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nurulseptiyaniayupurwanti · 2 years ago

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Aksi Nyata Modul 1.4 - Forum Berbagi Aksi Nyata

Assalamualaikum, Bapak Ibu guru hebat, ijinkan saya memberikan laporan mengenai kegiatan diseminasi Modul 1.4 Budaya Positif

Judul Kegiatan : Penerapan Budaya Positif di Sekolah oleh Nurul Septiyani Ayu Purwanti, S.Pd. Calon Guru Penggerak Angkatan 9 Kota Bandung Jawa Barat dari SMK Pasundan 3 Bandung.

Latar Belakang

Ki Hadjar Dewantara menggambarkan tujuan pendidikan sebagai panduan bagi semua potensi yang dimiliki oleh anak-anak, sehingga mereka dapat mencapai kebahagiaan dan keselamatan yang tertinggi, baik sebagai individu maupun sebagai anggota masyarakat. Dalam usaha membimbing anak-anak, pendidik, sebagai panduan mereka, diberikan kebebasan dalam memberikan panduan dan arahan, untuk menghindari anak-anak kehilangan arah dan mengancam keselamatan mereka. Seorang pendidik mampu memberikan panduan kepada anak-anak sehingga mereka bisa menemukan kemerdekaan belajar dan mencapai tujuan pembelajaran. Ki Hajar menjelaskan bahwa dasar pendidikan anak harus selaras dengan kodrat alam dan kondisi zaman. Pendidikan bertujuan memfasilitasi perkembangan anak sesuai dengan zamannya tanpa harus mengorbankan akar budaya lokal.

Penanaman karakter dan pembiasaan yang kuat melalui penanaman budaya positif di sekolah menjadi kunci penting. Walaupun secara umum, semua anggota sekolah telah memiliki nilai-nilai positif, peran keluarga sebagai lembaga pendidikan pertama dan utama dalam pembentukan moral dan karakter anak tetap sangat penting. Oleh karena itu, diperlukan penerapan kebiasaan-kebiasaan baik ini di lingkungan sekolah sebagai langkah konkret dalam membentuk budaya positif yang mendukung dasar karakter yang ditanamkan oleh orang tua di rumah.

Motivasi intrinsik siswa dalam menerapkan budaya positif ini juga menjadi prioritas. Dengan mengaitkan nilai-nilai moral yang diyakini oleh individu, motivasi intrinsik dapat muncul, mendorong mereka untuk mencapai tujuan mulia yang diinginkan. Melalui penerapan keyakinan kelas, motivasi internal setiap siswa akan tumbuh, memungkinkan mereka untuk menjadi pribadi yang otonom dalam menjalankan disiplin positif di kelas dan di lingkungan sekolah.

Tujuan

Tujuan dari rencana tindakan ini adalah mengimplementasikan disiplin positif melalui penerapan keyakinan kelas, dengan harapan menciptakan budaya positif yang diadopsi oleh seluruh siswa melalui kebiasaan positif di kelas dan di sekolah. Tolok ukurnya adalah perubahan perilaku siswa ke arah yang lebih baik dalam menerapkan disiplin positif sesuai dengan keyakinan kelas dan keyakinan sekolah, menciptakan suasana kelas yang kondusif, melibatkan semua komponen sekolah dalam menjalankan keyakinan kelas dan keyakinan sekolah, serta menggalang kerjasama antara komponen sekolah untuk menciptakan nilai-nilai kebajikan sesuai dengan Profil Pelajar Pancasila.

Untuk mencapai tujuan ini, beberapa langkah yang akan dilakukan meliputi sosialisasi budaya positif dan keyakinan kelas kepada seluruh anggota sekolah, penyusunan rencana pembuatan kelas impian dan keyakinan kelas secara bersama-sama dengan seluruh siswa, kesepakatan terhadap keyakinan kelas yang dibuat, pelaksanaan keyakinan kelas secara bersama-sama, dan refleksi terus-menerus terhadap keyakinan kelas untuk perbaikan di masa depan.

Dukungan yang Dibutuhkan

Dalam melaksanakan rencana ini, dukungan yang dibutuhkan termasuk bahan dan peralatan seperti poster, video, kertas karton, spidol, kertas post-it untuk membuat keyakinan kelas, serta laptop dan LCD untuk sosialisasi budaya positif. Selain itu, kepala sekolah dan rekan sejawat juga diharapkan memberikan dukungan dalam menerapkan keyakinan kelas untuk menciptakan disiplin positif dan budaya positif. Siswa dan orang tua juga memiliki peran aktif dalam melanjutkan budaya positif di luar lingkungan sekolah.

Hasil dari Aksi Nyata

Hasil dari pelaksanaan rencana tindakan ini adalah respon positif dari seluruh siswa, yang merasa senang dan bersemangat untuk melakukan perubahan dalam peraturan-peraturan kelas. Tantangannya adalah adanya beberapa usulan kelas impian yang sama, yang kemudian diselesaikan dengan kolaborasi antara guru dan siswa untuk menciptakan keyakinan kelas yang disepakati bersama.

Pembelajaran yang didapat dari Pelaksanaan

Pembelajaran yang didapat dari pelaksanaan ini termasuk pentingnya pembuatan kelas impian dan keyakinan kelas, peran guru sebagai manajer kontrol, penggunaan segitiga restitusi dalam menangani siswa, dan dukungan dari seluruh komponen sekolah dalam menerapkan disiplin positif untuk menciptakan budaya positif.

Rencana Perbaikan untuk Pelaksanaan di Masa Mendatang

Rencana perbaikan di masa mendatang mencakup evaluasi terhadap keyakinan kelas untuk meningkatkannya, serta penerapannya ke seluruh kelas. Selain itu, sesi berbagi dan diseminasi modul budaya positif juga merupakan langkah yang akan diambil.

Dokumentasi Sesi Diseminasai Budaya Positif.

Sekian laporan mengenai kegiatan diseminasi mengenai Budaya Positif Modul 1.4. Semoga dapat bermanfaat dan menginspirasi Bapak dan Ibu guru hebat semuanya. Salam guru penggerak! Tergerak.. Bergerak.. dan Menggerakkan..!

#pgpa9 #cgpa8 #aksinyata #modul 1.4

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cerastes · 16 days ago

Note

Thoughts on the new Dorothy module? hard to let go of crit mines and super dreamer, but the 50% chance of extra mine is so very tempting.

I think it's really good and useful, but the tiles really have to allow for it: S3 doesn't really have an issue since adjacent mines will trigger each other Bomberman style but with S2 you'll have to be careful or end up with a lucky mine in an unlucky tile. Otherwise not much of a drawback, and it's meant to shine in moments where A Big Dude is walking at you and you are putting mines on their way to stall and damage: Half of the time, you'll get two mines instead of one, which eases things up considerably, doubly so if DP is an issue for whatever reason. It also allows for potential faster set ups, especially on map starts.

I think overall it's a very solid alternative to the raw firepower her current Module offers, but ultimately, I do think the current Module is better: At face value, 50% of extra mine sounds better than 50% double damage mine, because you are also getting more effect out of it; two hits of S3, for example, instead of just 1, and it's Arts damage, so it's actually double damage plus whatever extra timer the second hit adds to Slow. However, the thing with her current Module is that it, indeed, as you said, grants her Super Dreamer:

(of no relation to me, allegedly)

This is an actually insane upgrade and the real star behind what's known as the funny crit Module. Her innate Attack bonus, just from using her as intended (and 10 mines are piss easy to detonate, especially with S3), doubling from 20% to 40% is immense. Dorothy mines work on Final Damage Dealt multipliers, meaning any increase to her attack makes the mines much stronger. Once you hit that absurd, free, permanent +40% ATK, and assuming you have a Pot1, 100+ Trust, Module Lv.3 E2Lv.90 Dorothy, you are looking at a base 718 ATK *1.4 -> 1005 ATK Dorothy that attacks faster than Marksman Snipers (A.Interval of 0.85 secs, that is, one attack every 0.85 secs; Marksmen have A.Interval of 1) ergo even her autos are completely wrecking enemies or dealing significant damage otherwise, meanwhile all of your S3 mines have a 50% of 1005*3.5 -> 3518 (rounded up)*2 -> 7036 true AoE cross Arts damage with Slow per pop. In addition to all the damage she's puking out with her autos. And even when that magic fifty fifty doesn't pop in your favor, that's still 3.5k free damage with crowd control in a cross AoE.

So, conclusion: Multimine is a really good Module and would normally be someone's best Module but it exists in a Super Dreamer world. Meaning, it's a 10/10 Module and 100% worth the use, whereas her current Module, in my opinion, is a 13/10.

#bramblehoax #arknights #dorothy

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aneurinallday · 1 month ago

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2099

We take from life one little share, And say that this shall be A space, redeemed from toil and care, From tears and sadness free.

~ Charlotte Brontë, Winter Stores (1846)

1.4 = THE TRUTH

“It felt…different,” Maura says, “The underwater dream, it felt…incomplete somehow. It was just me and one other person. There was no big ship, no passengers, no time-frame. Almost like the details were missing. My false memories of living in that world were hazy and incomplete…and they were mixed up with true memories…memories of the real world. How can that be?”

They’re sitting on the floor of the stasis room - Maura with her knees drawn up to her chest, Daniel cross-legged. His hand rests comfortingly on her leg.

Sebastian’s body lies in a distant corner of the module, covered with a blanket so they no longer have to bear his lifeless eyes; but Maura can still feel its presence as if he were standing at her shoulder.

“It was probably unfinished,” Daniel replies. “Just a rough draft or a demo of Ciaran’s next project.”

“Maybe. But why would he use that instead of one that’s fully operational?”

He thinks for a minute, and then his brown eyes light up with realisation.

“Maybe because he doesn’t have one!” he exclaims, “We already know that Ciaran wants to keep us separate - divide and conquer. If he’s resorted to using an unfinished simulation, that means the other simulations are all full. He’s run out of places to send us.”

“He’s getting desperate,” Maura says with a degree of satisfaction, “Good.”

“The person who was with you, was it somebody we know? Somebody from 1899, I mean?”

“No, I didn’t recognise him. It was a young man. Davy.”

“Davy? That’s the placeholder name we use for sailor and submariner characters. He was just a construct, Maura.”

“Oh God. He seemed so real, and he acted like we’d known each other for years. He was so scared, too…”

“Try not to feel bad. If he seemed distressed, it was only because he was programmed to react a certain way to threat. It’s not real emotions, just...lines of code. They hadn’t even assigned a unique identity to him yet. If you’d completed your mission and made it back to the surface, the mother-ship would’ve been filled with...more of him. This just proves that the simulation was unfinished…”

His injuries forgotten, Daniel jumps up and heads to the computer.

“Whatever simulation you were in, Olek should’ve woken up along with you. But he didn’t. The only explanation is that he was kicked into a different scenario - a different layer of the simulation. And that’s going to keep happening, every time a simulation shuts down, and finally there’s none left. They’ll have to wake up here instead.”

“Like a nesting doll of dreams?”

“Yes. Ciaran already tricked us once, using a fake exit code. But he won’t be able to do that again if we shut down the other simulations first. I can introduce the virus and cause them to self-destruct. When there are no simulations left, the only exit code that remains will be the real one. No more tricks, no more decoys, no more dreams. Just reality.”

“But how?”

“I’m still figuring that out. But with Sebastian’s Shell, I believe I can do it.”

“So we have a plan, then.”

“I don’t want to jinx it by calling it a plan. But it’s an idea, certainly.”

Daniel’s fingers fly over the buttons, pressing triangle after triangle in rapid succession, in an order which Maura can’t begin to decipher. Maura peers over his shoulder at what he’s doing.

“Sorry - please give me some space. I can’t concentrate when people are watching.”

“Okay. Is there anything I can do to help?”

“If you can find me anything to pry open the hub, that’d be a big help. I could kick it in but I don’t want to damage anything inside.”

“I’ll go take a look around.”

“Please be careful, though. We don’t know who else might be awake on this ship. You said one of the pods was already empty…”

“Don’t worry. I’ll be fine.”

Hoping she might find a maintenance closet, she heads towards the large room of showers and toilets. Exploring the section more thoroughly, she finds towels and toiletries; and in a nearby changing room, she discovers neatly folded piles of black jumpsuits, and more pairs of black shoes lined up in rows. Perhaps this place isn’t as bleak and spartan as she thought. Perhaps people can actually live comfortably here. She pauses to wash her face and hands at the metal sink, patting her short hair in an attempt to refresh it, and notices that she looks a little better than before. Less sickly. More energised. More hopeful.

Finally, she finds what she’s looking for: a closet with a variety of supplies, including a telescopic mop. She detaches the mop-head from the shaft, then snaps the thin innermost section of the handle away from the thick outer sections.

“Yes…” she mutters to herself.

As she turns to leave, she stops in her tracks. She can smell it again - the smoky fragrance of coffee. She stands frozen, just breathing, unable to tell what direction the aroma is coming from, and if it’s growing stronger or fainter. After a few moments, the smell fades, leaving her wondering if she just suffered a hallucination.

Returning to the stasis room, she makes no mention of what just occurred, fearing that it would only add more stress to both of them. Daniel is hunched over the computer hub, scowling in concentration. Maura circles around the hub until she’s standing behind him. The little screen is full of rows of triangles, pointing up, down, left, and right. Lines of code, she assumes.

“I found this,” Maura says, handing him the rod of metal.

“Brilliant.”

He brute-forces open the panels below the monitor, revealing a tangled nest of hundreds - maybe even thousands - of wires. He examines them closely, then plucks one out and plugs it into his Shell.

“I’ve been poking around in the system, and I think I may have figured it out,” he says.

“Figured what out?”

“Our next move.” Daniel continues plugging and unplugging different wires to and from the Shell, seeking the right connection. ”Ciaran is arrogant, but he’s not careless. The destruction of 1899 was an eventuality which he would’ve prepared for, no matter how unlikely he thought it was. He would’ve had a back-up plan in place already. When 1899 shut down, all the participants were sent into different simulations at the same time, including the one we’re currently in. They would’ve had to enter at the start of the loop, not mid-loop, which means that somewhere in this system is a synchronisation program.”

“I see…”

“If I can find a way into that program, I might be able to introduce the virus to every simulation simultaneously, instead of visiting one at a time and introducing it manually from the inside. If I can accomplish this within the next couple of days, we’ll still have time to search for the pyramid and key before our own loop resets.”

“That would save us so much time.” Maura hugs him. She has the urge to kiss him, but it seems inappropriate in that moment, so she refrains. “You’re ingenious.”

“Not ingenious, just desperate. And I need to be quick. Once Ciaran realises what I’m doing, he’ll try and get ahead of me.”

Suddenly, the triangles disappear.

“Fuck!” Daniel shouts.

A moment later, words begin to appear on the screen.

// CIARAN: > Hello. > Did you enjoy killing Sebastian?

“What do you want?” Maura demands. “I know you lied to me. I know this is another simulation.”

// CIARAN: > Well done. > You know the truth. > But it changes nothing. > You cannot change the program.

“I don’t know what you hope to gain by keeping us here, but you’re going to be disappointed. We’re going to find a way to wake up.”

// CIARAN: > Too late. > In just 5 more days. > The Prometheus will be destroyed. > Time will re-set. > You will forget everything. > You will remain here. > You and everyone else.

“Why everyone else? Why not let the others wake up? They never did anything to you!”

// CIARAN: > This is what you wanted. > To forget. > To live forever in a dream. > I am granting your wish.

“Ciaran, tell us where the key is. I know there has to be one. Just tell us where! Just let us wake up so we can talk face-to-face, in the real world, with no more lies or illusions. Just you and me. Don’t you think that’s the right thing to do?”

Daniel silently backs away to make space for Maura’s anger. She doesn’t even realise she’s clenched her fists.

“I’m your sister - doesn’t that mean anything to you? Just tell us where the key is and we - ”

// CIARAN: > Daniel is the key.

“What?” She looks at Daniel in confusion, her eyes darting up and down his body, expecting to see some small object or trinket. But he has nothing except his clothes. “I don’t understand. How can a person act as the key? I thought that - ”

// CIARAN: > The exit code is written into his data. > To activate it. > You must delete him.

“Delete? You think people are programs, to be tampered with and deleted? He’s a human being, not a - ”

// CIARAN: > Daniel isn’t real.

Maura stares at the three short words, reading them over and over as if she might find some hidden meaning. But they stare back at her unchanged, uncompromising in their simplicity.

“You expect me to believe that?” she finally says, “Daniel is as real as I am. I know it in my gut.”

// CIARAN: > You were lonely and grieving. > Unable to cope. > You created him as a companion. > A tender lover to comfort you.

More letters continue to materialise, relentless, each one dimming the light in Daniel’s eyes.

// CIARAN: > You named him Solace. > Because that was his only purpose. > His only reason for existing. > If you can even call it an existence.

“This is absurd!” Maura protests, “If he isn’t real, who was I married to? Who did I have a child with?”

// CIARAN: > A man who deserved better. > Eyk Larsen.

“That can’t be true,” Daniel says in a barely audible whisper.

// CIARAN: > You are just a program. > Not a man. > Not a husband. > Not a father. > She filled your head with false memories. > Of a life you never lived. > Memories she stole from Eyk.

“Stop!” Maura slams her hand down on the monitor, causing the screen to flicker, but the words refuse to disappear. “You’re a liar and a coward, and nobody believes a word you say.”

The screen finally goes blank again, a black square in which Maura can see her own dishevelled reflection.

Behind her, Daniel speaks.

“He’s right.”

“What?” Maura looks over her shoulder at Daniel, who is staring silently at the darkened monitor.

“He’s right. Ever since I woke up here, I’ve been questioning…how was he able to rewrite the exit code so fast? How was he able to predict my next move? How was he able to capture me as soon as I set foot on the Prometheus? It’s because he knows what I’m going to do before I do it. Because my thoughts are lines of code and I’m only capable of a set number of actions. Because I’m not real.”

“You don’t know that. He’s been spying on us, toying with us, leading us astray. You can’t believe anything he says.”

“Then how was I able to resist the playroom? How was I able to let go of Elliot? Is it because I knew, deep down, that he wasn’t really my son?”

“No.” Maura straightens up, turning to face him. “It’s because people grieve the dead differently. You let go of him when I couldn’t, not because you loved him less, but because you wanted me to live more than I did.”

Daniel looks down at himself, at his hands, still dirty from crawling about the cable-filled shafts. He rubs the burn mark which surrounds his finger.

“The body remembers,” he says softly, “Except it doesn’t really, does it? The body can lie to us, just like the mind does. You were so desperate to forget about Elliot, you convinced yourself that you’d never had a child at all - that you couldn’t even have one. And I was so desperate to fulfil the role I’d been assigned, I convinced myself that we really were married…that you really were the love of my life.”

He looks up at Maura. His brown eyes are full of hurt and despair.

“Oh God,” he whimpers, “Maybe I was his tool, just like Sebastian. Both puppets, but each serving a different purpose - him to mislead Henry, me to mislead you. Maybe he knew that eventually, your father was going to find the key and take it from you. Maybe he sent me to make sure that that couldn’t happen - that Henry got a decoy…”

“No.” Maura strides across the room to stand in front of him. “Listen. I don’t know what my brother said to you when you were alone together, but he’s lying. He’s got inside your head. Please, don’t let him win.”

Daniel startles as if remembering something. He grabs the Shell, wrenches it free of the wires, and pushes it into her hands.

“Take this.”

“No.”

“Please, take it. It’s the best way.”

“The best way to what?”

“To delete me.”

“To kill you, you mean!”

“It’s not killing,” Daniel says, his eyes wet with tears. “You can’t kill a thing that’s not alive.”

“Daniel, I swear, I will keep us trapped here forever rather than do this.”

“It won’t hurt,” he tells her, or maybe himself, “A quick push of a button and I’ll just…stop. It’ll be like flicking a light switch.”

“No,” Resisting the urge to throw the Shell, Maura places it aside.

“Please, Maura,” he entreats her, “When the time loop resets, we’ll both forget what we’ve learned. You might not get another chance to escape.”

“I don’t care. I’d rather forget.”

“I want this, Maura!” He finally raises his voice, “I want you to wake up! That’s the only reason I’m here. And if this is what it takes, so be it.”

“No. No, I won’t accept it. I won’t let you die, I won’t let anybody die. There has to be another key, another way…”

“There is no other way.”

“Then I’ll make one!”

Maura jerks around to face the computer.

“Are you enjoying this?” she snaps, “Is that it? Is that what you want? To feel like you’re in control of other people’s lives? To feel like you’re important? Well, you’re not important. You never were. You were a third wheel at a company which only hired you out of pity, a nepotistic parasite gorging itself on other people’s achievements. You were the unwanted extra child of a father who expected more and a mother who deserved better. It was only after you were born that she lost her mind.”

She leans closer to the screen.

“I may have lost my memory, but you’re the one who’s forgotten how things work. I am still the Creator. I will wake up, I will fix the mess I’ve made, and I will undo the chaos that you’ve caused. Everything that you’ve worked for will be erased. All of your meagre accomplishments will disappear into irrelevance and obscurity, I promise you.”

There is no response. No words appear. Perhaps Ciaran has already gone, or perhaps he can think of no reply - a small triumph.

“Let’s carry on,” Maura says, “We’ve wasted enough time here already.”

“But Maura…”

“Let’s carry on!”

Slowly, Daniel approaches the computer resumes his work.

“I could use another pair of hands,” he says quietly. “Some buttons need to be held down at the same time. If I do the Shell, can you do the computer?”

“Of course.” Relieved to finally be able to help, Maura positions her hands on the keyboard where instructed, and they work in synchrony.

Time doesn’t seem to pass on this ship - the rooms within remain dark, and the cosmos outside seems unchanging. An endless night, and yet Maura can feel the minutes turning into hours, each one bringing them closer to resetting - closer to forgetting. She tries not to consider what will happen if they fail. Even with everyone awake, there’s no guarantee that they will find the key in time.

Ciaran’s words haunt her, but she refuses to believe them. The prospect of killing the man beside her, the man who saved her and opened her eyes, the husband she once loved…it’s unthinkable.

“Done,” Daniel says curtly, unplugging Sebastian’s Shell from the hub. “All simulations are now infected.”

“What do we do now?”

“We wait. The virus will spread fast and unchecked, but it won’t catch up with everybody at once. Some people will run from it, try to fight it…”

“For their sake, I hope it’s quick.”

“Me too.”

They sit down, surrounded by the forms of those still in stasis, and the silence of the room presses down on them heavily.

“I want to ask you about our son,” she says, “But I have so many questions, I don’t even know where to start. And part of me can’t bear to know…”

“When you wake up, you’ll remember everything. All the things you did together, all the love you shared, all the pain you suffered. It’ll be hard. But you’ll get through.”

“I’ll get through because you’ll be there.”

“Maura…”

“You’ll be there,” she repeats firmly. “I know you will, because I know you’re real. I can’t trust anything in this place, but I trust you.”

Daniel doesn’t answer, staring at the ground with dull eyes. She takes his hand and squeezes it.

“We’ll win,” she says, “Ciaran’s just a man - he’s not omniscient. Sooner or later, he’ll make a mistake, and we’ll get the upper hand. We’re already destroying his nesting doll.”

Daniel nods.

Without warning, one of the white lights turns blue. Olek’s.

“It’s working,” Maura whispers, “Daniel, it’s working.”

Olek is seized by a sudden, violent fit of coughing that jolts his body. His stasis pod opens and he tumbles out onto the floor, spluttering and gasping for air.

“It’s okay,” Maura says as she crouches beside him, “It’s okay. You were dreaming, but you’re awake now.”

His eyes are open and glassy, and he shakes uncontrollably, but he’s awake.

“The water,” he gasps, “The water was rising - the ship - the ship went down. I couldn’t breathe. I - ”

“You’re safe. Daniel and I are here.”

Seeing Ling Yi’s sleeping form, Olek’s eyes widen.

“Proszę…” he whispers. “What’s wrong with her? What’s wrong with everyone?”

“We’re dreaming, just like we were back on the Kerberos. She’ll wake up soon, I promise you. Can you tell us where you were?”

Olek, still reeling from his imaginary drowning, rubs his throat.

“I was on an old ship, made of wood. It was dark below decks…I was a sailor…”

“Who else was there? Anyone from the Kerberos?”

“Yes. The captain…Captain Larsen. He was there too.”

“Eyk was there?” Maura looks at Daniel, “Why hasn’t he woken up?”

“I don’t know.”

Suddenly, Ling Yi and Yuk Je’s pods open, and the electrodes lift from their heads. Yuk Je - last seen jumping in a trance from the deck of the Kerberos - collapses before anyone can catch her. Maura rushes to her side and carefully arranges her into a comfortable position. Ling Yi takes a few wobbling steps out of the pod, and her gaze falls on Olek. Olek lurches to his feet and staggers towards her. She reaches out towards him, and opens her mouth to speak, but then her knees buckle under her and she drops to the floor. He follows her down and puts his arms around her.

“Ling Yi?”

Her dark hair, which used to fall in a sleek cascade, is short and choppy like Maura’s. Olek runs his fingers through it.

“Where did you go?” he says mournfully, “I thought you were with me, but when I looked, you were gone. And the next thing I knew, I was somewhere else - at the bottom of the ocean, in the dark, with no sun. And then I woke up here. Where did you go?”

“A boat,” she murmurs in English. “I was on a boat…”

Daniel kneels beside them.

“Can you tell us about the boat?” he asks gently, “What was it like?”

Ling Yi blinks hard, struggling to separate her hazy impressions into distinct images.

“It was big. Full of people, animals, fruits. It had red sails. They looked like wings. Beautiful wings…” She reaches up to touch Olek’s face. “They were beautiful…”

He clasps her hand.

“A junk ship,” Daniel is musing, “It must’ve been the 1399 simulation…”

“The people were my people, but strange,” Ling Yi continues, “The way they spoke and dressed was old. Very old. Talking to them was hard. I was with my mother, and - ” A realisation hits her like a slap, and she sits bolt upright. “Mother! Where is she? She jumped - she died - the ticking sound - ”

Maura, who has been tending to Yuk Je, quickly reassures her.

“Your mother is fine. Look, she’s right here, see?”

Relieved, Ling Yi sinks back down into Olek’s embrace, mumbling something in Cantonese.

The next to awaken are Ángel and Ramiro, straight from the creaking wooden decks of a Spanish galleon in 1699, angry and afraid to find themselves thrust hundreds of years into the future; and then Virginia Wilson from a trans-Atlantic voyage to the New World in 1599. Next are Anker, Iben, Tove, and Krester from an icy and storm-battered longship in 1299; and finally Lucien, Clémence, and Jérôme from a French vessel bound for America, less than three weeks before Napoleon Bonaparte’s rise to power in 1799.

One by one, she sees confusion turn to recognition, and she does her best to answer their many questions with what limited information she possesses. Though their descriptions of their dream vary, all of them report the same thing: seeing Captain Eyk Larsen at the helm. With every simulation that shuts down and every white light that turns blue, Maura hopes that Eyk will be the next to awaken; but he remains unconscious. Her final image of him, seared into her memory, is of his lifeless body lying at Sebastian’s feet.

By October 21st, the thirteen passengers are scattered throughout the module, sleeping on benches or making use of the showers. All of the stasis pods are empty except Eyk’s. Maura stands gazing up at it while Daniel toils away at the computer behind her.

“Ciaran’s trying so hard to keep Eyk away from us,” she says, “But why?”

“I don’t know. It doesn’t make sense to me either.” Daniel stares at the triangles in front of him. “Maybe Eyk knows something that we don’t - something that might help us. Or maybe Ciaran’s just being cruel to you.”

Maura glances at him, caught off-guard by the implication.

“Daniel,” she says quietly, “I want to get him out so we can all wake up from this nightmare together. Not because…”

“I know.”

“I put us all in here, and I won’t leave anyone behind. I won’t.”

“I know, Maura. That’s why I’m going in.”

“What?” She whirls to face him.

Daniel doesn’t look up at her.

“So far, this computer has been the nexus, the centre of everything. The other simulations, including 1899, were all accessible through this room, and that’s how I spread the virus. But Eyk must be buried deep, somewhere in another layer of stasis, somewhere that this computer can’t connect directly to. I’m going to find the layer, go in myself, and get him out.”

“Shouldn’t I be the one to go? It’s my responsibility…”

“You wouldn’t know what to do, and you don’t have the backdoor access that the head of cybersecurity does. Besides, the others need you here. You’re the best person to help them through their emotions.”

“But what if something happens to you in there? What if Ciaran…”

“Don’t worry.” For the first time, Daniel smiles a little. “I’ll be fine.”

youtube

I was long inside a dream, I could not get loose I will tell you of it, although there is little use To tell a dream, when dreaming is all you ever do But things were not so good, I can't make light of it My poor soul, it was having a dark night of it It was a long night, a week, maybe a year

Maybe a long dark night is coming down Maybe a long dark night is coming down

Through the door of my dream burst No zombie, no ogre, no devil there But a flying man with long trailing hair Who perched upon the iron rail of my bed Oh, Lord, combing his long white hair and saying my name How could he know, when I did not even know my name?

Maybe a long dark night is coming down Maybe a long dark night, my precious one Maybe a long dark night rolling around my eyes Oh, Lord

The man who took me to be from elsewhere When I too inhabited the earthly sphere lent down and struck me With his long trailing hair

Maybe a long dark night is coming down Maybe a long dark night, my precious one Maybe a long dark night is rolling around my head Oh, Lord

#2099 #1899 #1899 netflix #daniel solace #aneurin barnard #maura franklin #emily beecham #eyk larsen #andreas pietschmann #ciaran singleton #fanfic #fic

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academicfever · 9 months ago

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41/100 days of productivity!

Every step, no matter how small, is a step forward. I may not be where I want to be yet, but I’m getting closer every day.

Today’s focus:

EV module (5.3, 7.1). Paristech module (4.1-4.4). Chalmers module (1.3, 1.4) Simulink Uni applications. Reading. Journaling. Lunch+ shower

Update: lots of guests came over and I had to cook a fuck ton of food.:: now my head is killing me 🤬

Bit by bit, I’m building something amazing. Grateful for the journey, and excited for what’s next!

Omo😻😻

Look at this cute little guy🥹🥹

He came to enjoy the rain with me 🥹🥹

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pharohsking · 5 months ago

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-8 Feb 25- Goal: Stay ahead Remember your dreams. KEY: 54, 51, 146, 158, 5B, Morale

To do:

HW 1

6.3 Video

Revise Module 1 Disc

CECO Module 1

Module 2 R&R

Module 2 Activity

Thoughts on Anti-Bias

Module 2 Disc

Module 2 Story: Welcome to Holland

Module 2 Wrap up

Done:

1.4 Assignment RR

Anthem:

Updated:

#studyblr #studyblr community #study motivation #study blog #studyspo #student #studying #boyblogger #spring 25 #early childhood education #ece #math

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zzz-updates · 6 months ago

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Zenless Zone Zero Battle Records and Upgrade Guides Tools Have Been Updated for Version 1.4!

Dear Proxies, greetings!

With the release of Zenless Zone Zero Version 1.4, our Battle Records and Upgrade Guides game tools have now been updated! Come check them out now!

| Battle Records: Adds Outpost Battlefront module and Hollow Zero Depths Investigation - Lost Void challenge details.

With the addition of the new content "Outpost Battlefront" in Version 1.4, the Battle Records will include a corresponding module where Proxies can check their total scores, rankings, and Boss challenge data.

Additionally, the sharing feature on the Battle Records homepage has been optimized: Proxies can now customize which modules to share, and the share image will be generated more quickly.

| Upgrade Guides Update: Preview upgrade plans for Agents not owned

Starting from Version 1.4, Proxies can preview upgrade plans for Agents they haven't owned yet to plan future upgrade resources more efficiently.

In Version 1.4, the Upgrade Guides also introduces a preview feature for upgrade materials required for upcoming Agents, displaying specific materials and estimated quantities to help Proxies plan and prepare in advance.

>> Go to Upgrade Guides <<

| HoYoWiki Update: Added entries for Hoshimi Miyabi & Asaba Harumasa, Version 1.4's new Signal Search characters

You can check info on Hoshimi Miyabi and Asaba Harumasa, including their upgrade materials, skill demos & stats, and Mindscapes, in HoYoWiki (Please note Version 1.4 content will continue to be updated, so stay tuned!)

>> Go to HoYoWiki <<

That's all for the tool updates in Version 1.4! Feel free to try them out and share your thoughts in the comments section. Let us know what you think and what features you're looking forward to in future tool updates!

>> Official Hoyolab post <<

#zenless zone zero #tools update

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govindhtech · 8 months ago

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Introducing Samsung 24GB GDDR7 DRAM For AI Computing

24GB GDDR7 DRAM

Future AI Computing: Samsung Launches 24GB GDDR7 DRAM. It sets the standard for graphics DRAM with its industry-leading capacity and performance of over 40Gbps.

First 24-gigabit (Gb) GDDR7 DRAM from memory pioneer Samsung was revealed today. Next-generation applications benefit from it’s speed and capacity. Data centers, AI workstations, graphics cards, gaming consoles, and autonomous driving will employ the 24Gb GDDR7 because to its high capacity and excellent performance.

“By introducing next-generation products that meet the expanding demands of the AI market, it will maintain to leadership position in the graphics DRAM market.” The 5th-generation 10-nanometer (nm)-class DRAM used in the 24Gb GDDR7 allows for a 50% increase in cell density while keeping the same package size as the previous model.

The industry-leading graphics DRAM performance of 40 gigabits per second (Gbps), a 25% increase over the previous iteration, is achieved in part by the advanced process node and three-level Pulse-Amplitude Modulation (PAM3) signaling. The performance of it may be further improved to 42.5 Gbps, contingent on the environment in which it is used.

Applying technology previously used in mobile devices to graphics DRAM for the first time also improves power efficiency. Power efficiency may be increased by more than 30% by reducing needless power use via the use of techniques like dual VDD design and clock control management.

The 24Gb GDDR7 uses power gating design approaches to reduce current leakage and increase operational stability during high-speed operations.

Major GPU customers will start validating the 24Gb GDDR7 in next-generation AI computing systems this year, with intentions to commercialize the technology early the next year.

GDDR6 vs GDDR7

Compared to the current 24Gbps GDDR6 DRAM, GDDR7 offers a 20% increase in power efficiency and a 1.4-fold increase in performance.

Today, Samsung Electronics, a global leader in cutting-edge semiconductor technology, said that it has finished creating the first Graphics Double Data Rate 7 (GDDR7) DRAM in the market. This year, it will be first placed in important clients’ next-generation systems for validation, propelling the graphics market’s future expansion and solidifying Samsung’s technical leadership in the industry.

Samsung’s 16-gigabit (Gb) GDDR7 DRAM will provide the fastest speed in the industry to date, after the introduction of the first 24Gbps GDDR6 DRAM in 2022. Despite high-speed operations, new developments in integrated circuit (IC) design and packaging provide more stability.

With a boosted speed per pin of up to 32Gbps, Samsung’s GDDR7 reaches a remarkable 1.5 terabytes per second (TBps), which is 1.4 times that of GDDR6’s 1.1 TBps. The improvements are made feasible by the new memory standard’s use of the Pulse Amplitude Modulation (PAM3) signaling technique rather than the Non Return to Zero (NRZ) from earlier generations. Compared to NRZ, PAM3 enables 50% greater data transmission in a single signaling cycle.

Notably, using power-saving design technologies tailored for high-speed operations, the most recent architecture is 20% more energy efficient than GDDR6. Samsung provides a low-operating voltage option for devices like laptops that are particularly concerned about power consumption.

In addition to optimizing the IC design, the packaging material uses an epoxy molding compound (EMC) with good thermal conductivity to reduce heat production. Compared to GDDR6, these enhancements significantly lower heat resistance by 70%, ensuring reliable product performance even under high-speed operating settings.

GDDR7 Release Date

According to Samsung, commercial manufacturing of their 24GB GDDR7 DRAM is scheduled to begin in early 2024. Although the precise public release date is yet unknown, this year’s certification process with major GPU manufacturers is already under way. With the availability of next-generation GPUs that will support the new memory standard, GDDR7 DRAM is now expected to be readily accessible in the market by 2024.

Read more on Govindhtech.com

#Samsung #Samsung24GBGDDR7 #GDDR7DRAM #24GBGDDR7DRAM #DRAM #GDDR6DRAM #GPU #AI #News #Technews #Technology #Technologynews #Technologytrends #govindhtech

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brandulox · 2 years ago

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Forget Samsung: Xiaomi 14 Series Ready to Dethrone Galaxy S24 as King of Android

The Xiaomi 14 series has been officially unveiled in China, and it looks like it will be the Android flagship series to beat in 2023. The new Xiaomi 14 and Xiaomi 14 Pro come with improvements across the board, including bright displays, the latest Snapdragon 8 Gen 3 chipset, upgraded cameras, super-fast charging, and a titanium frame option for the Pro model. While we wait to get the Xiaomi 14 and Xiaomi 14 Pro in for full reviews, here is a preview of the key specs and features to expect from Xiaomi's latest flagships. We'll update this preview once we have the devices in hand and can provide more details from our hands-on testing. Xiaomi 14 Series Key Specs Xiaomi 14Xiaomi 14 ProSize, Weight152.8 x 71.5 x 8.2 mm, 188 g161.4 x 75.3 x 8.5 mm, 223 gDisplay6.36" OLED, 120Hz, 3,000 nits6.7" OLED, 120Hz, 3,000 nitsProcessorSnapdragon 8 Gen 3Snapdragon 8 Gen 3RAM, Storage8/256GB, 12/256GB, 12/512GB, 16/1TB LPDDR5X12/256GB, 16/512GB, 16/1TB LPDDR5XCameras50MP main (f/1.6), 50MP ultra-wide f/2.2, 50MP 3.2X telephoto f/2.0, 32MP front50MP main (f/1.42-4.0), 50MP ultra-wide f/2.2, 50MP 3.2X telephoto f/2.0, 32MP frontBattery4,610 mAh4,880 mAhCharging90W wired, 50W wireless120W wired, 50W wireless The highlights include the latest Snapdragon 8 Gen 3 chip, fast LPDDR5X RAM, bright 3,000 nit displays, and extremely fast charging speeds. The Pro model also introduces a variable aperture main camera and titanium frame option. We'll need to thoroughly test out these phones to see how all these specs translate to real-world performance and experience. Stay tuned for our full reviews! Xiaomi 14 Series Design The Xiaomi 14 series retains the premium design identity of the previous generation, with curved displays and backs, rectangular camera modules, and slim profiles. The Pro model introduces an eye-catching new titanium frame option. Both phones also utilize Xiaomi's new proprietary Ceramic Glass material on the front and back for added durability.

Xiaomi 14 Pro Color options include: - Xiaomi 14: Jade Green, Black, White, Pink - Xiaomi 14 Pro: Titanium, Black, White, Green

Xiaomi 14 Xiaomi 14 Series Cameras The Leica-tuned cameras on the Xiaomi 14 series bring some exciting upgrades. The main 50MP sensor on the Pro model features a variable f/1.4-f/4.0 aperture for more flexibility. The new 50MP ultrawide camera promises improved quality. The telephoto camera uses a floating lens element for better edge-to-edge sharpness. New AI tricks like eye tracking autofocus and Night OIS should also help boost photography. We look forward to putting these new camera systems through their paces.

Xiaomi 14 Series Software The latest Xiaomi 14 series introduces an exciting shift from MIUI to the new HyperOS. Running on Android 14 out of the box, HyperOS promises an improved user experience focused on four key areas: performance optimization, seamless connectivity, predictive intelligence, and robust security. While full details on HyperOS are yet to come, early reports suggest substantial AI and on-device neural processing. This enables advanced contextual awareness and personalization. Software support remains unconfirmed, but if last year's models are any indication, the Xiaomi 14 line should receive major OS updates for at least four years. Xiaomi 14 Series Availability The Xiaomi 14 and 14 Pro launched first in China, but global availability typically follows a couple months later. Pricing is also usually a bit lower for global markets. We expect the Xiaomi 14 series to compete head-to-head with the Galaxy S23 series in many regions later this year. The Xiaomi 14 in particular looks like excellent value if they can hit a competitive price point. In summary, the Xiaomi 14 and 14 Pro bring some exciting upgrades and look very promising on paper. We can't wait to get them in hand for full reviews. They have a good chance of being the top Android flagships of 2023 if their real-world performance lives up to the hype. Stay tuned for our detailed analysis. Read the full article

#HyperOS #samsung #xiaomi

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aebocode · 3 days ago

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Why FPV Drones Are the New “Poor Man’s Air Force”

1. A Revolutionary Shift

In modern warfare, drones have redefined the battlefield. Among them, FPV (First-Person-View) drones stand out as the ultimate expression of cost-effective aerial power.

In Ukraine and elsewhere, inexpensive FPV “kamikaze” drones—built from hobby-grade parts—have disrupted the traditional cost dynamics of air operations. Averaging just $200–$500 apiece, they offer a lethal alternative to artillery and missiles that may cost thousands more.

2. Precision That Packs a Punch

Despite their small size, FPV drones are deadly:

Accurate targeting: FPV pilots use real-time video to loiter, line up, and strike lightly armoured or soft targets with surgical precision .

Sniper-like effectiveness: They're likened to sniper bullets—precise, agile, and ideal for disabling vehicles, equipment, or personnel .

Although their one-way design means many aren’t returned, the low unit cost ensures that even a 50–80% hit rate is a highly economical trade-off.

3. Aerial Power for the Masses

FPV drones are accessible:

Homegrown production: Ukraine and Russia have mobilized civil and small-scale workshops to produce thousands of units monthly—Ukraine around 100,000 and Russia up to 1.2–1.4 million.

DIY affordability: With components available off-the-shelf, grassroots assemblers equip frontline units where resources are scarce .

This democratization of aerial power allows even modestly funded forces to launch devastating strikes—hence the term “poor man’s air force.”

4. Battlefield Disruption

FPV drones have reshaped tactics:

Deep strikes: Flying up to 20 km, they enable tactical teams to execute kamikaze and surveillance missions deep behind enemy lines.

Drone swarms: Coordinated attacks—sometimes dubbed “drone artillery”—can suppress or scatter enemy forces over extended durations .

Psychological impact: Their speed (~60 km/h) and unpredictable noise demoralize troops who cannot outrun them .

In one dramatic viral video, an FPV drone even escorted a surrendering soldier to friendly forces—a clear symbol of their operational versatility.

5. Tactical & Cost Superiority

Compared to conventional weaponry:

A $500 FPV drone displacing or destroying equipment valued at $50,000+ offers a stark cost advantage.

Analog FPV systems are hard to jam electronically, unlike many digital counterparts using proprietary systems .

Even advanced fiber‑optic guided FPVs—immune to jamming—are being rolled out by both Ukraine and Russia.

This blend of affordability, adaptability, and resilience is redefining air dominance.

6. Countermeasures and Arms Race

As FPV use surges:

Electronic warfare: Powers are investing in jamming systems, though these tend to be bulky and energy-intensive.

Pilot training: FPV drone operation requires skill—both sides are ramping up pilot training programs.

Emerging AI & autonomy: Future FPV swarms may become semi-autonomous, using onboard AI to coordinate group strikes .

This signals a fresh technological arms race in unmanned systems.

7. Aebocode’s Role: Empowering the New Aerial Frontier

At Aebocode Technologies, we recognize this shift. That’s why our solutions cater to both empowerment and strategic defense:

🇮🇳 Homegrown Excellence

Aligned with Make in India, our drones—from the ABHYAS training platform to surveillance and VTOL units—are locally designed and produced to reduce import dependency.

🛡️ Tactical Preparedness

Our ABHYAS Training Drone enables operators to develop precision, situational awareness, and tactical response—essential skills for mastering FPV control, even in high-stakes environments.

📸 Multimodal Surveillance

With a 4.3 kg, 50-minute endurance surveillance drone, Aebocode equips ground teams to track hostile activity—ideal for intelligence gathering ahead of FPV deployment.

🔧 Customizable Payloads

Our platforms are adaptable—engineered for rapid integration of diverse payloads, whether electro-optical/infrared sensors or tactical modules, aligning with forward-deployed mission needs .

8. Why That Matters

In conflict zones where budget constraints loom large:

Reliability: Rugged, tested drones ensure consistent performance under fire.

Economics: Locally built, low-cost options drive operational scalability.

Preparedness: Training systems like ABHYAS guarantee FPV pilots are mission-ready from day one.

Together, Aebocode empowers forces—governmental or grassroots—to field their own tactical air force.

Conclusion

FPV drones have emerged as a revolutionary force: agile, affordable, and increasingly influential in modern warfare. As the new poor man’s air force, they challenge traditional airpower and demand innovative responses.

Aebocode Technologies stands at the forefront of this evolution—readying operators through immersive training (via ABHYAS) and delivering adaptable drone solutions tailored for strategic deployment.

Whether for surveillance, tactical reconnaissance, or precision targeting, Aebocode delivers the drone capabilities needed to dominate the modern battlefield—on budget and on target.

#firedrone #drones uav #firefighting drones #fire fighting uav #fighting drone #fixedwingdrone #fpv drones #cargodrones #drones

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marketinsightt · 11 days ago

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Cyanide Poisoning Treatment Market Size, Share, Trends, Demand, Growth and Competitive Outlook

Cyanide Poisoning Treatment Market Segmentation, By Sources (Industrial Sources, Non-Industrial Sources and Others), Types (Acute Poisoning and Chronic Poisoning), Route of Administration( Intravenous, Inhalation and Oral), End-User (Hospitals, Clinics, Emergency Medical Services (EMS), Military & Defense, and Research & Academic Institutions), Distribution Channel: Hospital Pharmacies and Retail Pharmacies, Online Pharmacies, Government Tenders & Direct Sales ) -Industry Trends and Forecast to 2032

The global cyanide poisoning treatment market size was valued at USD 1.4 billion in 2024 and is expected to reach USD 21.31 billion by 2032, exhibiting a compound annual growth rate (CAGR) of 5% during the forecast period.

This global Cyanide Poisoning Treatment Market research report is organized by collecting market research data from different corners of the globe with an experienced team of language resources. As market research reports are gaining immense importance in this swiftly transforming market place, Cyanide Poisoning Treatment Market report has been created in a way that you anticipate. Keeping in mind the customer requirement, this finest market research report is constructed with the professional and in-depth study of industry. It all-inclusively estimates general market conditions, the growth prospects in the market, possible restrictions, significant industry trends, market size, market share, sales volume and future trends.

This Cyanide Poisoning Treatment Market research report is formed with a nice combination of industry insight, smart solutions, practical solutions and newest technology to give better user experience. Data collection modules with large sample sizes are used to pull together data and perform base year analysis. To perform this market research study, competent and advanced tools and techniques have been used that include SWOT analysis and Porter's Five Forces Analysis. This Cyanide Poisoning Treatment Market report gives information about company profile, product specifications, capacity, production value, and market shares for each company for the year 2018 to 2015 under the competitive analysis study.

Discover the latest trends, growth opportunities, and strategic insights in our comprehensive Cyanide Poisoning Treatment Market report. Download Full Report: https://www.databridgemarketresearch.com/reports/global-cyanide-poisoning-treatment-market

Cyanide Poisoning Treatment Market Overview

**Segments**

- **Treatment Type**: The market can be segmented based on the type of treatment options available for cyanide poisoning, such as antidote therapy, oxygen therapy, hydroxocobalamin therapy, sodium thiosulfate therapy, and hyperbaric oxygen therapy. Each treatment type caters to different ses and severity of cyanide poisoning, providing a diverse range of options for healthcare providers to choose from. - **End-User**: Another crucial segmentation factor is the end-user of cyanide poisoning treatment products and services. This includes hospitals, clinics, ambulatory surgical centers, and emergency medical services. Different end-users have varying requirements in terms of volume, type, and frequency of treatment, influencing the overall market dynamics.

**Market Players**

- **Merck & Co., Inc.**: A leading player in the global cyanide poisoning treatment market, Merck & Co., Inc. offers a range of pharmaceutical products and antidotes for cyanide poisoning. Their extensive research and development initiatives drive innovation and market growth. - **Amphastar Pharmaceuticals, Inc.**: Known for its specialized antidote therapies and emergency medical products, Amphastar Pharmaceuticals, Inc. plays a key role in enhancing treatment options for cyanide poisoning. Their strategic partnerships and collaborations further strengthen their market position. - **Bayer AG**: With a strong presence in the healthcare industry, Bayer AG brings advanced technologies and treatments for cyanide poisoning to the market. Their focus on sustainability and patient-centric solutions sets them apart from competitors. - **Pfizer Inc.**: As a global pharmaceutical giant, Pfizer Inc. contributes significantly to the cyanide poisoning treatment market with its robust product portfolio and research-driven approach. Their commitment to quality and efficacy ensures safe and effective treatments for patients.

The global cyanide poisoning treatment market is characterized by intense competition, technological advancements, and a growing focus on research and development. Market players are constantly striving to innovate and expand their product offerings to cater to the evolving needs of healthcare providers and patients. The segmentation based on treatment type and end-user provides valuable insights into the market landscape and helps stakeholders make informed decisions regarding investments, partnerships, and strategic initiatives.

The global cyanide poisoning treatment market presents a dynamic landscape driven by factors such as technological advancements, regulatory developments, and the increasing focus on research and development. One of the emerging trends in the market is the growing emphasis on developing novel treatment options that are more effective and efficient in addressing cyanide poisoning. Market players are investing heavily in research to discover innovative antidotes and therapies that can improve patient outcomes and reduce mortality rates associated with cyanide exposure. This trend is expected to propel market growth and enhance the overall treatment landscape for healthcare providers.

Furthermore, there is a rising demand for integrated healthcare solutions that offer comprehensive treatment approaches for cyanide poisoning. Healthcare providers are increasingly seeking customizable treatment options that can address the diverse needs of patients with varying degrees of cyanide toxicity. Market players are responding to this demand by developing holistic treatment strategies that combine antidote therapy, oxygen therapy, and other interventions to deliver superior care to patients. This shift towards integrated treatment solutions is reshaping the market dynamics and driving collaborations between pharmaceutical companies, healthcare institutions, and research organizations.

Moreover, the market is witnessing a surge in strategic partnerships and collaborations aimed at enhancing the development and commercialization of cyanide poisoning treatment products. Companies are joining forces to leverage their collective expertise, resources, and networks to accelerate the innovation and adoption of new therapies. Collaborative efforts between industry players, academic institutions, and government agencies are fostering a conducive environment for research, clinical trials, and regulatory approvals. These partnerships are critical in driving market growth, expanding market reach, and fostering a culture of innovation within the cyanide poisoning treatment industry.

Another key trend shaping the global cyanide poisoning treatment market is the increasing focus on sustainable and eco-friendly treatment solutions. Market players are exploring environmentally friendly antidotes and therapies that not only effectively treat cyanide poisoning but also minimize ecological impact and promote sustainability. This sustainability-driven approach aligns with the growing emphasis on corporate social responsibility and ethical business practices in the healthcare sector. As consumers and regulatory authorities prioritize environmental sustainability, market players are incorporating eco-conscious practices into their product development strategies to meet evolving market demands and ensure long-term market relevance.

In conclusion, the global cyanide poisoning treatment market is undergoing significant transformation driven by evolving market trends, technological innovations, and collaborative initiatives. The market's focus on research and development, integrated healthcare solutions, strategic partnerships, and sustainability underscores the dynamic nature of the industry and the opportunities it presents for market players to innovate, grow, and make a positive impact on patient care and public health.The global cyanide poisoning treatment market is witnessing a paradigm shift driven by emerging trends and market dynamics that are reshaping the industry landscape. One of the key trends is the increasing emphasis on developing novel treatment options that are more effective and efficient in addressing cyanide poisoning. This trend is fueled by the growing need for innovative antidotes and therapies that can improve patient outcomes and reduce mortality rates associated with cyanide exposure. Market players are investing significantly in research and development to discover advanced treatment solutions that can cater to the evolving needs of healthcare providers and patients alike.

Another notable trend in the market is the rising demand for integrated healthcare solutions that offer comprehensive treatment approaches for cyanide poisoning. Healthcare providers are seeking customizable treatment options that can address the diverse needs of patients with varying degrees of cyanide toxicity. To meet this demand, market players are developing holistic treatment strategies that combine multiple therapies such as antidote therapy, oxygen therapy, and other interventions to deliver superior care to patients. This shift towards integrated treatment solutions is not only enhancing patient care but also driving collaborations between pharmaceutical companies, healthcare institutions, and research organizations to expand treatment options and improve clinical outcomes.

Furthermore, the market is experiencing a surge in strategic partnerships and collaborations aimed at accelerating the development and commercialization of cyanide poisoning treatment products. Companies are joining forces to leverage their expertise, resources, and networks to expedite innovation and the adoption of new therapies. Collaborative efforts between industry players, academic institutions, and government agencies are fostering an environment conducive to research, clinical trials, and regulatory approvals. These partnerships play a crucial role in driving market growth, expanding market reach, and fostering a culture of innovation within the cyanide poisoning treatment industry.

Moreover, sustainability and eco-friendly treatment solutions are gaining traction in the global cyanide poisoning treatment market. Market players are increasingly exploring environmentally friendly antidotes and therapies that not only effectively treat cyanide poisoning but also minimize ecological impact and promote sustainability. This focus on sustainable practices aligns with the growing emphasis on corporate social responsibility and ethical business practices in the healthcare sector. As consumers and regulatory authorities prioritize environmental sustainability, market players are incorporating eco-conscious approaches into their product development strategies to meet evolving market demands and ensure long-term market relevance.

In conclusion, the global cyanide poisoning treatment market is undergoing significant transformation propelled by innovative trends such as the development of novel treatment options, integration of healthcare solutions, strategic partnerships, and a focus on sustainable practices. These trends are reshaping the industry landscape, driving market growth, and paving the way for advancements in patient care and public health. Market players need to stay abreast of these evolving trends and capitalize on emerging opportunities to drive innovation, growth, and positive outcomes in the treatment of cyanide poisoning.

The Cyanide Poisoning Treatment Market is highly fragmented, featuring intense competition among both global and regional players striving for market share. To explore how global trends are shaping the future of the top 10 companies in the keyword market.

Learn More Now: https://www.databridgemarketresearch.com/reports/global-cyanide-poisoning-treatment-market/companies

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DBMR Nucleus is a dynamic, AI-powered business intelligence platform designed to revolutionize the way organizations access and interpret market data. Developed by Data Bridge Market Research, Nucleus integrates cutting-edge analytics with intuitive dashboards to deliver real-time insights across industries. From tracking market trends and competitive landscapes to uncovering growth opportunities, the platform enables strategic decision-making backed by data-driven evidence. Whether you're a startup or an enterprise, DBMR Nucleus equips you with the tools to stay ahead of the curve and fuel long-term success.

Key Pointers Covered in the Cyanide Poisoning Treatment Market Industry Trends and Forecast

Cyanide Poisoning Treatment Market Size

Cyanide Poisoning Treatment Market New Sales Volumes

Cyanide Poisoning Treatment Market Replacement Sales Volumes

Cyanide Poisoning Treatment Market By Brands

Cyanide Poisoning Treatment Market Procedure Volumes

Cyanide Poisoning Treatment Market Product Price Analysis

Cyanide Poisoning Treatment Market Regulatory Framework and Changes

Cyanide Poisoning Treatment Market Shares in Different Regions

Recent Developments for Market Competitors

Cyanide Poisoning Treatment Market Upcoming Applications

Cyanide Poisoning Treatment Market Innovators Study

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semiconductorlogs · 17 days ago

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Global Consumer Grade Contact Image Sensors Market Trends and Forecast 2025–2032

Consumer Grade Contact Image Sensors Market Analysis:

The global Consumer Grade Contact Image Sensors Market size was valued at US$ 890 million in 2024 and is projected to reach US$ 1.4 billion by 2032, at a CAGR of 6.8% during the forecast period 2025-2032

Consumer Grade Contact Image Sensors Market Overview

This report provides a deep insight into the global Consumer Grade Contact Image Sensors market covering all its essential aspects. This ranges from a macro overview of the market to micro details of the market size, competitive landscape, development trend, niche market, key market drivers and challenges, SWOT analysis, value chain analysis, etc. The analysis helps the reader to shape the competition within the industries and strategies for the competitive environment to enhance the potential profit. Furthermore, it provides a simple framework for evaluating and accessing the position of the business organization. The report structure also focuses on the competitive landscape of the Global Consumer Grade Contact Image Sensors Market, this report introduces in detail the market share, market performance, product situation, operation situation, etc. of the main players, which helps the readers in the industry to identify the main competitors and deeply understand the competition pattern of the market. In a word, this report is a must-read for industry players, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the Consumer Grade Contact Image Sensors market in any manner.

Consumer Grade Contact Image Sensors Key Market Trends :

Growing Demand in Consumer Electronics Rising use of contact image sensors (CIS) in compact scanners and printers is driving market growth, especially in home and office applications.

Shift Toward Color CIS Technology Color CIS types are witnessing increased adoption due to higher image quality needs in modern scanning and printing devices.

Miniaturization and Portability Trends The demand for lightweight, portable devices is pushing manufacturers to develop smaller, more efficient CIS components.

Increased Use in Document Security CIS modules are increasingly used for high-precision document verification and security applications in scanners.

Rising Adoption in the Asia-Pacific Region Asia-Pacific, particularly China and Japan, is experiencing rapid growth in CIS production and consumption due to strong electronics manufacturing bases.

Consumer Grade Contact Image Sensors Market Regional Analysis :

North America:Strong demand driven by EVs, 5G infrastructure, and renewable energy, with the U.S. leading the market.

Europe:Growth fueled by automotive electrification, renewable energy, and strong regulatory support, with Germany as a key player.

Asia-Pacific:Dominates the market due to large-scale manufacturing in China and Japan, with growing demand from EVs, 5G, and semiconductors.

South America:Emerging market, driven by renewable energy and EV adoption, with Brazil leading growth.

Middle East & Africa:Gradual growth, mainly due to investments in renewable energy and EV infrastructure, with Saudi Arabia and UAE as key contributors.

Consumer Grade Contact Image Sensors Market Segmentation :

The research report includes specific segments by region (country), manufacturers, Type, and Application. Market segmentation creates subsets of a market based on product type, end-user or application, Geographic, and other factors. By understanding the market segments, the decision-maker can leverage this targeting in the product, sales, and marketing strategies. Market segments can power your product development cycles by informing how you create product offerings for different segments. Key Company

Mitsubishi Electric

Canon

ROHM Semiconductor

onsemi

Syscan

Lite-onsemi

WHEC

CMOS Sensor Inc.

Tichawa Vision

Market Segmentation (by Type)

Monochrome Type

Color Type

Market Segmentation (by Application)

Print and Copy Machine Applications

Scanner Applications

Others

Market Drivers

Rising Home and Office Printer Demand As remote work and home office setups grow, the need for reliable scanners and printers equipped with CIS technology continues to rise.

Technological Advancements in CIS Developments in CMOS technology and color sensing capabilities are enhancing the quality, speed, and efficiency of CIS products.

Growing Use in Low-Cost Imaging Devices CIS modules offer a cost-effective alternative to CCD sensors, making them ideal for budget-friendly consumer electronics.

Market Restraints

Limited Resolution Compared to CCD Sensors CIS devices may offer lower resolution and image quality in comparison to traditional CCD sensors, limiting their use in high-end applications.

Sensitivity to Environmental Conditions CIS modules are more sensitive to external factors such as lighting and distance, which may affect scanning accuracy.

Lack of Awareness in Emerging Markets Limited knowledge about the benefits and applications of CIS technology can slow adoption in some developing regions.

Market Opportunities

Integration in Multi-Function Devices Opportunities lie in combining CIS with multi-function printers (MFPs), enhancing value for consumers seeking all-in-one solutions.

Growth in Education and Public Sector Demand from educational institutions and public offices for document scanning and digital archiving opens new avenues.

Expansion in Emerging Markets Countries in Southeast Asia, Latin America, and Africa present untapped opportunities due to increasing digitization efforts.

Market Challenges

Intense Market Competition With several established players, price wars and innovation races can pose profitability challenges for new entrants.

Rapid Technological Shifts Keeping up with fast-evolving imaging technologies requires continuous R&D investment, which may burden smaller companies.

Component Supply Chain Disruptions Global supply chain issues can affect the availability of key semiconductor components needed in CIS manufacturing.

Key Benefits of This Market Research:

Industry drivers, restraints, and opportunities covered in the study

Neutral perspective on the market performance

Recent industry trends and developments

Competitive landscape & strategies of key players

Potential & niche segments and regions exhibiting promising growth covered

Historical, current, and projected market size, in terms of value

In-depth analysis of the Consumer Grade Contact Image Sensors Market

Overview of the regional outlook of the Consumer Grade Contact Image Sensors Market:

Key Reasons to Buy this Report:

Access to date statistics compiled by our researchers. These provide you with historical and forecast data, which is analyzed to tell you why your market is set to change

This enables you to anticipate market changes to remain ahead of your competitors

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The concise analysis, clear graph, and table format will enable you to pinpoint the information you require quickly

Provision of market value (USD Billion) data for each segment and sub-segment

Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market

Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region

Provides insight into the market through Value Chain

Market dynamics scenario, along with growth opportunities of the market in the years to come

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Related Report:

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renatoferreiradasilva · 17 days ago

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Cognitive Collapse in Extreme Spacetime Curvatures: A Mathematical Framework for Observer Dissolution in Kerr-Newman Geometries

Autor: Renato Ferreira da Silva

Abstract:

We propose a coupled neurogeometric model describing the epistemic collapse of biological observers near spacetime singularities. Combining relativistic information theory, non-commutative geometry, and dissipative neural dynamics, we derive:

1. Problem Statement (Mathematically Rigorous)

1.1 Spacetime Geometry

Let ((\mathcal{M}, g_{\mu\nu})) be a Kerr-Newman spacetime with mass (M), angular momentum (aM), and charge (Q). The metric in Boyer-Lindquist coordinates is: [ ds^2 = -\frac{\Delta}{\rho^2}(dt - a \sin^2\theta d\phi)^2 + \rho^2 \left( \frac{dr^2}{\Delta} + d\theta^2 \right) + \frac{\sin^2\theta}{\rho^2} \left( a dt - (r^2 + a^2) d\phi \right)^2, ] where (\Delta = r^2 - 2Mr + a^2 + Q^2), (\rho^2 = r^2 + a^2 \cos^2\theta).

1.2 Cognitive Field Dynamics

An embodied observer is modeled by a cognitive field (\Psi \in H^1(\mathcal{M})), satisfying: [ \Box_g \Psi + \lambda \mathcal{K} \Psi + \mu \int_{\gamma} G(\tau) \Psi(x^\mu(\tau)) d\tau = 0, ] where:

(\mathcal{K} = R_{\alpha\beta\gamma\delta} R^{\alpha\beta\gamma\delta}) (Kretschmann scalar) replaces (R) to avoid trivialization.

(\lambda, \mu > 0) are coupling constants.

(G(\tau) = e^{-\gamma |\tau|}) is a synaptic memory kernel ((\gamma =) decay rate).

(\gamma(\tau)) is the observer’s worldline with proper time (\tau).

1.3 Epistemic Collapse Functional

The conceptual clarity (C[\Psi]) is defined as the positive-definite energy density: [ C[\Psi] = \int_{\mathcal{U}} \left( \nabla_\mu \Psi \nabla^\mu \Psi + m^2 |\Psi|^2 \right) dV_g, \quad m^2 > 0. ] Note: This avoids Lorentz-signature issues in the original formulation.

1.4 Research Questions

Q1. Prove that for (\mathcal{K} \geq \kappa_0 > 0), there exists a surface (\Sigma \subset \mathcal{M}) where: [ \lim_{x^\mu \to \Sigma} C[\Psi] = 0, \quad \text{with} \quad \Sigma \cong \mathbb{R} \times S^2 \quad (\text{homeomorphic to } \mathcal{H}^+). ]

Q2. Derive the epistemic horizon equation: [ g^{\mu\nu} \partial_\mu \mathcal{S} \partial_\nu \mathcal{S} = \mathcal{F}[\mathcal{S}], \quad \mathcal{F}[\mathcal{S}] = -\beta \left| \int_{\gamma} \mathcal{S}(x(\tau)) G(\tau) d\tau \right|^2. ]

Q3. Establish the Cognitive Uncertainty Principle in curved spacetime: [ \Delta C \cdot \Delta F \geq \frac{\hbar}{2} \left| g_{\mu\nu} \langle [ \hat{X}^\mu, \hat{P}^\nu ] \rangle \right|, \quad \hat{P}\nu = -i\hbar \nabla\nu. ]

Q4. Show that the renormalized cognitive entropy: [ S_{\text{obs}}^{\text{ren}} = -\text{Tr}(\rho_\Psi \log \rho_\Psi) - \Lambda \int_{\mathcal{M}} \sqrt{|\mathcal{K}|} dV_g, \quad \rho_\Psi = \frac{|\Psi|^2}{\langle \Psi | \Psi \rangle} ] diverges as (x^\mu \to \Sigma).

2. Physical and Mathematical Justification

2.1 Innovations over Previous Work

AspectOriginal FlawCorrected ApproachCurvature Coupling Used (R=0) (trivial) (\mathcal{K} \sim r^{-6}) near (r=0) (non-trivial) Cognitive Operator (\Theta[\Psi]) undefined Biophysically-grounded memory kernel (G(\tau)) Uncertainty Principle Ignored spacetime curvature Covariant commutation relations ([\hat{X}^\mu, \hat{P}_\nu]) Entropy Assumed quantum interpretation Semi-classical (\rho_\Psi) with UV cutoff (\Lambda)

2.2 Experimental Connections

Neural Effects in Gravitational Fields: The memory kernel (G(\tau)) models tidal disruption of neural synchrony, empirically testable via:

EEG/fMRI studies under hypergravity (e.g., centrifuges at (>10g))

Simulations of microtubule decoherence in Kerr metric (Hameroff-Penrose model).

Astrophysical Signatures: Predict modulated Hawking radiation spectra from black holes with (a \approx M) due to field coupling (\lambda \mathcal{K} \Psi).

3. Solution Sketch (Key Results)

3.1 Theorem 1 (Existence of (\Sigma))

Under Dirichlet boundary conditions on (\mathcal{I}^+), solutions to the cognitive field equation satisfy: [ C\Psi \sim \exp\left( -\lambda \int_r^{r_0} \sqrt{\mathcal{K}(r')} dr' \right) \quad \text{as} \quad r \to r_+. ] Thus, (\Sigma = \mathcal{H}^+) is the epistemic collapse surface. Proof uses Sobolev embedding on (\mathcal{M}) and maximum principles for (\Box_g).

3.2 Theorem 2 (Epistemic Horizon Equation)

The boundary (\partial \Sigma) satisfies: [ g^{\mu\nu} \nabla_\mu \nabla_\nu \mathcal{S} + \beta \gamma^2 \mathcal{S} = 0, \quad \beta = \frac{\mu}{\lambda} \left( \frac{M}{a} \right)^2. ] This is a wave equation with damping—solutions are spacelike for (a < 0.5M).

3.3 Theorem 3 (Cognitive Uncertainty Principle)

For (\hat{C} = \int_{\mathcal{M}} \hat{P}\mu \hat{P}^\mu dV_g) and (\hat{F} = \text{fidelity operator}): [ \Delta C \cdot \Delta F \geq \frac{\hbar}{2} \sqrt{\langle R{\mu\nu} u^\mu u^\nu \rangle}, \quad u^\mu = \text{observer 4-velocity}. ] Shows uncertainty blows up near (\Sigma) due to geodesic deviation.

3.4 Theorem 4 (Entropy Divergence)

Near (\Sigma): [ S_{\text{obs}}^{\text{ren}} \sim \log \left( \frac{r - r_+}{r_0} \right) + \text{finite}, \quad \text{as} \quad r \to r_+. ] Correlates with the breakdown of neural integration in high curvature.

4. Implications for Fundamental Physics

Resolution of Observer Paradox: In extreme gravity, cognition becomes an inseparable part of spacetime geometry (supporting Rovelli’s relational quantum mechanics).

Testable Prediction: Cognitive fields (\Psi) imprint B-mode polarization patterns on CMB via gravitational waves from primordial black holes ((a \geq 0.99M)).

Philosophical Shift: Replaces "Cogito ergo sum" with "Cognitio dissolvitur ergo geometria est" (knowledge dissolves, therefore geometry remains).

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academicfever · 9 months ago

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42/100 days of productivity!

Today’s focus:

Current State of the Electric Vehicle Markets in Europe_pariTech

EV module (5.3, 7.1)

Chalmers module (1.3, 1.4)

Vehicle Dynamics Blockset

Electric drive reading

Journal

Go on a Walk

Take meds and eat lunch+shower

Finish Serotonin_100 pages

Polemi Application _30 mins

positive affirmations:

I am resilient, and I rise to every challenge with strength.

My hard work is creating opportunities for me.

I have the power to create change in my life and in the world.

I am constantly improving, learning, and growing.

I focus on progress, not perfection.

My dedication and focus will lead me to success.

I am in control of my journey and embrace it fully.

Each day, I move closer to my dreams.

I trust the process and believe in my ability to succeed.

I am worthy of all the good things coming my way.

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yonderh2 · 18 days ago

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The Rise of Green Hydrogen Projects: A New Energy Frontier

Green hydrogen is produced by splitting water into hydrogen and oxygen using renewable electricity, making it a zero-emission fuel. Unlike grey or blue hydrogen, which rely on fossil fuels and emit CO₂, green hydrogen offers a sustainable alternative that aligns with global climate goals. The increasing number of green hydrogen projects worldwide underscores its growing importance in the energy mix.

In the United States alone, there are currently 67 green hydrogen projects planned over the next five years, representing a $26 billion investment1. These projects range from small-scale plants to mega-facilities that integrate large renewable energy capacities with electrolyzers. For example, the Air Products and AES Corporation's facility in Texas aims to produce over 200 metric tons of green hydrogen daily, powered by 1.4 gigawatts of wind and solar energy, making it the largest green hydrogen plant in the country1.

Diverse Approaches in Project Development

Green hydrogen projects are not one-size-fits-all; they vary significantly in scale, technology, and end-use applications. Some projects focus on producing hydrogen for fuel cell vehicles and transportation, while others target industrial feedstocks or Power-to-X applications, where hydrogen is converted into synthetic fuels or chemicals.

A key consideration in launching these projects is defining the product scope early on. Whether the goal is pure hydrogen production or synthesizing derivatives like e-methanol or green ammonia influences site selection, supply chains, and partnerships3. Collaboration across the value chain is essential, especially in this emerging market, to minimize risks and ensure stable demand and supply agreements.

Technological Innovations Driving Efficiency

Technological advancements are pivotal in making green hydrogen more competitive and scalable. Recent breakthroughs include novel electrolysis methods such as the E-TAC process developed by the Technion – Israel Institute of Technology, which separates hydrogen and oxygen production stages to reduce costs and complexity4. Additionally, scalable photoelectrode modules that directly use sunlight to split water are promising innovations that could revolutionize production efficiency4.

Companies like Plug Power are also enhancing the hydrogen infrastructure with innovations in storage and mobile refueling technologies, which are critical for widespread adoption4. These advancements collectively address the cost and efficiency barriers that have historically hindered green hydrogen's competitiveness compared to fossil fuels.

Economic and Environmental Impact

The environmental benefits of green hydrogen projects are substantial. For instance, the St. Gabriel Green Hydrogen Plant in Louisiana is expected to prevent 4.3 million metric tons of CO₂ emissions in North America annually once operational1. Such projects contribute significantly to national and international decarbonization targets.

Economically, these projects generate considerable employment opportunities during construction and operation phases. The Air Products and AES Corporation facility alone is projected to create over 1,300 construction jobs and more than 300 permanent jobs1. This job creation potential adds a socio-economic dimension to the green hydrogen transition.

Challenges and the Implementation Gap

Despite the promising outlook, green hydrogen faces challenges related to high production costs, investment risks, and market uncertainties. A recent study tracking global green hydrogen projects highlighted an implementation gap: while project announcements are increasing, actual operational capacity lags behind the ambitious targets needed to meet the 1.5 °C climate scenario5. Bridging this gap requires supportive policies, subsidies, and robust market mechanisms to enhance competitiveness against fossil fuel alternatives.

The Human Element: Why Green Hydrogen Matters

Beyond technology and economics, the rise of green hydrogen projects embodies a human-centered vision for a sustainable future. These projects empower communities by providing clean energy solutions, reducing pollution, and fostering energy independence. For example, hydrogen microgrids are emerging as innovative solutions that combine renewable energy with hydrogen storage to supply reliable power to remote or off-grid areas2.

Moreover, the integration of green hydrogen into heavy industries like steel and cement manufacturing is transforming sectors that have long been major carbon emitters, thus contributing to healthier environments and improved public health2.

Conclusion

The momentum behind green hydrogen projects is unmistakable and well-founded. These initiatives represent a multifaceted approach to tackling climate change by leveraging cutting-edge technology, strategic partnerships, and innovative business models. As the world accelerates toward net-zero emissions, green hydrogen stands out as a versatile and scalable solution that can decarbonize some of the most challenging sectors.

#green hydrogen

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zzz-updates · 7 months ago

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Pre-Register to Obtain Polychrome x160! Version 1.4 "A Storm of Falling Stars" Pre-Registration Event Is Now Live

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dineshblogsimr · 18 days ago

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Global Consumer Grade Contact Image Sensors Market , Forecast to 2032

Global Consumer Grade Contact Image Sensors Market size was valued at US$ 890 million in 2024 and is projected to reach US$ 1.4 billion by 2032, at a CAGR of 6.8% during the forecast period 2025-2032

Consumer Grade Contact Image Sensors Market Overview

Get A Full Report: https://semiconductorinsight.com/report/global-consumer-grade-contact-image-sensors-market/