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  • ✇gamedeveloper
  • GDC 2024 Dial Up the Diegetics: Sounds of NatureWinifred Phillips
    This article explores how environmental sound design, particularly from the natural environment, can be integrated into musical compositions to enhance diegetic immersion. Article based on the 2024 GDC lecture given by video game composer Winifred Phillips (latest: Wizardry: Proving Grounds of the Mad Overlord)
     

GDC 2024 Dial Up the Diegetics: Sounds of Nature

13. Srpen 2024 v 15:00
This article explores how environmental sound design, particularly from the natural environment, can be integrated into musical compositions to enhance diegetic immersion. Article based on the 2024 GDC lecture given by video game composer Winifred Phillips (latest: Wizardry: Proving Grounds of the Mad Overlord)

  • ✇Gear Nuke
  • How to set up a ring light for TikTokFrederik Nielsen
    Ever scrolled through TikTok and wondered how creators achieve that picture-perfect glow? The secret often lies in the lighting. In the world of TikTok, where every second counts and first impressions matter. So having impeccable lighting can make all the difference between a scroll-past and a viral hit.  It's not just about being seen. It's about being seen in the best light—literally! Now, while many lighting options are available, one tool has emerged as a favorite among TikTokers: t
     

How to set up a ring light for TikTok

24. Srpen 2023 v 15:12
How to set up a ring light for TikTok

Ever scrolled through TikTok and wondered how creators achieve that picture-perfect glow? The secret often lies in the lightingIn the world of TikTok, where every second counts and first impressions matter. So having impeccable lighting can make all the difference between a scroll-past and a viral hit. 

It's not just about being seen. It's about being seen in the best light—literally! Now, while many lighting options are available, one tool has emerged as a favorite among TikTokers: the ring light

This donut-shaped illuminator doesn't just light up your videos; it enhances, accentuates, and elevates your content to professional levels. If you're eager to step up your TikTok game, you're in the right place.

  • ✇Gear Nuke
  • How to choose lighting for video - a vlogger’s guideFrederik Nielsen
    If you're diving into the world of video making, you've probably realized that there's a lot more to creating a great video than just hitting the 'record' button.  We've got one word for you: lighting.  Lighting isn't just about making things visible. It's about setting a mood, directing focus, and transforming good shots into cinematic masterpieces.  And if you're an aspiring vlogger or someone who's always on the hunt for the latest tech gadget (we see you, techies!), getting your lig
     

How to choose lighting for video - a vlogger’s guide

7. Červen 2024 v 15:45
How to choose lighting for video - a vlogger’s guide

If you're diving into the world of video making, you've probably realized that there's a lot more to creating a great video than just hitting the 'record' button. 

We've got one word for you: lighting

Lighting isn't just about making things visible. It's about setting a mood, directing focus, and transforming good shots into cinematic masterpieces. 

And if you're an aspiring vlogger or someone who's always on the hunt for the latest tech gadget (we see you, techies!), getting your lighting game on point can make all the difference. Not only does it amp up your production quality, but it also gives you that professional edge. 

Don't believe me?

Studies show that videos with good lighting receive way more engagement than those without. So, gear heads, grab your notepads, and let's illuminate this topic together!

  • ✇Gear Nuke
  • Who are the most popular vloggers in 2023?Frederik Nielsen
    YouTube needs no introduction. As the second most visited site on the planet, it's not just a video-sharing platform—it's a cultural phenomenon. But who are the most popular vloggers in 2023? Remember when we rushed home to catch our favorite TV show? Now, YouTube is our go-to, pushing traditional TV to the sidelines.  It’s given rise to a new breed of internet celebrities and influencers who are as powerful, if not more, than traditional celebrities. And, as the platform continues to e
     

Who are the most popular vloggers in 2023?

22. Srpen 2023 v 16:12
Who are the most popular vloggers in 2023?

YouTube needs no introduction. As the second most visited site on the planet, it's not just a video-sharing platform—it's a cultural phenomenon. But who are the most popular vloggers in 2023?

Remember when we rushed home to catch our favorite TV show? Now, YouTube is our go-to, pushing traditional TV to the sidelines. 

It’s given rise to a new breed of internet celebrities and influencers who are as powerful, if not more, than traditional celebrities. And, as the platform continues to evolve, it showcases the dynamic dance between technology and creativity, always keeping us on our toes. 

We’re about to look at the giants of this world and discover the most popular vloggers ruling the YouTube kingdom! 

  • ✇Two Average Gamers
  • Introducing the Overwatch Coach Chatbot: Your Personalized Path to ImprovementFred
    Discover the Overwatch Coach Chatbot, a new tool designed to help players improve their skills with custom improvement plans. Try it out and provide feedback to help us make it better! The post Introducing the Overwatch Coach Chatbot: Your Personalized Path to Improvement first appeared on Two Average Gamers. The post Introducing the Overwatch Coach Chatbot: Your Personalized Path to Improvement appeared first on Two Average Gamers.
     

Introducing the Overwatch Coach Chatbot: Your Personalized Path to Improvement

Od: Fred
1. Srpen 2024 v 17:45

Discover the Overwatch Coach Chatbot, a new tool designed to help players improve their skills with custom improvement plans. Try it out and provide feedback to help us make it better!

The post Introducing the Overwatch Coach Chatbot: Your Personalized Path to Improvement first appeared on Two Average Gamers.

The post Introducing the Overwatch Coach Chatbot: Your Personalized Path to Improvement appeared first on Two Average Gamers.

  • ✇IEEE Spectrum
  • How LG and Samsung Are Making TV Screens DisappearAlfred Poor
    A transparent television might seem like magic, but both LG and Samsung demonstrated such displays this past January in Las Vegas at CES 2024. And those large transparent TVs, which attracted countless spectators peeking through video images dancing on their screens, were showstoppers. Although they are indeed impressive, transparent TVs are not likely to appear—or disappear—in your living room any time soon. Samsung and LG have taken two very different approaches to achieve a similar end—LG
     

How LG and Samsung Are Making TV Screens Disappear

29. Červenec 2024 v 15:00


A transparent television might seem like magic, but both LG and Samsung demonstrated such displays this past January in Las Vegas at CES 2024. And those large transparent TVs, which attracted countless spectators peeking through video images dancing on their screens, were showstoppers.

Although they are indeed impressive, transparent TVs are not likely to appear—or disappear—in your living room any time soon. Samsung and LG have taken two very different approaches to achieve a similar end—LG is betting on OLED displays, while Samsung is pursuing microLED screens—and neither technology is quite ready for prime time. Understanding the hurdles that still need to be overcome, though, requires a deeper dive into each of these display technologies.

How does LG’s see-through OLED work?

OLED stands for organic light-emitting diode, and that pretty much describes how it works. OLED materials are carbon-based compounds that emit light when energized with an electrical current. Different compounds produce different colors, which can be combined to create full-color images.

To construct a display from these materials, manufacturers deposit them as thin films on some sort of substrate. The most common approach arranges red-, green-, and blue-emitting (RGB) materials in patterns to create a dense array of full-color pixels. A display with what is known as 4K resolution contains a matrix of 3,840 by 2,160 pixels—8.3 million pixels in all, formed from nearly 25 million red, green, and blue subpixels.


The timing and amount of electrical current sent to each subpixel determines how much light it emits. So by controlling these currents properly, you can create the desired image on the screen. To accomplish this, each subpixel must be electrically connected to two or more transistors, which act as switches. Traditional wires wouldn’t do for this, though: They’d block the light. You need to use transparent (or largely transparent) conductive traces.

An image of an array of 15 transparent TVs, shot with a fish-eye lens and displaying white trees with pink and green swaths of color above them.    LG’s demonstration of transparent OLED displays at CES 2024 seemed almost magical. Ethan Miller/Getty Images

A display has thousands of such traces arranged in a series of rows and columns to provide the necessary electrical connections to each subpixel. The transistor switches are also fabricated on the same substrate. That all adds up to a lot of materials that must be part of each display. And those materials must be carefully chosen for the OLED display to appear transparent.

The conductive traces are the easy part. The display industry has long used indium tin oxide as a thin-film conductor. A typical layer of this material is only 135 nanometers thick but allows about 80 percent of the light impinging on it to pass through.

The transistors are more of a problem, because the materials used to fabricate them are inherently opaque. The solution is to make the transistors as small as you can, so that they block the least amount of light. The amorphous silicon layer used for transistors in most LCD displays is inexpensive, but its low electron mobility means that transistors composed of this material can only be made so small. This silicon layer can be annealed with lasers to create low-temperature polysilicon, a crystallized form of silicon, which improves electron mobility, reducing the size of each transistor. But this process works only for small sheets of glass substrate.

Faced with this challenge, designers of transparent OLED displays have turned to indium gallium zinc oxide (IGZO). This material has high enough electron mobility to allow for smaller transistors than is possible with amorphous silicon, meaning that IGZO transistors block less light.

These tactics help solve the transparency problem, but OLEDs have some other challenges. For one, exposure to oxygen or water vapor destroys the light-emissive materials. So these displays need an encapsulating layer, something to cover their surfaces and edges. Because this layer creates a visible gap when two panels are placed edge to edge, you can’t tile a set of smaller displays to create a larger one. If you want a big OLED display, you need to fabricate a single large panel.

The result of even the best engineering here is a “transparent” display that still blocks some light. You won’t mistake LG’s transparent TV for window glass: People and objects behind the screen appear noticeably darker than when viewed directly. According to one informed observer, the LG prototype appears to have 45 percent transparency.

How does Samsung’s magical MicroLED work?

For its transparent displays, Samsung is using inorganic LEDs. These devices, which are very efficient at converting electricity into light, are commonplace today: in household lightbulbs, in automobile headlights and taillights, and in electronic gear, where they often show that the unit is turned on.

In LED displays, each pixel contains three LEDs, one red, one green, and one blue. This works great for the giant digital displays used in highway billboards or in sports-stadium jumbotrons, whose images are meant to be viewed from a good distance. But up close, these LED pixel arrays are noticeable.

TV displays, on the other hand, are meant to be viewed from modest distances and thus require far smaller LEDs than the chips used in, say, power-indicator lights. Two years ago, these “microLED” displays used chips that were just 30 by 50 micrometers. (A typical sheet of paper is 100 micrometers thick.) Today, such displays use chips less than half that size: 12 by 27 micrometers.

A wooden frame surrounds a transparent display featuring an advertisement for a Black Friday Sale and a large image of a smartwatch. While transparent displays are stunning, they might not be practical for home use as televisions. Expect to see them adopted first as signage in retail settings. AUO

These tiny LED chips block very little light, making the display more transparent. The Taiwanese display maker AUO recently demonstrated a microLED display with more than 60 percent transparency.

Oxygen and moisture don’t affect microLEDs, so they don’t need to be encapsulated. This makes it possible to tile smaller panels to create a seamless larger display. And the silicon coating on such small panels can be annealed to create polysilicon, which performs better than IGZO, so the transistors can be even smaller and block less light.

But the microLED approach has its own problems. Indeed, the technology is still in its infancy, with costing a great deal to manufacture and requiring some contortions to get uniform brightness and color across the entire display.

For example, individual OLED materials emit a well-defined color, but that’s not the case for LEDs. Minute variations in the physical characteristics of an LED chip can alter the wavelength of light it emits by a measurable—and noticeable—amount. Manufacturers have typically addressed this challenge by using a binning process: They test thousands of chips and then group them into bins of similar wavelengths, discarding those that don’t fit the desired ranges. This explains in part why those large digital LED screens are so expensive: Many LEDs created for their construction must be discarded.

But binning doesn’t really work when dealing with microLEDs. The tiny chips are difficult to test and are so expensive that costs would be astronomical if too many had to be rejected.

A person wearing a white shirt with red text and a name badge is placing his hand behind a transparent display screen. The screen shows an image of splashing liquid and fire. Though you can see through today’s transparent displays, they do block a noticeable amount of light, making the background darker than when viewed directly. Tekla S. Perry

Instead, manufacturers test microLED displays for uniformity after they’re assembled, then calibrate them to adjust the current applied to each subpixel so that color and brightness are uniform across the display. This calibration process, which involves scanning an image on the panel and then reprogramming the control circuitry, can sometimes require thousands of iterations.

Then there’s the problem of assembling the panels. Remember those 25 million microLED chips that make up a 4K display? Each must be positioned precisely, and each must be connected to the correct electrical contacts.

The LED chips are initially fabricated on sapphire wafers, each of which contains chips of only one color. These chips must be transferred from the wafer to a carrier to hold them temporarily before applying them to the panel backplane. The Taiwanese microLED company PlayNitride has developed a process for creating large tiles with chips spaced less than 2 micrometers apart. Its process for positioning these tiny chips has better than 99.9 percent yields. But even at a 99.9 percent yield, you can expect about 25,000 defective subpixels in a 4K display. They might be positioned incorrectly so that no electrical contact is made, or the wrong color chip is placed in the pattern, or a subpixel chip might be defective. While correcting these defects is sometimes possible, doing so just adds to the already high cost.

A person looks at a transparent micro led screen displaying splashes of liquid in red, yellow, and green. Samsung’s microLED technology allows the image to extend right up to the edge of the glass panel, making it possible to create larger displays by tiling smaller panels together. Brendan Smialowski/AFP/Getty Images

Could MicroLEDs still be the future of flat-panel displays? “Every display analyst I know believes that microLEDs should be the ‘next big thing’ because of their brightness, efficiency, color, viewing angles, response times, and lifetime, “ says Bob Raikes, editor of the 8K Monitor newsletter. “However, the practical hurdles of bringing them to market remain huge. That Apple, which has the deepest pockets of all, has abandoned microLEDs, at least for now, and after billions of dollars in investment, suggests that mass production for consumer markets is still a long way off.”

At this juncture, even though microLED technology offers some clear advantages, OLED is more cost-effective and holds the early lead for practical applications of transparent displays.

But what is a transparent display good for?

Samsung and LG aren’t the only companies to have demonstrated transparent panels recently.

AUO’s 60-inch transparent display, made of tiled panels, won the People’s Choice Award for Best MicroLED-Based Technology at the Society for Information Display’s Display Week, held in May in San Jose, Calif. And the Chinese company BOE Technology Group demonstrated a 49-inch transparent OLED display at CES 2024.

These transparent displays all have one feature in common: They will be insanely expensive. Only LG’s transparent OLED display has been announced as a commercial product. It’s without a price or a ship date at this point, but it’s not hard to guess how costly it will be, given that nontransparent versions are expensive enough. For example, LG prices its top-end 77-inch OLED TV at US $4,500.

A diagram of the structure of a display pixel represented as a grey rectangle, which frames an open area labeled transmissive space, and three rectangular blocks labeled R, G, and B. Displays using both microLED technology [above] and OLED technology have some components in each pixel that block light coming from the background. These include the red, green, and blue emissive materials along with the transistors required to switch them on and off. Smaller components mean that you can have a larger transmissive space that will provide greater transparency. Illustration: Mark Montgomery; Source: Samsung

Thanks to seamless tiling, transparent microLED displays can be larger than their OLED counterparts. But their production costs are larger as well. Much larger. And that is reflected in prices. For example, Samsung’s nontransparent 114-inch microLED TV sells for $150,000. We can reasonably expect transparent models to cost even more.

Seeing these prices, you really have to ask: What are the practical applications of transparent displays?

Don’t expect these displays to show up in many living rooms as televisions. And high price is not the only reason. After all, who wants to see their bookshelves showing through in the background while they’re watching Dune? That’s why the transparent OLED TV LG demonstrated at CES 2024 included a “contrast layer”—basically, a black cloth—that unrolls and covers the back of the display on demand.

Transparent displays could have a place on the desktop—not so you can see through them, but so that a camera can sit behind the display, capturing your image while you’re looking directly at the screen. This would help you maintain eye contact during a Zoom call. One company—Veeo—demonstrated a prototype of such a product at CES 2024, and it plans to release a 30-inch model for about $3,000 and a 55-inch model for about $8,500 later this year. Veeo’s products use LG’s transparent OLED technology.

Transparent screens are already showing up as signage and other public-information displays. LG has installed transparent 55-inch OLED panels in the windows of Seoul’s new high-speed underground rail cars, which are part of a system known as the Great Train eXpress. Riders can browse maps and other information on these displays, which can be made clear when needed for passengers to see what’s outside.

LG transparent panels have also been featured in an E35e excavator prototype by Doosan Bobcat. This touchscreen display can act as the operator’s front or side window, showing important machine data or displaying real-time images from cameras mounted on the vehicle. Such transparent displays can serve a similar function as the head-up displays in some aircraft windshields.

And so, while the large transparent displays are striking, you’ll be more likely to see them initially as displays for machinery operators, public entertainment, retail signage, and even car windshields. The early adopters might cover the costs of developing mass-production processes, which in turn could drive prices down. But even if costs eventually reach reasonable levels, whether the average consumer really want a transparent TV in their home is something that remains to be seen—unlike the device itself, whose whole point is not to be.

  • ✇posts from MiniPCs, EmulationOnAndroid
  • M910x Tiny as a Plex Server?/u/gifred
    Hello, I'm currently looking for a SFF or Mini PC to use as a Plex and Media Server as well as an IPTV device, I expect to plug USB drives on it. It only requires one HDMI 4K60 port. I was looking for 4K120 minis but those are still expensive. Would a M910x Tiny fits the bill? I can have one over Ebay for ~200$ tax included. Thanks! submitted by /u/gifred to r/MiniPCs [link] [comments]
     

M910x Tiny as a Plex Server?

Hello, I'm currently looking for a SFF or Mini PC to use as a Plex and Media Server as well as an IPTV device, I expect to plug USB drives on it. It only requires one HDMI 4K60 port. I was looking for 4K120 minis but those are still expensive. Would a M910x Tiny fits the bill? I can have one over Ebay for ~200$ tax included. Thanks!

submitted by /u/gifred to r/MiniPCs
[link] [comments]

How to make an object keep same relative position and orientation using only velocity

I have object A, I can get any information I want from object A (global position, velocity, etc)

I have object B, which is positioned and oriented in a certain way relative to object B. There is no parent/child relation between the 2 objects. I can't change the global position of object B, nor can I simply translate or rotate it. The only thing I can do is set the angular and linear velocities.

Is there a way for me to keep the relative position and orientation of object B when object A moves, while using only velocity? I've tried using what I could find online (including ChatGPT), but nothing seems to work. (i'm in 3D)

(Edit: after a comment, here is an example to clarify: object A can be a human character and object B his a Backpack. When the character moves, you want the backpack to remain on his back. Normally this is easily done with matrix transforms but in this case, we need to move the backpack only by controlling its angular and linear velocities)

Android Auto Updates: The 5 Issues Google Needs to Address

1. Červen 2024 v 00:18

Google launched Android Auto in 2015, promising a better car infotainment system to make driving easier. It brought the familiar Android interface to car screens, ...

The post Android Auto Updates: The 5 Issues Google Needs to Address appeared first on Gizchina.com.

Master Your Android: Easily Remove & Rename Devices in Find My Device

31. Květen 2024 v 22:49

Keeping track of your gadgets can be a struggle, especially with the ever-growing number of connected devices. Google’s Find My Device app helps locate your ...

The post Master Your Android: Easily Remove & Rename Devices in Find My Device appeared first on Gizchina.com.

Seamless Android Integration on Windows: Microsoft Copilot Expands its Reach

19. Květen 2024 v 17:03
Android PC

If you want to maximize Microsoft Copilot’s capabilities, you can enhance query responses with plugins like Spotify and Adobe. Recently, a new plugin called “Phone” ...

The post Seamless Android Integration on Windows: Microsoft Copilot Expands its Reach appeared first on Gizchina.com.

Must-Have Free Software for Optimal PC Performance

11. Květen 2024 v 09:52
PC Software

There are many different PC software available now. Some you have to pay for, but others are free, or they have free versions. You can ...

The post Must-Have Free Software for Optimal PC Performance appeared first on Gizchina.com.

Decode Your PC’s DNA: A Guide to Identifying Your Motherboard

20. Únor 2024 v 23:32
PC Motherboard

You likely know the processor in your PC, but identifying the motherboard might be a bit unclear. Under normal circumstances, many PC users don’t really ...

The post Decode Your PC’s DNA: A Guide to Identifying Your Motherboard appeared first on Gizchina.com.

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