivity for Real-Time Monitoring The Testo Saveris 2-H1 is Wi-Fi enabled, meaning that data is automatically logged and transmitted via Wi-Fi to a cloud-based system. This allows users to access real-time temperature and humidity data from anywhere with internet access, using a smartphone, tablet, or computer. The Wi-Fi connectivity makes it possible to receive alerts about environmental changes immediately, making it ideal for settings where prompt response times are critical.

Accurate Temperature and Humidity Measurement The Testo Saveris 2-H1 offers high-precision temperature and humidity monitoring, crucial for businesses with strict environmental control requirements. The logger captures data with a wide temperature range, ensuring it meets the needs of various industries. With accurate data, businesses can confidently ensure compliance with quality control standards and regulatory guidelines.

Cloud-Based Data Storage One of the standout features of this humidity data logger is its cloud-based storage. Users don’t have to worry about manually downloading data or running out of memory, as all the information is automatically uploaded to the Testo Cloud. This provides a reliable way to back up data, review historical records, and generate detailed reports.

User-Friendly Interface The intuitive design of the Testo Saveris 2-H1 simplifies setup and operation, even for those with minimal technical experience. Through a straightforward setup process, users can connect the data logger to their existing Wi-Fi network, access data through a user-friendly interface, and quickly make adjustments when needed.

Customizable Alerts and Notifications A unique feature of the Testo Saveris 2-H1 is its customizable alert system. Users can set specific thresholds for temperature and humidity, and the logger will automatically send notifications via email or SMS when these limits are exceeded. This proactive alerting system helps businesses take immediate action to address issues, reducing the risk of costly product spoilage or regulatory non-compliance.

How the Testo Saveris 2-H1 Benefits Different Industries

With its versatile features, the Testo Saveris 2-H1 temperature logger Wi-Fi device can benefit a wide range of industries:

Pharmaceutical and Healthcare Industries For pharmaceutical and healthcare facilities, maintaining precise temperature and humidity levels is essential. Vaccine storage, medication preservation, and laboratory samples require strict environmental conditions to remain viable. The Testo Saveris 2-H1 helps these facilities adhere to guidelines by providing consistent and accurate temperature and humidity data logging, ensuring compliance with regulatory standards and avoiding potential product loss.

Food and Beverage Industry Proper storage is crucial for the food and beverage industry, where temperature and humidity control can affect product quality and safety. With a temperature humidity data logger Wi-Fi like the Testo Saveris 2-H1, businesses can monitor conditions in real-time and receive instant alerts if environmental fluctuations occur. This feature is valuable for businesses involved in food storage, transportation, and distribution, helping them minimize waste and maintain quality assurance.

Laboratories and Research Facilities Scientific research often requires precise environmental control. For laboratories, especially those dealing with sensitive chemicals or biological samples, the Testo Saveris 2-H1 provides essential data on environmental conditions. The Wi-Fi connectivity and cloud storage allow lab personnel to monitor data remotely, ensuring a controlled environment even after hours.

Advantages of Choosing a Wi-Fi Data Logger for Temperature and Humidity The Testo Saveris 2-H1 Wi-Fi data logger offers several advantages over traditional data logging methods:

Remote Access: Wi-Fi connectivity enables users to monitor data from remote locations, allowing greater flexibility and responsiveness.

Improved Accuracy and Reliability: With digital logging and cloud-based storage, data accuracy is enhanced, reducing the risk of manual errors.

Compliance with Standards: The logger’s precise tracking capabilities help businesses meet regulatory requirements, ensuring they remain compliant with industry standards.

Long-Term Data Management: The Testo Cloud provides an organized and accessible system for data storage, making it easier to review historical trends and produce compliance reports.

Final Thoughts

The Testo Saveris 2-H1 is an excellent choice for businesses that require dependable and user-friendly temperature and humidity data logging. Its Wi-Fi capabilities, combined with cloud storage and customizable alerts, provide a comprehensive solution for real-time environmental monitoring.

For those in the healthcare, food storage, or research sectors, investing in a humidity data logger like the Testo Saveris 2-H1 is a proactive step toward ensuring product quality, compliance, and operational efficiency.

Why you should choose GPS tracking and IoT solutions for your business in Qatar.

In today’s business landscape, staying ahead of the competition and keeping up with the demands of customers is crucial. One way to do this is by leveraging technology to improve efficiency, productivity, and customer service. GPS tracking and Internet of Things (IoT) solutions are among the most powerful technologies that businesses can adopt to achieve these goals. In this blog, we will discuss the reasons why you should choose GPS tracking and IoT solutions for your business in Qatar.

Improve Fleet Management: GPS tracking technology can help businesses to track and manage their vehicles and drivers more effectively. With GPS tracking devices installed in your vehicles, you can monitor their location, speed, and performance in real-time. This can help you to optimize your routes, reduce fuel costs, and improve overall fleet efficiency.

Enhance Asset Tracking: IoT sensors can be used to track and monitor various assets in your business, such as equipment, tools, and inventory. This can help you to reduce losses, improve asset utilization, and prevent theft.

Increase Safety and Security: With GPS tracking and IoT solutions, businesses can enhance safety and security measures. For example, IoT sensors can be used to monitor workplace environments for hazardous conditions, such as high temperatures or toxic gases. Additionally, GPS tracking devices can be used to ensure the safety of lone workers or employees working in remote locations.

Enhance Customer Service: GPS tracking technology can help businesses to provide better customer service by improving delivery times and tracking shipments. This can help to increase customer satisfaction and loyalty.

Improve Efficiency: By using GPS tracking and IoT solutions, businesses can automate various tasks and processes, reducing the need for manual intervention. This can help to save time, reduce costs, and improve overall efficiency.

Gain Competitive Advantage: By adopting GPS tracking and IoT solutions, businesses can gain a competitive advantage by offering better services and products to customers. This can help to attract and retain customers, increasing revenue and profitability.

In conclusion, GPS tracking and IoT solutions are powerful technologies that can help businesses in Qatar to improve efficiency, productivity, and customer service. By leveraging these technologies, businesses can gain a competitive advantage and stay ahead of the competition. If you’re looking to take your business to the next level, it’s time to consider Best GPS tracking and IoT solutions In Qatar By Isense The Best Temperature Monitoring Solutions In Qatar & Best Humidity Monitoring Solutions In Qatar.

In the fast-paced and highly regulated world of the food industry, maintaining precise temperature control is paramount to ensure product safety and quality. One indispensable tool in achieving this is the temperature probe.

How Temperature Monitoring Systems Can Save Data Centers from Overheating and Potential Disasters.

In the fast-paced world of technology, data centers play a critical role in storing and processing vast amounts of information. However, the very systems that power these centers can also be their downfall. Overheating is a common and potentially catastrophic issue that data centers face, leading to system failures, data loss, and even costly downtime. That's where temperature monitoring systems come into play. By constantly tracking and analyzing temperature levels, these innovative solutions can prevent overheating and avert potential disasters. In this article, we will explore the importance of temperature monitoring systems in data centers, their key features, and how they can save businesses from the devastating consequences of overheating. Whether you're a data center manager or a business owner relying on the smooth operation of your IT infrastructure, understanding the role of temperature monitoring systems is crucial in ensuring the safety and efficiency of your operations. So let's dive in and discover the power of these systems in safeguarding data centers from overheating and potential disasters.

In today's digital age, data centers are the backbone of our technological infrastructure, handling vast amounts of data that power our daily lives. However, data centers are not immune to challenges, one of the most critical being the risk of overheating. The excessive heat generated by servers and other equipment can lead to system failures, downtime, and even catastrophic disasters. In this blog post, we will explore how easyMonitor : temperature monitoring systems play a vital role in safeguarding data centers from overheating and potential disasters.

Understanding the Risks of Overheating:

Data centers rely on an intricate network of servers, storage systems, and networking equipment that generate substantial heat during operation. If not properly managed, this heat can accumulate, causing hardware failures, reducing performance, and increasing the risk of electrical fires. Overheating can also impact the lifespan of equipment and result in costly replacements.

The Role of Temperature Monitoring Systems:

Temperature monitoring systems act as the first line of defense against overheating in data centers. These systems utilize a network of sensors strategically placed throughout the facility to continuously monitor the temperature in real-time. By collecting accurate and precise temperature data, these systems can provide valuable insights into the thermal conditions within the data center.

Early Detection and Alerts:

Temperature and humidity monitoring systems enable early detection of any potential temperature anomalies or deviations from the optimal operating range. By setting thresholds and triggers, the system can promptly alert data center operators and administrators about any temperature fluctuations. These timely alerts allow for swift intervention to prevent overheating before it escalates into a critical situation.

Preventive Maintenance and Optimization:

Data center temperature monitoring systems not only help identify immediate issues but also assist in proactive maintenance and optimization. By analyzing historical temperature data, administrators can identify trends, patterns, and potential hotspots within the facility. This insight enables proactive measures such as equipment reconfiguration, airflow adjustments, and the implementation of cooling solutions to maintain optimal temperatures and prevent future overheating risks.

Ensuring Business Continuity:

By implementing temperature humidity monitoring systems, data center operators can mitigate the risk of catastrophic failures and ensure uninterrupted business operations. By proactively managing temperature levels, data centers can reduce the likelihood of unexpected downtime, thereby maximizing uptime, preserving data integrity, and maintaining customer satisfaction.

Conclusion:

Temperature monitoring systems are indispensable tools for maintaining the health and efficiency of data centers. They provide real-time monitoring, early detection, and proactive measures to prevent overheating and potential disasters. By investing in these systems, data center operators can significantly reduce the risk of hardware failures, optimize energy usage, and ensure uninterrupted operations. With the ever-increasing demand for reliable and efficient data storage and processing, easyMonitor temperature and humidity data logger system are a crucial component for protecting the integrity and reliability of our digital infrastructure.

Can I request a yuu that owns a python for a pet? With Deuce, Ace, Idia and Cater. Yuu treats their python like their own child and even keeps the snake's shed as treasure. Scenario or headcanons please. Keep up the good work and make sure you're okay

General Yuu Headcanons:

Yuu lovingly refers to their python as “my baby,” “my angel,” or sometimes just “sweet noodle.”

The snake lives in a custom enchanted enclosure that mimics their natural habitat, complete with heat lamp charms and illusion spells for humidity.

Yuu keeps every shed skin in a labeled shadow box with dates like, “First full shed in Twisted Wonderland 💖.”

Yuu regularly hand-feeds the python (usually frozen mice defrosted and warmed up), sings to it, and lets it drape around their shoulders like a living scarf during strolls around Ramshackle.

Deuce Spade

At first? Terrified. He tries to be tough but jumps when the python flicks its tongue at him.

“W-Whoa! It’s not poisonous, right?? Wait—venomous! I mean—Yuu?! It’s on your face!!”

Once Yuu explains the python is harmless and even-tempered, Deuce really tries to be brave for their sake.

He starts reading about reptiles so he won’t seem dumb. Ends up knowing a lot about snake biology and even suggests better heating enchantments for the terrarium.

Secretly proud when the python seems to “choose” his lap to curl up on one day. (“Do you think he… likes me??”)

Treats the shed skins like sacred scrolls. Helps Yuu frame them like priceless art.

Ace Trappola

“Okay, but, like… you kiss that thing??”

Teases Yuu constantly about being a “snake parent” but also becomes very protective of the python after spending time with it.

Gets low-key jealous when the snake curls around Yuu but not him.

Tries to “bribe” the snake with warm hands and treats. It tolerates him. He pretends it loves him.

“This is our baby now, right? I’m the cool uncle. Wait—no—I’m the stepdad who earns its trust with snacks.”

Calls the shed skins “reptile receipts” but still helps Yuu clean and mount them. Makes jokes about selling them as “organic fashion accessories.”

Idia Shroud

Immediately fascinated. “Wha—waitwaitwait, is it a ball python? What morph? Can I scan it?”

Scared to touch it at first, but Ortho encourages him. Ends up spending hours watching it in its enclosure like a calming stream.

“It’s like watching a super elegant boss monster just vibe. This is peak NPC pet energy.”

He and Yuu geek out about terrarium enchantments. Helps code a temperature-monitoring glyph system with holographic status alerts.

Finds the shed skin beautiful and saves a digital model of it for art references. Makes a tiny 3D-printed charm out of one and gives it to Yuu.

Let’s Yuu’s python slither around his dark room because he likes how it glows under his gaming setup.

Cater Diamond

“OMG!! Is this your sss-sweet lil danger noodle? 😍”

Takes a million selfies with the python—filters, glitter edits, and all. Posts: “#NRCPetGoals #SnakeParent”

At first a little squeamish, but he sees how much Yuu loves it and warms up fast. Carries the snake around like a model accessory at one point.

Buys it a cute little hat. Yuu: “Cater no.” Cater: “Cater yes.”

Hypes up Yuu constantly for their care. “You treat this snake like a little prince/princess—it's adorable. You’ve got major ‘cool cryptid mom’ vibes.”

Helps Yuu design a memory album with each shed skin preserved next to photos of how the python looked during that time.

Round 1 - Phylum Arthropoda

(Sources - 1, 2, 3, 4)

Arthropoda is a phylum of animals that have segmented bodies, possess a chitin exoskeleton, and have paired segmented appendages. They are colloquially called “bugs” though this is often only used for terrestrial arthropods, and sometimes only used for insects specifically.

After Nematoda, this is the most successful phylum, and it is far more diverse, with up to 10 million species! Arthropods account for 80% of all known living animal species. The three major subphyla include the Chelicerates (sea spiders, horseshoe crabs, arachnids, and the extinct eurypterids and chasmataspidids), the Myriapods (centipedes and millipedes), and the Crustaceans (shrimps, prawns, crabs, lobsters, crayfish, seed shrimp, branchiopods, fish lice, krill, remipedes, isopods, barnacles, copepods, opossum shrimps, amphipods, mantis shrimp, entognaths, and insects).

Arthropods are so diverse in fact that it is next to impossible for me to describe a model arthropod. They are important members of marine, freshwater, land, and air ecosystems and are one of only two major animal groups that have adapted to life in dry environments, the others being chordates. All arthropods have an exoskeleton and must molt as they grow, replacing their exoskeleton. Some arthropods go through a metamorphosis in this process. They have brains, a heart, and blood (called hemolymph, though some crustaceans and insects also use hemoglobin). They sense the world through small hairs called setae which are sensitive to vibration, air currents, and even chemicles in the air or water. Pressure sensors function similarly to eardrums. Antennae monitor humidity, moisture, temperature, sound, smell, and/or taste, depending on species. Most arthropods have sophisticated visual systems ranging from simple eyes (ocelli) which orient towards light, to compound eyes consisting of fifteen to several thousand independent ommatidia capable of forming images, detecting fast movement, or even seeing polarized or ultra-violet light. Some arthropods are hermaphroditic, some have more than two sexes, some reproduce by parthenogenesis, some by internal fertilization, some by external, some have complex courtship rituals, some lay eggs, some give live birth, some have prolonged maternal care. The first arthropods are known from the Ediacaran, before the Cambrian era.

Propaganda below the cut:

Insects are the first animals to have achieved flight

The smallest arthropods are the parasitic crustaceans of the class Tantulocarida, some of which are less than 100 micrometres long. The largest arthropod is the Japanese Spider Crab (Macrocheira kaempferi) with a legspan of up to 4 metres (13 ft) long. The heaviest is the American Lobster (Homarus americanus), which can get up to 20 kilograms (44 lb).

Many arthropods are popular pets, including various species of crab, shrimp, isopod, crayfish, mantis shrimp, millipede, centipede, tarantula, true spider, scorpion, amblypygid, vinegaroon, mantis, cockroach, beetle, moth, and ant! Some are even domesticated, including silk moths and honeybees.

Many arthropods are eaten by humans as a delicacy, and farming insects for food is considered more sustainable than farming large chordates. These farmed arthropods are referred to as “minilivestock.”

Arthropods feature in a variety of ways in biomimicry: humans imitating elements of nature. For example, the cooling system of termite mounds has been imitated in architecture, and the internal structure of the dactyl clubs of mantis shrimp have been imitated to create more damage tolerant materials.

Spider venoms are being studied as a less harmful alternative to chemical pesticides, as they are deadly to insects but the great majority are harmless to vertebrates. They have also been studied and could have uses in treating cardiac arrhythmia, muscular dystrophy, glioma, Alzheimer's disease, strokes, and erectile dysfunction.

Shellac is a resin secreted by the female Lac Bug (Kerria lacca) on trees in the forests of India and Thailand. It is used as a brush-on colorant, food glaze, natural primer, sanding sealant, tannin-blocker, odour-blocker, stain, and high-gloss varnish. It was once used in electrical applications as an insulator, and was used to make phonograph and gramophone records until it was replaced by vinyl.

One of the biggest ecosystem services arthropods provide for humans is pollination. Crops where pollinator insects are essential include brazil nuts, cocoa beans, and fruits including kiwi, melons, and pumpkins. Crops where pollinator insects provide 40-90% of pollination include avocados, nuts like cashews and almonds, and fruits like apples, apricots, blueberries, cherries, mangoes, peaches, plums, pears, and raspberries. In crops where pollinators are not essential they still increase production and yield. Important pollinators include bees, flies, wasps, butterflies, and moths.

Many arthropods are sacred to humans. In Ancient Egypt, scarab beetles were used in art, religious ceremonies, and funerary practices, and were represented by the god Khepri. Bees supposedly grew from the tears of the sun god Ra, spilled across the desert sand. The goddess of healing venomous bites and stings, Serket, was depicted as a scorpion. Kalahari Desert's San People tell of a legendary hero, Mantis, who asked a bee to guide him to find the purpose of life. When the bee became weary from their search, he left the mantis on a floating flower, and planted a seed within him before passing from his exhaustion. The first human was born from this seed. In Akan folklore, the cunning trickster figure Anansi/Ananse is depicted as a spider. Western astrology uses the crab constellation, called Cancer, and the scorpion constellation, called Scorpio. Dragonflies symbolize pure water in Navajo tradition. In Anishinaabe culture, dreamcatchers are meant to represent spiderwebs and are used as a protective charm for infants. They originate from the Spider Grandmother, who takes care of the children and the people of the land in many Native American cultures. The Moche people of ancient Peru often depicted spiders and crabs in their art. In an Ancient Greek hymn, Eos, the goddess of the dawn, requests of Zeus to let her lover Tithonus live forever as an immortal. Tithonus became immortal, but not ageless, and eventually became so small, old, and shriveled that he turned into the first cicada. Another hymn sings of the Thriae, a trinity of Aegean bee nymphs. Native Athenians wore golden grasshopper brooches to symbolize that they were of pure, Athenian lineage. In an Ancient Sumerian poem, a fly helps the goddess Inanna when her husband Dumuzid is being chased by galla demons. In Japanese culture, butterflies carry many meanings, from being the souls of humans to symbols of youth to guides into the afterlife. Ancient Romans also believed that butterflies were the souls of the dead. Some of the Nagas of Manipur claim ancestry from a butterfly. Many cultures use the butterfly as a symbol of rebirth. And the list goes on…

cute crab eat a strawbebby:

Snippet - Off the Hook - Forward but Never Forget/XOXO

Soul-bonds aren't all they're cracked up to be...

tw: body horror, mentions of convalescence

Forward but Never Forget/XOXO

Snippet:

It wasn't something she could confide in anyone. Not to Singed, who was there every evening, with his icky potions and ickier smiles. To him, she was J17: a collection of warm, pliable parts with a fascinating gooey center. His eyes, always looking for a place to cut the incision and dig in.

And not even Silco's implacable hand, clamping his bony shoulder, could pry Singed's hungry stare off her.

She was a science-fair, waiting to happen.

It wasn't something she could confide in Viktor, either. Even though he was there nearly as often as Singed. Always looking at her too. But so sweet, so solicitous, and so, so scared because of what they'd done—what he'd done—that Jinx couldn't stand it.

They'd had so much fun working together—two gears in a perfectly synchronized machine. But after the Change, the synchronicity was soul-deep. Infusion, exfusion; blood, bone; bile, brains. He felt everything Jinx felt. Hurt everywhere Jinx hurt. He knew her insides better than anyone in Zaun.

And he couldn't stand it.

Not because of Jinx's big-eyed, freckle-faced youth—though Jinx knew it was a huge factor—but because Viktor couldn't stand himself. His shame was a sub rosa scent, and it soured even the smallest joys, like Jinx showing off her gnarly stitches or sticking little paper hats on her finger stubs or doing a wickedly accurate impression of Singed when he brandished the catheter—"Tsk, tsk, it only hurts a teeny bit."

Viktor had a thing for guilt, the way Jinx had a thing for guns. And though the Change had knitted them closer—fused them into the same spiritual superstructure—the truth was they had a better dynamic apart.

He had his machines and his monomania to take him away from it all. Jinx had her monstrosity, and the madness of knowing what it meant. 

And though he'd sit for hours and hold her mangled hand—even kiss it, if she pouted extra pitifully—he was too careful, like she was made of cracked porcelain. His guilt insulated their connection. And though he was attuned to her pain, it was a reminder of those parts of himself he'd rather leave behind.

The Change had altered him too. Made him a different man from the Viktor of yesteryear.

He sought the very perfection Jinx dreaded.

A final destination; a final breath.

A be-all and end-all.

It was something else Jinx couldn't mention. So she let him off the hook in simpler ways. Most evenings, she'd let him make himself useful.

It was a cinch. Viktor had a thing for atonement too. He'd bend over backwards to remedy what he'd ruined. He made so many small improvements to Jinx's room. A bedside monitor, a gooseneck reading lamp, an ergonomic pillow, a massaging mattress topper, a heating pad, a white-noise machine, an aromatherapy diffuser, an extra-foamy skin lotion, an extra-frothy bidet.

(That's a thingamajig that washes your nethers, for the yobs.)

He also designed a pair of cybernetic prosthetics for her missing fingers. They were aces: composed of ultra-durable alloy that was 99.9% waterproof and 99.99% airtight, with an extra layer of ultra-fine nanomesh for maximum flexibility. It even had an integrated shock absorber for extra comfort.

Each digit had an advanced microcontroller. At a touch, they processed pressure, temperature, and humidity, so she could adjust the grip strength of her prosthetics on the fly. And to top it off, he added a nifty laser targeting system similar to his own robotic arm. The laser was controlled through an intuitive haptic interface, allowing Jinx to literally shoot finger-guns at her enemies.

A one-of-a-kind masterpiece. The perfect booby-trap for the ultimate prankster.

He even painted them her favorite colors. Pink and blue, in candy-cane stripes.

The prosthetics looked amazing. They also felt... weird. Viktor had added an extra layer of neural networking to the digits. They never spazzed, or shortcircuited or stopped mid-task. But the fusion between metal and meat wasn't a straight line. It was a spiral staircase, going down, down, down.

It gave Jinx vertigo. It gave her the chills.

Perfect symbiosis wasn't the same as the real deal. Flesh that was warm. Nails that cracked. Skin that bled. Her brain liked those fingers. They were grubby, grimy, grabby. But they were part of the whole.

Part of Jinx.

She couldn't tell Viktor that, either.  For a Tinman, Viktor was unbearably sensitive.  And Jinx, in her new state of hyperempathy, sensed how the act of soothing her physical ills soothed Viktor's psychic ones.

So she'd lay in bed and languish in agony—"They hurt they hurt they HURT!"—and let him fidget and fixate and fuss. His own augmented joints moved faster than ever, zipping everywhere with unsettling smoothness.  He'd teach her how to flex the digits using his own Hex-claw: a show of stealthy shadow-puppetry and high-swooping panache. Whenever Jinx got it right, he'd crack his one and only smile: a reflexive curl of lips that never quite crossed into mirth, but was unrecognizable as anything else. He'd work out the rest of her too, if she asked: moving her, turning her, positioning her.  If she needed her legs massaged, her neck cricked, her spine realigned, he did so with alacrity. Ditto if she needed her nails trimmed, her skin exfoliated, her eyebrows tweezed.

He'd even brushed her teeth once, which had been weird but also weirdly... erotic? He was so methodical. He worked the brush in a repetitive, almost hypnotic rhythm: back and forth, up and down. Twenty-five even strokes on the upper and lower teeth, fifteen strokes on the inside, and another ten to get all that gunk between her gums.

The sensation made Jinx's lips tingle and her tongue buzz. Her giggles throughout the operation were pure helium for his ego. He had no idea that by letting him help her, she was helping him help himself.

He had a lot of pain, too. And a lifetime's practice at denying it.

But Viktor could not deny her.

After the Change, he'd left off his stilted silences and terse civility. He'd stopped being curt. Stopped talking to her, too, like she was an unhinged brat with too many explosives and too little common sense.

Slowly, inexorably, he let slip the natural reserve that kept the world out—and kept his real self locked in.

His best self.

He showed it to Jinx in slices. He had a lovely reading voice.  Jinx was a rotten reader—she had too many thoughts to follow any plot. But she could listen, if she concentrated really, really hard. Viktor was good at keeping her engaged. He had a soft, deep voice that was easy on the earholes.  Its rhythm reminded Jinx of the sanding wheel in Silco's steelmill: slow, steady, precise. The Drekkengate accent had a lovely, lulling quality that put her right to sleep the way Mommy's lullabies used to.

And he could be funny. He had a wit that would've been dry as desert sand, except it was so painfully sincere you'd think he'd bled himself out to harvest every ounce. He'd tell her stories from his past. About the Academy. About Heimerdinger. About Talis.

They weren't always happy stories.  But there was an honesty to them that Jinx—the trickster—couldn't help but covet as her own.

 He told her about Sky.

Jinx listened, though the Change made his pain her pain. Made his guilt her guilt. Made her want to crawl out of her skin and set the rest of herself on fire.

Because she'd given him her pain, too. Like a present wrapped in pink foil, the edges of her psyche peeled off for his perusal. And he, Vik the Voracious, had eaten it raw. Everything—her childhood hurts, Mylo, Claggor and Vi, the Cannery, Vander in the burning alley, and most agonizing of all: Silco—Viktor had swallowed, and never spat out.

He kept the hurt. He held it for her. Same way Jinx held his own. They were a perfect circle: a circle of suffering. The snake eating its tail.

And the only way they'd ever find completion was to cut the circle in two.

Jinx couldn’t say that, either. So, on the nights when the circle closed too tight, a feedback loop of ow-ow-OW, Jinx would fake cataleptic fatigue, and send Viktor packing. It hurt her. It hurt him too. But the short nights apart, away from her spooks and his shadows, kept the circle from strangling them both.

Gave them each space to breathe.

Anyway, Viktor was Zaun's premier Machinist. He always had somewhere to be. A higher plane to ascend. One foot in the workshop; the other, in eternity.

Jinx knew he was busy with the post-disaster salvage effort. He was rebuilding the collapsed mining rig in the Deadlands; rebuilding the jellified bodies of the victims.

Rebuilding Zaun, one screw at a time.

And he was rebuilding himself along the way: reworking every foible; excising every flaw. 

He'd finish it, too. Even if it killed him.

He was already a third gone: one arm, half a leg, a lung, three vertebrae's worth of spine. The augmentations were subtle; only someone as savvy as Jinx could spot the difference. But every replacement cost a pound of flesh.  His body wasn't metamorphosing. It was nosediving, and Viktor had his hands all over the mothership's controls. Pulling levers. Pushing buttons. Steering the ship towards its final destination.

Not perfection.

Death.

Whereas Jinx was everywhere and nowhere at once.  Trapped, as only perfection can trap.

Curious. How tough is it to raise a dreepy? I've recently found one just randomly within my university and it has since never left my side for quite some time, prompting me to raise it (as it didn't have an owner, is that weird?). But yes please help me! I'm not too informed on caring for a dreepy but it's just so affectionate too that it slipped my mind!

Raising Dreepy can be either quite tough or low-effort, depending on your perspective and means. They have specific environmental needs: high humidity, low light, and a narrow temperature range. It is possible to spend a decent amount of money up front for a terrarium system that requires very little maintenance. Conversely, some people find constantly monitoring and humidifying a space somewhat mentally taxing. They are also quite social Pokémon, and prefer to be near family members as frequently as possible, making them ideal companions to homebodies or folks whose careers can accommodate partner Pokémon, but potentially stressful for people who work a more classic 9-5. As a student, I imagine that this could actually be ideal for you as a calm study comopanion. They don't have especially rigorous physical exercise needs, so from this perspective many people enjoy raising a competitively viable Pokémon without constantly needing to be running around outside or training in a Gym.

-Thea

Reference saved in our archive (Daily updates!)

The catharsis this study gave me by comparing humidity and UV's effects on aerosol spread: Even if farUV is as good as the three or so small-scale studies claim, just take a look at those whiskers. I like my range of efficacy to have a much smaller confidence interval, plus air filters and humidifiers are cheaper and easier to maintain.

Abstract The COVID-19 pandemic highlighted the role of indoor environments on disease transmission. However, our understanding of how transmission occurred evolved as the pandemic progressed. Enclosed spaces where pathogen-laden aerosols accumulate were strongly linked to increased transmission events. Most classrooms, particulalry in the U.S., do not have any mechanical ventilation systems but do have many people congregating indoors for long periods of time. Here we employ a safe, non-pathogenic surrogate virus, the bacteriophage phi6, to interrogate aerosol transmission in classroom environments that do not have any natural or mechanical ventilation in order to provide baseline understanding of how effectively aerosols facilitate new infections. We measure exposure risk using a modified passive monitoring technique compliant with applicable standards, including ISO 14698–1:2003. We find that virus-laden aerosols establish new infections over all distances tested within minutes and that the time of exposure did not change transmission rate. We further find that relative humidity, but not temperature nor a UV-based disinfection device, significantly lowered transmission rates. Our data suggest that, even without mechanical ventilation, relative humidity remains an inexpensive and highly effective mitigation strategy while UV air treatment may not.

How to Solve Overheating Issues in Electrical Panels

Electrical panels are the nerve centers of industrial, commercial, and residential power systems. Their reliability is crucial, yet one of the most common and dangerous issues that can arise is overheating. Left unaddressed, overheating in electrical panels can lead to equipment failure, costly downtime, fires, or even fatal accidents. Understanding the root causes and adopting preventive as well as corrective measures is essential to ensure electrical safety and operational efficiency.

Causes of Overheating in Electrical Panels

To solve the problem of overheating, we must first identify its sources. Some of the most common causes include:

1. Loose or Corroded Connections

Electrical current encounters resistance at loose or oxidized joints. This resistance generates heat, especially under load, leading to localized hotspots which may not be visible until failure occurs.

2. Overloaded Circuits

Each circuit is rated for a specific current. Drawing more current than the rated capacity results in excess heat generation within breakers, busbars, and wires.

3. Inadequate Ventilation

Poor airflow in and around the panel restricts natural or forced heat dissipation. In high ambient temperature environments, this can quickly push the panel beyond safe thermal limits.

4. Improper Component Sizing

Undersized breakers, conductors, or transformers struggle to handle load currents, leading to thermal stress and degradation over time.

5. Dust and Contamination

Dust accumulation acts as an insulating layer, trapping heat inside components. Combined with humidity or oil vapors, this can further degrade insulation and create tracking paths.

How to Identify Overheating Problems

1. Thermal Imaging

Using infrared thermography is one of the most effective ways to detect hotspots. It provides a non-contact, real-time temperature map of the panel and highlights abnormally heated components.

2. Manual Temperature Monitoring

For panels without thermal sensors, regularly measuring surface temperatures using contact thermometers can provide early warnings of rising heat levels.

3. Visual Inspection

Signs like discoloration, melted insulation, or the smell of burning plastic indicate overheating. Ensure regular visual checks are part of your maintenance routine.

Solutions to Overheating in Electrical Panels

1. Tighten and Maintain Electrical Connections

Schedule regular maintenance to tighten terminals and busbar connections. Apply proper torque settings using calibrated tools to avoid over- or under-tightening.

2. Balance and Distribute Loads

Ensure that the load across phases is balanced. Uneven distribution causes one phase to overwork, which leads to overheating and inefficiency.

3. Upgrade Panel Capacity

If the electrical demand exceeds the panel’s rated capacity, consider upgrading to a higher-rated panel or adding sub-panels to spread the load.

4. Enhance Cooling and Ventilation

· Install forced ventilation systems like exhaust fans or panel coolers.

· Use heat exchangers or air conditioners in environments with high ambient temperatures.

· Ensure adequate spacing between panels and walls for natural convection.

5. Use Appropriately Rated Components

All breakers, fuses, contactors, and wiring must match the system’s voltage and current ratings. Derate components appropriately if operating in high-temperature environments.

6. Install Thermal Sensors or Smart Monitoring

Modern panels can be equipped with thermal sensors that provide real-time data to a building management system (BMS) or SCADA. This allows predictive maintenance before issues escalate.

Preventive Measures and Best Practices

· Design with Expansion in Mind: Avoid loading a panel to its full capacity. Always leave a 20–30% margin for future growth and safety.

· Implement a Routine Maintenance Schedule: Quarterly or bi-annual inspections reduce the risk of unexpected failures.

· Train Maintenance Personnel: Staff should be equipped to detect early signs of thermal distress and follow lockout/tagout (LOTO) procedures.

· Keep Panels Clean and Sealed: Use gasketed enclosures in dusty environments and clean panels regularly to prevent dust build-up.

Conclusion

Overheating in electrical panels is a preventable issue that, if neglected, can have severe consequences. By adopting systematic inspection routines, upgrading infrastructure as needed, and leveraging modern monitoring technologies, businesses and facility managers can safeguard both equipment and personnel. The key is proactive action: identify, analyze, correct, and prevent — the four pillars of managing thermal risk in electrical systems.

How Does Residential Metal Roofing Affect Home Ventilation?

Many homeowners focus on aesthetics, durability, and energy efficiency when it comes to home improvements. One element that often gets overlooked is ventilation. You might be wondering how your choice of roofing material, like residential metal roofing, impacts the airflow in your home. Let’s dive into how residential metal roofing can affect your home's ventilation, ensuring a comfortable and energy-efficient living space.

Understanding Residential Metal Roofing

Residential metal roofing is becoming increasingly popular among homeowners. It offers a sleek, modern look and is known for its durability and energy efficiency. Metal roofs reflect heat from the sun, helping to keep homes cooler in the summer months. However, to maximize their benefits, it’s essential to consider how these roofs interact with your home's ventilation system.

The Basics of Home Ventilation

Before we delve into the relationship between residential metal roofing and home ventilation, let’s clarify what home ventilation entails. Proper ventilation allows fresh air to circulate throughout your home while expelling stale air, moisture, and unwanted odors. This process helps maintain a healthy indoor environment and can significantly impact energy bills.

How Residential Metal Roofing Influences Ventilation

1. Design and Structure

The design of your residential metal roofing can significantly affect ventilation. For instance, standing seam metal roofs often have built-in ventilation systems that enhance airflow. These roofs can also be installed with ridge vents or other ventilation options that allow hot air to escape while drawing in cooler air. This design helps maintain a balanced temperature in your home.

In contrast, traditional shingles may offer less design flexibility. If you opt for a non-ventilated metal roof, consider additional ventilation systems to ensure adequate airflow.

2. Reflective Properties

Residential metal roofing typically comes with reflective coatings that prevent heat absorption. This is beneficial for your home’s temperature regulation but can also affect air circulation. A cooler roof may lead to lower attic temperatures, reducing the amount of warm air rising into your living spaces. However, any trapped heat could lead to moisture issues or condensation problems in the attic without proper ventilation.

To maximize the benefits of your reflective metal roof, ensure your ventilation system complements its properties. You may use ridge vents, gable vents, or soffit vents to facilitate airflow.

3. Energy Efficiency

Energy efficiency is a major selling point for residential metal roofing. These roofs can significantly lower energy costs by minimizing heat transfer and reducing the need for air conditioning in the summer. However, energy savings can be compromised if your home needs proper ventilation. Without adequate airflow, your attic can become excessively hot, leading to higher energy consumption as your HVAC system works harder to cool down the space.

Maintaining Proper Ventilation

Proper maintenance ensures that your residential metal roofing supports effective ventilation. Here are some tips to keep in mind:

Regular Inspections

Conduct annual inspections of your roof and ventilation systems. Look for obstructions, such as debris in the vents or signs of damage. Addressing these issues early can prevent more significant problems later.

Install Ventilation Accessories

If your metal roof doesn’t include built-in ventilation options, consider installing accessories like ridge vents, power vents, or turbines. These additions can enhance airflow and improve your home’s overall ventilation.

Monitor Humidity Levels

Keep an eye on indoor humidity levels. If you notice excessive moisture, it might indicate your ventilation system isn’t malfunctioning. Humidity levels a% can create an environment conducive to mold and mildew growth, warming your home and family.

The Benefits of Proper Ventilation with Residential Metal Roofing

Investing in proper ventilation alongside residential metal roofing brings several advantages:

Improved Indoor Air Quality: Effective ventilation helps filter out indoor pollutants, improving the overall air quality in your home.

Extended Roof Lifespan: Proper airflow helps prevent heat buildup in the attic, reducing the risk of damage to your roof and extending its life.

Energy Savings: With adequate ventilation, your HVAC system will work less hard, lowering energy bills.

Comfortable Living Spaces: Maintaining a consistent temperature and humidity level in your home provides a more relaxed environment for you and your family.

In summary, residential metal roofing can positively impact your home’s ventilation if properly designed and maintained. Enhancing airflow allows you to enjoy a more comfortable living environment while maximizing energy efficiency. Whether considering a new metal roof or lookingimprovingxisting one, remember to prioritize ventilation in your planning.

Ready to explore how residential metal roofing can enhance your home’s ventilation and energy efficiency? Visit Lastime Exteriors to learn more about our services and discover innovative, energy-efficient roofing solutions tailored to your needs!

Revolutionize Your Environment: Remote Temperature and Humidity Monitoring with iSense

In a world where precision is paramount, ensuring optimal conditions for your assets is crucial. Whether you manage a data center, warehouse, or healthcare facility, monitoring temperature and humidity remotely is the key to maintaining peak performance. iSense, with its cutting-edge technology, offers a comprehensive solution for temperature and humidity monitoring in Qatar.

Understanding the Importance of Monitoring:

In the dynamic climate of Qatar, where environmental conditions can vary significantly, having a robust monitoring system is essential. iSense addresses this need by providing state-of-the-art solutions that empower businesses to safeguard their valuable assets.

iSense Temperature Monitoring Solutions in Qatar:

iSense's temperature monitoring solutions offer real-time insights into the temperature of your controlled environments. From laboratories requiring precise temperature ranges to cold storage facilities preserving perishable goods, iSense ensures that your assets are kept in optimal conditions.

Key Features:

Real-Time Alerts: Receive instant notifications if the temperature deviates from the defined parameters, allowing for immediate corrective actions.

Historical Data Analysis: Access and analyze historical temperature data to identify patterns and make informed decisions to enhance efficiency.

User-Friendly Interface: iSense's intuitive interface provides a seamless experience for users to monitor and manage temperature settings effortlessly.

Humidity Monitoring Solutions in Qatar:

In addition to temperature, humidity plays a pivotal role in various industries, impacting everything from product quality to equipment performance. iSense's humidity monitoring solutions are designed to maintain the delicate balance required for optimal conditions.

Key Features:

Precise Humidity Control: Set and monitor humidity levels to ensure the longevity of sensitive materials and equipment.

Data Logging: Track humidity trends over time, allowing for proactive measures to be taken to prevent potential issues.

Customizable Alerts: Receive alerts for humidity fluctuations, preventing potential damage to goods or equipment.

Why Choose iSense?

Reliability: iSense provides robust, reliable monitoring solutions that you can trust.

Remote Accessibility: Monitor and manage your environment from anywhere, providing convenience and peace of mind.

Compliance: Meet regulatory requirements effortlessly with iSense's compliance-ready solutions.

In conclusion, iSense offers a transformative solution for temperature and humidity monitoring in Qatar, ensuring that your assets are protected, and your operations run smoothly. Explore the possibilities of remote monitoring with iSense by visiting iSense's Website. Your environment, your control.

SECOND COURSE - KITCHEN

(or at least the main parts i recognized)

mads mikkelsen and lydia hearst for "euroman", april 2010 by kenneth willardt.

1. GE Monogram 36" Rangetop

First up, the rangetop. Unlike a cooktop, which sets into a pre-cut space in a counter or island, a rangetop overflows the sides and extends beyond the boundaries of the counter with front-facing knobs. This unit in particular is the GE Monogram 36" Rangetop (ZGU366NPSS), with an MSRP of $3400, reversible grates, and six 18,000 BTU power boil burners.

2. 30" GE Monogram Tri-Zone Counter Depth Integrated Refrigerator

Next, a dual installation of 30" GE Monogram Tri-Zone Counter-Depth Integrated Refrigerators (ZIC30GNHIl, shown with optional custom panels for seamless appearance). With an MSRP of $6999 each, these units are made more shallow, known in the industry as counter-depth, to integrate properly with standard cabinetry. Featuring fridge, freezer, and convertible middle-drawer climate zones, this unit has a capacity of 14.09 cu. ft. overall, per unit. It has two separate sealed systems for constant temperature control, and uses the first HFC-Free refrigerant, which has a lower global-warming impact.

3. 30" GE Monogram European Convection Double Wall Oven

A 30" GE Monogram European Convection Double Wall Oven (ZET2SHSS). An MSRP of $5300, with two 5.0 cu. ft. capacity oven cavities. With easy-to-clean all-glass interior door panels, both self-clean and steam-clean options, ten-pass baking elements, and two True European Convection ovens, these units boast convection bake and roast features with closed-door broiling as to not overheat a kitchen, and a built-in temperature probe for perfectly cooked roasts. It also offers a proof mode to assist dough-rising for avid bakers, convection conversion as to not overcook standard recipes, can be monitored remotely with use of a smart phone and GE's WiFi Connect app, and is programmable in both Celsius and Fahrenheit.

4. GE Monogram 240v Built In Oven with Advantium Speedcook Technology

Behold, the GE Monogram 240v Built In Oven with Advantium Speedcook Technology (ZSC2201JSS).

This bad chicken has an MSRP of $3200 and has settings for Speedcook, microwave, convection, and warming. What the hell is Speedcook? It's a combination of microwaves and convection, delivering results up to eight times faster than conventional cooking, and without the need for pre-heating. This thing can reheat, microwave, toast, brown, bake, and gently warm to your heart's content, and has the ability to remember custom recipes.

5. 30" GE Monogram Warming Drawer

Next up, the 30" GE Monogram Warming Drawer (ZW9000SJSS). With an MSRP of $1600, this drawer has a 1.9 cu. ft. capacity, and has variable temperature settings of anything from 75*F to 230*F, and humidity controls from crisp to moist. Gross. It also has a half-rack so you can store more on the inside, and has ball-bearing glides so it pulls out and closes smoothly while making that soothing whoosh noise.

6. 24" GE Monogram Undercabinet Wine Reserve

We also have the 24" GE Monogram Undercabinet Wine Reserve (ZDWR240HBS). With a cool MSRP of $2000, undercabinet wine refrigerators are notoriously tricky because of their front-facing venting needs. If you suffocate refrigerators, even small ones, (like humans) they die.

This fridge features cooling settings suitable to red or white wines, full-extension sliding racks with both horizontal and vertical storage, and has a capacity of 5.5 cu. ft, or 57 bottles.

Hannibal also, apparently, does not believe in dishwashers-panel-ready, drawer-style or otherwise.

What he does believe in? Is coffee, apparently:

7. Royal Paris Vacuum Balancing Coffee Siphon by Royal Coffee Maker

This, dear Fannibals, is a Royal Paris Vacuum Balancing Coffee Siphon, specifically noted by Bryan Fuller to be crafted by Royal Coffee Maker.

Handmade by artisans with affordable materials such as genuine Baccarat Crystal, malachite, copper, obsidian, azurite, and plating of silver and 24k gold, these start at the low, low price of approximately $15,500.

Hannibal's model is the Royal Classic finished in silver, on a Piano Black base. It is, perhaps surprisingly or unsurprisingly, the most tasteful and least ostentatious of all available models.

This brings the approximate total of all Hannibal's kitchen appliances, plus or minus a few of the minor ones, to $45,000.

8. Additionally in his stolen borrowed home in Florence: La Cornue 43" CornuFé Range

In 1908, in the heart of Paris, Albert Dupuy ignited the flame of elite cuisine. It was there that Dupuy premiered the world's first convection oven. At the time, most ovens were mere flat-topped cavities that held racks suspended over a fire. The majority of people simply considered cooking to be heating food to eat. But Dupuy pondered: "What does it really mean to cook?" He developed his oven with a vaulted ceiling to usher heat around the food, rather than trapping it to burn beneath. To enable optimum precision, the oven drew upon the city gas lines that were winding their way to homes and street lamps throughout the City of Light. Dupuy christened the oven La Cornue after the French term cornue - the system for refining the gas that warmed the new creation.

Each range is made by hand and the labor is intensive. Each worker is a specialist, understanding the greater goal.

However they are not just craftsmen, but companions to each range along its journey from inception to crated final product. They are experts in steel, copper and brass, inspired by great design, working as a team to create an inspired tradition.

True excellence can only be achieved when every step in the process is in pursuit of perfection.

For over 100 years, La Cornue has continued to build upon Albert's initial convection innovation and they've expanded the designs and introduced new styles. As a result, the name La Cornue is supposed to represent a renowned spirit.

Hannibal's version runs about $10,000.

Sleeping Pods for Conscripts

Sleeping Pods for Conscripts

The Sleeping Pods for Conscripts are advanced, integrated rest modules designed for use by military personnel in the Republic's paramilitary forces. These pods are engineered to accommodate conscripts sleeping in their full-body armor, including helmets, providing a seamless, secure, and efficient method of rest and recuperation.

Overview

The sleeping pods represent the pinnacle of military sleep technology, blending comfort with utility to ensure that conscripts remain battle-ready even while at rest. Each pod is constructed from a durable, high-grade composite material that offers protection and insulation, effectively creating a self-contained micro-environment.

Functions and Features

Waste Evacuation System Each pod is equipped with an integrated waste management system that connects directly to the conscripts' armor suits. This system efficiently handles all biological waste, ensuring hygiene and comfort without the need for the conscript to leave the pod.

Power Charging Interface The pods feature a sophisticated power interface that connects to the conscripts' armor suits, ensuring that all electronic systems, including communication devices, HUDs (heads-up displays), and life support systems, are fully charged and operational upon waking.

Life Support Integration The pods are equipped with advanced life support systems that monitor and regulate the conscripts' vital signs, providing real-time data to the central command system. This includes oxygen supply management, temperature control, and emergency medical response capabilities.

Hydration System To maintain optimal hydration levels, the pods are fitted with a hydration system that supplies water directly to the conscripts' armor suits. This system ensures that conscripts remain hydrated throughout their rest period without needing to remove their helmets.

Sensory Deprivation and Noise Cancellation To ensure optimal rest, the pods utilize state-of-the-art sensory deprivation technology, including noise-canceling mechanisms and adjustable ambient lighting. This creates a tranquil environment, free from external disturbances.

Communications Link Each pod maintains a secure communication link with central command, allowing for instant alert and mobilization if necessary. This link also enables conscripts to receive updates and briefings without leaving their pods.

Ergonomic Design Despite the full armor requirement, the pods are ergonomically designed to offer maximum comfort. Adjustable internal padding and support structures conform to the contours of the armor, reducing pressure points and ensuring a restful sleep.

Quick Egress System In the event of an emergency, the pods are equipped with a rapid egress system that allows conscripts to exit and mobilize within seconds. This system is synchronized with the conscripts' armor to ensure immediate readiness.

Environmental Conditioning The pods maintain a controlled internal climate, adjusting temperature and humidity to optimal levels for rest. This conditioning also includes air filtration systems to remove contaminants and ensure a clean breathing environment.

Hot Bunking Capability Designed for efficiency, the pods support hot bunking, allowing multiple conscripts to use the same pod in shifts. The pod’s systems quickly sanitize and reset between uses, ensuring each conscript has a clean and ready environment.

Operational Benefits

The integration of sleeping pods into the conscripts' daily routine offers several operational advantages:

Enhanced Readiness: Conscripts remain in their armor and can be deployed instantly, reducing response times during critical situations.

Improved Health Monitoring: Continuous vital sign monitoring ensures early detection of health issues, allowing for prompt medical intervention.

Increased Efficiency: By managing waste, hydration, and charging needs within the pod, conscripts can maximize their rest periods, leading to improved performance during active duty.

Resource Optimization: Hot bunking capability allows for efficient use of space and resources, accommodating more conscripts with fewer pods.

Usage

The sleeping pods are deployed in all major barracks and outposts within the Republic's territory. They are a standard feature in the accommodation of Enforcer Cadets, Paramedic Corps members, Lifeguards, and other paramilitary units. Each pod is assigned to an individual conscript and is programmed to recognize and interface exclusively with their specific armor suit.

See Also

Armor Suits of the Republic

Neuro-Based VR Training Modules

Life Support Systems

References

Republic Defense Technologies Manual, 2047 Edition

Advanced Military Rest Systems: Enhancing Soldier Efficiency and Readiness by Dr. V. Harkness

The Integration of Technology in Modern Warfare by Prof. K. Linwood

This article is part of the Republic's Military Technology Series, providing detailed information on the advanced systems used to maintain the security and efficiency of our paramilitary forces. For more articles, visit the Republic Military Archive.

Meteosat-12 begins prime service duty

A new chapter in European weather and climate monitoring begins as EUMETSAT's Meteosat-12 satellite, formerly Meteosat Third Generation (MTG) Imager 1, takes up the baton from Meteosat-10 to deliver Europe's prime data service from geostationary orbit.

Orbiting at an altitude of around 36,000 kilometers, Meteosat-12 is the first imaging satellite in the MTG program and now moves into its key position above the equator at 0° longitude, directly over the Gulf of Guinea.

From its lofty vantage point, Meteosat-12 is now the main source of near-real-time geostationary satellite data for Europe, Africa and the surrounding oceans. Data from its instruments are distributed to national meteorological services in EUMETSAT member states and beyond, with improved detail and timeliness—as well as new observations such as lightning data—giving weather forecasters additional confidence in their predictions.

Phil Evans, Director-General of EUMETSAT, said, "Meteosat-12 now takes responsibility for delivering Europe's prime geostationary satellite service, ensuring continuity and delivering enhanced capabilities at a time when severe weather events are becoming more frequent due to the climate crisis.

"The MTG system marks a new era in weather forecasting, providing data that support everything from improving severe weather warnings and enhancing transport safety to wildfire response and air quality hazard assessments.

"Once the full MTG constellation is operational, it will, for the first time, allow us to observe the entire lifecycle of a convective storm—from the earliest signs before clouds begin to form to the detection of lightning strikes. These data help forecasters, emergency services, and civil authorities respond more rapidly and effectively to protect lives, property, and infrastructure."

Launched on 13 December 2022, Meteosat-12 scans the full Earth disk every 10 minutes, delivering data more frequently and in sharper detail than its predecessor. It carries two main instruments: the Flexible Combined Imager (FCI) and Lightning Imager (LI).

The FCI delivers imaging data in twice as many spectral channels than its predecessor and with an improved spatial resolution, providing more detailed views of fast-changing weather such as storms, fog, and rapidly forming clouds.

The satellite also carries the LI, Europe's first space-based instrument to detect lightning across Europe and Africa, day and night, helping forecasters assess storm development, intensity, and risk.

The MTG program will run into the 2040s and includes six satellites: four imagers and two sounders. The first MTG sounder, MTG-S1, will launch in summer 2025 and provide vertical profiles of temperature and humidity from geostationary orbit—another first for Europe.

Combined with data from MTG imagers and next-generation Metop satellites, it will enhance short-range forecasting by enabling specialists to track storms throughout their entire lifecycle and supplying data to further enhance weather models.

As EUMETSAT deploys the MTG satellites, those of the Meteosat Second Generation will continue to play an important role in EUMETSAT's constellation for years to come.

Meteosat-10 will now assume a supporting role, continuing imaging services as a ready backup for Meteosat-12. Meteosat-11 delivers rapid scans every five minutes over Europe and North Africa and can also support the prime service if needed. Meteosat-9 remains positioned over the Indian Ocean, providing vital data to regions vulnerable to cyclones and monsoons.

Gareth Williams, Head of Flight Operations at EUMETSAT, said, "Meteosat-12 now provides the prime service within a coordinated constellation of satellites that ensures continuity, reliability and resilience, while introducing important new capabilities.

"Seeing the spacecraft take responsibility for Europe's prime geostationary service is a major operational achievement, reflecting years of dedicated work across EUMETSAT, our member states and partners. With more MTG satellites to come, we look forward to an even greater impact from the constellation in delivering vital data for forecasting, climate monitoring and other essential services and applications."

IMAGE: Meteosat-12 is part of the Meteosat Third Generation programme, Europe’s new fleet of geostationary meteorological satellites. Credit: European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT)

Bossware Surveillance Buildings

A case study on technologies for behavioral monitoring and profiling using motion sensors and wireless networking infrastructure inside offices and other facilities"

Wolfie Christl, Cracked Labs, November 2024

This case study is part of the ongoing project “Surveillance and Digital Control at Work” (2023-2024) led by Cracked Labs, which aims to explore how companies use personal data on workers in Europe, together with AlgorithmWatch, Jeremias Prassl (Oxford), UNI Europa and GPA, funded by the Austrian Arbeiterkammer.

Case study “Tracking Indoor Location, Movement and Desk Occupancy in the Workplace” (PDF, 25 pages) Summary

As offices, buildings and other corporate facilities become networked environments, there is a growing desire among employers to exploit data gathered from their existing digital infrastructure or additional sensors for various purposes. Whether intentionally or as a byproduct, this includes personal data about employees, their movements and behaviors.

Technology vendors are promoting solutions that repurpose an organization’s wireless networking infrastructure as a means to monitor and analyze the indoor movements of employees and others within buildings. While GPS technology is too imprecise to track indoor location, Wi-Fi access points that provide internet connectivity for laptops, smartphones, tables and other networked devices can be used to track the location of these devices. Bluetooth, another wireless technology, can also be used to monitor indoor location. This can involve Wi-Fi access points that track Bluetooth-enabled devices, so-called “beacons” that are installed throughout buildings and Bluetooth-enabled badges carried by employees. In addition, employers can utilize badging systems, security cameras and video conferencing technology installed in meeting rooms for behavioral monitoring, or even environmental sensors that record room temperature, humidity and light intensity. Several technology vendors provide systems that use motion sensors installed under desks or in the ceilings of rooms to track room and desk attendance.

This case study explores software systems and technologies that utilize personal data on employees to monitor room and desk occupancy and track employees’ location and movements inside offices and other corporate facilities. It focuses on the potential implications for employees in Europe. To illustrate wider practices, it investigates systems for occupancy monitoring and indoor location tracking offered by Cisco, Juniper, Spacewell, Locatee and other technology vendors, based on an analysis of technical documentation and other publicly available sources. It briefly addresses how workers resisted the installation of motion sensors by their employers. This summary presents an overview of the findings of this case study….