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This DJI OM 5 transforms your phone into the perfect mobile camera
The mobile video and photo game has advanced throughout the years with bigger storage, better lenses, better sensors, stabilization, and much more. But for most of us that want to get that perfect shot or make a cinematic film from our vacation trip, a nice gimbal could do wonders. DJI has a solution for that with its DJI OM 5 that provides cinematic super smooth videos with the ability to fold neatly for easy storage. DJI OM 5 uses a 3-axis stabilization system that gives users smooth video footage. The dedicated DJI app allows for tracking subjects with the ActiveTrack 4.0 and includes a built-in extension rod for better angles when filming. The app also allows users to experiment with creative features like Story Mode, DynamicZoom, Timelapse, and more. DJI claims that the OM 5 has a 6.4 hours operating time under ideal conditions with a charging time of 1.5 hours. It currently has 4.4 out of 5 stars on Amazon with over 2,000 ratings.
Check out the DJI OM 5 in action:
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Why buy?
Smoother video quality
Smartphones becomes a cinematic camera
Magnetic clamps for quick attachment
App features creative tools
6 hours of operating time
Lightweight and easy to store
Less than $200
Get the DJI OM 5 here
#amazon#best product#dji#dji OM5#om5#stabilizer#dji stabilizer#phone camera#filming#youtuber#Youtube
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#4 osmo action#cámara dji osmo action 4k#dji action 4#dji action 4 Stabilization#DJI Action 4 vs GoPro Hero#DJI Action Camera#dji action camera 4#dji camera Stabilization#dji osmo action 4#dji osmo action 4 buy#dji osmo action 4 camera#dji osmo action 4 camera Stabilization#dji osmo action 4 lens#dji osmo action 4 price#dji osmo action 4 price in canada#dji osmo action 4 price in dubai#dji osmo action 4 price in europe#dji osmo action 4 price in india#dji osmo action 4 price in pakistan#dji osmo action 4 price in uae#dji osmo action 4 price in US#dji osmo action 4 price india#dji osmo action 4 price pakistan#dji osmo action 4 price uae#dji osmo action 4 release date#dji osmo action 4 review#dji osmo action 4 spec#dji osmo action 4 Stabilization#dji osmo action 4k aksiyon kamerası#dji osmo action camera
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DJI RS 3, 3-Axis Gimbal
Intruduction
The DJI RS 3 is a professional-grade 3-axis gimbal for DSLR and mirrorless cameras. It features a 3 kg (6.6 lbs) payload capacity and automated axis locks, making it ideal for ultra-stable video recording. The 1.8″ OLED touchscreen allows you to quickly adjust your settings and control the gimbal, while the professional video stabilizer ensures smooth and consistent footage. The RS 3 supports cameras from Canon, Sony, Panasonic, Nikon and Fujifilm, making it the perfect choice for any filmmaker.
Features
ColorBlackBrandDJICompatible DevicesCameraItem Dimensions LxWxH8.66 x 7.87 x 2.95 inchesItem Weight1.5 KilogramsMaximum Weight Recommendation3 KilogramsFolded Size10″ x 9.05″ x 2.67″
Additional Details
3 kg (6.6 lbs) Tested Payload – With a weight of just 1.3 kg (includes gimbal, battery handle, and double-layer quick release plates), DJI RS 3 offers a max tested payload of 3 kg (6.6 lbs).
Automated Axis Locks – The three axes of DJI RS 3 can be automatically locked and unlocked with the simple press of the power button, significantly improving the speed and efficiency of transitions and storage.
3rd-Gen RS Stabilization Algorithm – With the new-generation RS stabilization algorithm, RS 3’s anti-shake performance is improved by 20%, making low-angle and dynamic shots easier than ever.
Bluetooth Shutter Button – RS 3 supports wireless shutter control, eliminating the need for a control cable. Cameras will pair automatically after the initial connection, saving users time and effort when shooting.
1.8″ OLED Touchscreen – DJI RS 3 features a 1.8-inch OLED touchscreen for quick access to most of the setting functions found on the Ronin app. It also features a new user interface that is intuitive and precise.
12h Max Battery Life – Users can enjoy robust battery life of up to 12 hours, which can meet the needs of all-day shooting. It also supports 18-watt PD fast charging for full charges in just 2.5 hours.
Note
Products with electrical plugs are designed for use in the US. Outlets and voltage differ internationally and this product may require an adapter or converter for use in your destination. Please check compatibility before purchasing.
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#DJI#RS3#3axisgimbal#cinematicshots#videography#filmproduction#stabilizer#smoothshots#contentcreation#gimbaloperator#filmmakinggear#cameraaccessories#videoproduction#moviemaking#digitalcontentcreator#gimbalshots#gimbalcinematography#camerastabilizer#gimbalmaster#filmgear.
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I Attended the DJI Ronin Gimbal Workshop at Ted's World of Imaging on September 10 2022, Learned How To Use RS3 Pro, RS3, RS2 & RS2C
I Attended the DJI Ronin Gimbal Workshop at Ted’s World of Imaging on September 10 2022, Learned How To Use RS3 Pro, RS3, RS2 & RS2C
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#APS-C#cinema lenses#digital hybrid mirrorless cameras#DJI RS 3 Gimbal Stabilizer Combo#DJI RS 3 Pro Gimbal Stabilizer Combo#DJI RSC 2 Gimbal Stabilizer Combo#DJI RSC 2 Gimbal Stabilizer Pro Combo#Fujifilm GFX100#Fujifilm GFX100S#Fujifilm X-H2#Fujifilm X-H2S#Fujinon XF 18-120mm f/4.0 LM PZ WR#large format#large format cinematography#medium format#medium format cinematography#Super 35#Ted&039;s Events#Ted&039;s World of Events#Ted&039;s World of Imaging
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On the top floor of a building somewhere in Ukraine is a drone workshop.
Inside is a chaotic workbench covered in logic boards, antennas, batteries, augmented reality headsets, and rotor blades. On one end of the room is a makeshift photo studio—a jet-black quadcopter drone sits on a long white sheet, waiting for its close-up.
This particular workshop’s Geppetto is Yvan. He grins as he shows off his creations, flittering around with a lit cigarette in his mouth, dangling ash, grabbing different models. (Yvan is a pseudonym; WIRED granted some of the people in this story anonymity due to the security risk.)
Yvan holds up a mid-size drone: This model successfully hit a target from 11 kilometers away, he says, but it should be capable of traveling at least 20. He’s trying different batteries and controllers to try to extend the range. He screws on a stabilizer tailpiece to a hard plastic shell—Yvan 3D-prints these himself—and holds up the assembled bomb. It’s capable of carrying a 3.5-kilogram explosive payload, enough to take out a Russian tank.
He uses his index finger and thumb to pick up a nondescript beige chip: This, he says, is what he’s really proud of.
One big problem with these drones—which are based on commercially available first-person-view (FPV) or photography drones—is that their explosive payload is jimmy-rigged on. It requires the drone to crash in order to close the circuit and trigger the explosion.
This chip, Yvan says, allows for remote detonation from a significant distance, meaning the operator can park their drone and lay in wait for hours, even days, before it goes off. He expects this technology could, eventually, be connected to AI—exploding only if it registers a nearby tank, for example. He has created a long-range smart land mine, I note. After the idea is passed through our translator, he nods enthusiastically.
There are many of these FPV drone workshops around Ukraine—Kyiv estimates there are about 200 Ukrainian companies producing aerial drones, with others producing land- and sea-based uncrewed vehicles. But Yvan, grinning proudly, insists that the manufacturer which he represents, VERBA, is the best.
Ukraine is facing increasingly tough odds in its defensive war against a better-resourced, better-equipped enemy. Thanks to delayed aid from Washington and shortages in other NATO warehouses, Ukraine has lacked artillery shells, long-range missiles, and even air defense munitions.
These drones, however, represent a bright spot for the Ukrainians. Entrepreneurship and innovation is scaling up a sizable drone industry in the country, and it’s making new technological leaps that would make the Pentagon envious.
The age of drone warfare is here, and Ukraine wants to be a superpower.
After Yvan showed off his workshop, we loaded into the car to visit one of his factories.
Behind a steel door is a room filled with racks, where 30 3D printers are working simultaneously, printing various drone components in unison. The twentysomething employees seem accustomed to the screeching alarm—some are soldering the drones together, others are tinkering with designs in AutoCAD, one is lounging on a sofa.
Strung across one shelf of 3D printers is a black flag, a take on Blackbeard’s (apocryphal) pirate flag. It shows a horned skeleton wearing an AR headset and holding a controller, thrusting his spear toward a bleeding heart as a quadcopter flies above.
In the first year of the war, when FPV drones were providing extraordinary footage of the front lines and viral video of unmanned aerial vehicles (UAVs) dropping grenades on Russian tanks captivated the world, Ukraine was snatching up every consumer drone it could find. Chinese technology giant DJI became a household name in Ukraine, thanks to its drones’ ubiquity on the front lines. Ukraine’s early advantage was quickly lost, however, as Russia scrambled to snatch up these Chinese-made UAVs.
“When Russia sees, from Instagram, my product, Russia starts buying all these components in China,” a VERBA executive says. The new demand from Moscow can often cause either shortages or inflation, squeezing out the Ukrainian companies. So entrepreneurs like Yvan began building their own.
When Yvan began his operation in the early months of the war following Russia’s February 2022 full-scale invasion, he was creating a handful of frankendrones to send to the Ukrainian Armed Forces. Now, Yvan says, his operation is producing 5,000 FPV drones per month. He offers a range of systems, from a mammoth 12-inch model to a 4-inch prototype.
At first, these entrepreneurs were pursuing this project on their own—scrambling, like most of the country, to be useful in helping Ukraine defend itself. Kyiv was initially cool to the idea that a domestic drone industry was worth the money and attention, especially given the demand for more conventional arms. Some in the military, one executive says, dismissed the utility of these innovative weapons and surveillance platforms as merely “wedding photography drones.” (One executive said Oleksandr Syrskyi, Ukraine’s new commander in chief, had been an early adopter inside the military, directly contracting 10 firms in early 2023 to begin assembling new technology for his forces.)
That attitude changed in 2023, when Ukraine set up Brave1, a government-run technology agency and incubator that helps connect private enterprise to the Ukrainian Armed Forces.
Since its creation, Brave1 has worked to streamline design, development, and procurement of new defense technology, while helping companies navigate government and military bureaucracy. Brave1 has already awarded more than $3 million in research and development grants and connected more than 750 companies to the Ukrainian Armed Forces.
When United24, the Ukrainian government’s in-house crowdfunding platform, first pitched an “army of drones” to its donors in 2022, it aimed to buy just 200 units. Today, Ukrainian president Volodymyr Zelensky projected late last year that his country would produce over 1 million drones in 2024.
“I would say that we can even double this number,” Natalia Kushnerska, head of Brave1’s defense technology cluster, tells WIRED.
“We have the responsibility and the motivation to do it today and to do it very fast,” she says. “Because we don't have any other choice.”
This is a war, one executive told me, “where the economy matters.”
Even hampered by sanctions, Russia has a $2 trillion economy—about 6 percent of that is geared toward its wartime production. Ukraine’s entire GDP, by contrast, is less than $200 billion.
While Kyiv has received substantial support from its NATO partners, it faces constant pressure to find efficiencies. The economics of these drones are looking better and better.
Yvan’s drones are, compared to conventional munitions, cheap. His most expensive unit runs about $2,500, but the cheapest is only $400.
Early in the war, the Ukrainians could reasonably expect—depending on weather, the mission, and Russian jamming efforts—that about 30 percent of their drones would connect with the target. Today, good Ukrainian-made systems are approaching a 70 percent success rate.
It can often take four or five artillery shells to successfully destroy a medium-range target, such as a tank. At $8,000 per shell—which are in short supply and high demand—that is an expensive proposition. Even if it takes two of Yvan’s most expensive drones to achieve the same objective, that’s thousands of dollars in savings. The proliferation of these drones reduces the “cost-per-kill,” as one executive phrased it, and reduces the strain on those dwindling ammunition stockpiles.
Even if Yvan and other producers are making more and more of their systems in Ukraine, they still rely on Chinese suppliers for critical onboard components. That comes with a trade-off—Chinese suppliers are cheaper, but they tend to be of lower quality and are happy to do business with Russia as well. Other options, such as companies in Taiwan, the United States, Canada, or Europe, are better quality but can be several times more expensive.
These supply chains, Yvan says, are “complicated.” Drone manufacturers who spoke to WIRED say anywhere between 40 percent and 80 percent of their drone components are made in Ukraine. Asked how long it would take before Ukraine manufactures nearly everything in these drones, from the rotor blades to the onboard components, Yvan provides a bullish estimate: “six months.”
It’s not an entirely unrealistic dream. Mykhailo Fedorov, Ukraine’s deputy prime minister and also minister responsible for digital transformation, said late last year that Kyiv hopes to break ground on a semiconductor factory, capable of producing 50,000 chips a year, by 2025. Ukraine produces about half the world’s supply of neon, necessary for the lasers used to make the chips.
There are already companies in Ukraine that have developed electronic design automation software—a necessary tool for producing chips—and that do electronic assembly inside the country itself. An industry source tells WIRED that a working group was formed in late 2023 to chart out how Ukraine could be a player in the semiconductor industry.
Another defense technology executive, Igor, manufactures considerably more-sensitive drones. “We definitely don’t buy anything from China,” he says. His products are more expensive, he says, “but we are looking for something that would differentiate us from the Russians.” At the moment, he says, “Russia is ahead.” He’s hoping to close that gap.
For any of this to work, however, there needs to be demand for these drones. The more they can sell, the more they can invest. “The things that they need,” Kushnerska says: “contracts and money.” Demand has certainly grown—fundraising platform United24 helped finance a fleet of naval drones and raised funds to purchase 5,000 surveillance UAVs. Other organizations have led similar purchases. The drone-makers, however, say it’s just not enough.
In early 2023, Ukraine’s parliament passed new laws to regulate how drone manufacturers can contract with the state; while profiteering is generally discouraged in the wartime economy, the law specifically allows the companies to charge up to 25 percent profit.
Yvan says he charges just a 10 percent premium for his drones and reinvests all that profit back into his operation. Representatives from other drone companies who spoke to WIRED say they operate on a similar basis.
More orders will mean more investment. Thus far, NATO countries have preferred to purchase locally-made equipment and ship it to Ukraine. That may be changing.
Bill Blair, Canada’s minister of defense, visited Kyiv shortly before I was there. While there, he announced that Ottawa would donate 800 Canadian-made drones to Ukraine. While the donation was lauded, a senior official asked the minister, “Why didn't you buy our drones?” After being briefed on the various innovations taking place in the Ukrainian drone industry, Blair was convinced. “We're also going to find ways to invest in Ukrainian industry,” he tells WIRED. “The point of the [Ukraine Defense Contact Group drone coalition] is to create capability, not only in the countries that are in the coalition but also capability in Ukraine.”
Even still, bureaucracy moves slowly. What’s more, startups—some of which are helmed by technologists or special effects gurus with no experience in procurement, let alone war—are often learning as they go. One executive, covering his eyes with his hand, says: “It’s like going completely blind.”
Not every company has been able to hack it. One executive says he’s aware of five defense technology startups that have shut down since the war began.
Much attention has been paid to FPV drones. They reinforce the idea that Ukraine’s defense is a scrappy, homespun effort. But even as the country has professionalized production of these light, agile drones, it has rapidly spun up production of other, more complicated systems.
One of Ukraine’s biggest disadvantages, from the start of the war, has been its difficulty in hitting targets inside Russia. Because Moscow has so effectively dominated the skies, Ukraine has been left playing defense.
That equation has changed substantially in recent weeks. Ukraine has had enormous success in attacking Russian oil refineries—knocking out as much as 15 percent of the country’s total refining capacity—and bombing Russian air bases. This has all been made possible by Ukrainian-made long-range attack drones.
Igor, who represents a company responsible for producing those long-range bombers, says they have developed a unit capable of flying 1,000 kilometers and carrying a 25-kilogram payload and has produced “several hundred” units for the Ukrainian Armed Forces. And they are actively working on a new model, capable of flying up to 2,500 kilometers. (It will pack a smaller punch, he said: “The longer you go, the lighter the payload.”)
These systems are more expensive: from $35,000 to $100,000. But if they can destroy millions of dollars worth of Russian equipment, that’s a bargain.
“These are no simple drones,” Igor says. “We don’t have the luxury, like the Western guys, to spend years in development.”
They’re not stopping with drones, either. They’re using the same technology to develop Ukrainian-made missiles, capable of flying farther and doing more damage to Russian military infrastructure, tucked well behind the front lines, which is regularly used to attack Ukrainian cities.
Igor’s goal is to “bring the war to Russia.” FPV drones have broadcast the realities of the front lines in high definition—long-range bombers could successfully make it feel real, he says. “They don’t suffer like we suffer.”
The effort to bring the war to Russia is advancing on multiple fronts. One of the most famous uncrewed systems of the war has been Kyiv’s Sea Baby drones. Videos have gone viral of these sleek ships clipping along the waters of the Black Sea.
According to Kyiv, they can carry 850 kilograms of explosives, go 90 kilometers per hour, travel some 1,000 kilometers—and they are invisible to radar. This is the kind of capability that the Pentagon, and other defense departments, has spent years trying to develop. “We like to joke that everything we do now, in Ukraine, takes three days—globally, it takes three years,” Brave1’s Kushnerska says.
Ask around Kyiv about these drones, however, and everyone is mum. Even otherwise talkative defense sources go quiet when asked about the Sea Babys. Asked about the vehicles, one defense executive smiled and said simply, “That’s classified.”
Kushnerska is equally evasive: “We need to keep silent about new solutions and new surprises that we are preparing for the enemy.”
The skullduggery is understandable. These uncrewed vehicles have been responsible for doing massive damage to Russia’s prized Black Sea fleet and spearheading the first major attack on the Kerch Bridge, in Crimea, in 2022.
Developing naval drones, however, is relatively easy compared to uncrewed land systems.
Over tea with Stepan, another defense entrepreneur, he lists the litany of difficulties of trying to build uncrewed land systems: They don’t travel well over tough terrain, they don’t operate well in inclement weather, and they don’t tend to go very far.
And yet, Stepan says, his company has overcome all those obstacles—which the Pentagon is still wrestling with—and has put these land systems in the field. Plus, Stepan says he’s “pleasantly surprised by how they’re being used.” He says their smallest unit, which has generally been used to deliver food and equipment, recently rescued and evacuated a wounded soldier from the front line.
Ukraine is not the only side deploying these land systems, however. In late March, pro-Kremlin channels celebrated what they said was the successful deployment of Russian-made uncrewed land systems, outfitted with an AGS-17 grenade launcher.
Ukraine believes its advantage will come from how it dispatches these systems. “You need a mesh system,” Stepan says. And that’s one of the single hardest things to do. Ukraine has started dispatching repeater UAVs, which are used to extend the base station signal, allowing the drones to fly farther and defend better against Russian jamming.
One ground drone, basically a mobile machine-gun turret, boasts an 800-meter range. What’s more impressive, however, is what happens when the land system is paired with a surveillance drone. Rather than them firing directly ahead, Stepan’s team has been training Ukrainian soldiers how to raise the weapon's trajectory, firing in a parabolic pattern and using the drone’s camera to adjust its aim. This tactic, he says, extends the drone’s firing range to 2.4 kilometers.
Doing combined operations with a couple of drones is hard enough. If Ukraine wants to really take advantage of these autonomous systems, it will need to figure out how to command multiple systems across land and air—and that’s where artificial intelligence comes in.
Stepan walks through the four levels of how AI can augment warfare: One is reconnaissance, where machine learning can be used to collate large volumes of footage and satellite imagery. Two is “copiloting,” as he calls it, where AI can analyze that intelligence and help draw insights. Third is planning, where AI can help develop “interlinked, complex orders” for multiple systems across land and air; he likens that to having AI develop football plays. Finally, step four is full autonomy, where AI collects intelligence, analyzes it, develops orders based on the intelligence, and dispatches and commands autonomous units based on that information—although humans review and approve each step of the process.
There are steps beyond this, Stepan notes, that remove human involvement entirely, but he isn’t interested in going there. Another executive recounted a story of how one company designed an autonomous machine gun, capable of conducting object detection and opening fire on its own—that was a “big, big problem,” he says, after the weapon’s radio signals were jammed and it began firing wildly. “I think we can do this slowly,” he adds.
Stepan’s systems are capable of operating at step four, he says. It means his systems have the “ability to take in variables” in real time—it allows his drones to change tactics depending on the environment. He provides examples: “What if our team is close? What if there is [electronic warfare]? What if one system loses connection?”
Kushnerska says Ukraine, alive to the concerns about and risks of AI on the battlefield, is mostly interested in using artificial intelligence only in the “last mile.”
It’s not enough to build drones. Ukrainians also have to know how to pilot them.
The last stop on Yvan’s tour is at a strip mall some distance away. Outside, a group of fresh-faced young men smoke cigarettes and enthusiastically greet him as he walks past.
Inside is a sterile classroom, with a dozen desks laid out—each featuring a tablet, a workstation, and an array of tools. In the back corner are pallets of FPV drones waiting to be unloaded.
This is Yvan’s drone school. Here, students learn not just the ins and outs of piloting these quadcopters but also how the machines work and how to repair them. Down the hallway is a large conference room where the students first test their skills—flags and checkpoints are propped up on cardboard boxes taped together into platforms of different levels. Once students can successfully navigate this makeshift course, they graduate to piloting the drones outside.
Yvan’s drones are normally painted jet black, designed to look as nondescript as possible. One drone, sitting on a desk in the training school, is spray-painted a bright orange. Yvan grins: “We’re sick of losing them in the grass.”
As Kyiv mobilized tens of thousands of ordinary Ukrainian men to fight, training has been a critical necessity. Particularly as ammunition supplies have dwindled, virtual training has been especially attractive. High-tech combat simulators have allowed Ukrainian troops to simulate real combat scenarios with rifles, rocket-propelled grenades, even anti-tank missiles. Ukrainian entrepreneurs are hoping to have dozens of these simulators online in the near future, with the goal of training 100,000 troops.
An industry source tells WIRED that a drone combat simulator went online last month, allowing trainees to simulate the entire process of launching a long-range drone strike. Version 2.0 is being rolled out now, they say, adding that it is likely the first immersive offensive drone simulator in operation. The simulator is also intended to help Ukrainian pilots practice integrating their drones with land systems, which is notoriously difficult for even experienced soldiers.
While Yvan’s drone school offers hands-on experience for users of the FPV drones, this new drone simulator allows pilots to practice long-range targeting, flying in adverse weather conditions, and countering electronic warfare.
All of this—the FPV drones, the long-range bombers, the flight simulators—is Ukrainian innovation at work. And it is moving remarkably fast. Some day, after the war is over, Yvan may well be on the front lines of a Ukrainian technology renaissance, fulfilling orders for the Pentagon. First, both he—and Ukraine—need to survive.
In recent weeks, Russian forces have made modest but steady advances along the front lines. Defense executives, meanwhile, see sabotage and industrial espionage as constant problems. Even more acute is the threat of Russian air strikes. One executive recently recounted how one of his company’s main facilities was nearly hit by two Russian cruise missiles. The risk is very real.
Leaving the school, Yvan opens up the back of his car. He rummages around and hands me two patches: One features a cartoonish and scantily clad woman wearing an FPV headset with the Ukrainian flag on the side, piloting one of Yvan’s rotocopters. The other, an army-green Canadian flag, carries the words “ALWAYS BE READY.”
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I miss IRL streaming. I’m gonna put this rig back to use next week while I have a visitor in town. In my experience, IRL streaming doesn’t have to look bad on a phone. Here’s some nerd shit about IRL streaming and why I have my setup the way that I do.
The standard for IRL these days is a LiveU encoder with a few 4G/5G modems connected to it. The benefit of this setup is not only using multiple connections, but it allows you to max out the quality of the camera you use for IRL. It allows you to use anything from a GoPro to a DSLR / Mirrorless camera for IRL. The liveU takes that camera’s HDMI or SDI output and sends it over the connections of the modems to a destination: typically a server somewhere that is running streaming software like you would at home to stream on Twitch or YouTube. Using this server (IRLToolkit for example) adds the benefit of automatically switching scenes to a "be right back" scene if your internet connection ever dips on the go.
While this is the "standard" for IRL, the barrier for entry is pretty steep. The LiveU alone will run you $1k new, maybe $700-$800 used. Then, for it to be even worth the investment, you'd want to bridge at least two modem's connections which can be anywhere north of $40 a month per modem. That intermediate server will also run you a decent amount of money per month.
I haven't sworn off the idea of adopting this standard some time in the future but for now, I am running a setup on a phone that has admittedly gotten to the point where I should have just done so ages ago. I use my iPhone 12 pro max for IRL, but on that phone I use an app called Prism to stream to IRLToolkit (just like the big boys do) over RTMP, rather than just streaming directly to twitch from, say, the streamlabs app. The video quality on an iPhone 13 pro max holds up to that of a high quality camera, as long as the right software and tinkering is behind it. The audio codec and noise cancellation on Prism do a good job with keeping the audio crisp, but I've recently made the addition of DJI's new lav mic system. I have yet to test this live, but I have used it just in the iPhone's camera app and it sounds great. Then, there is the gimbal. I am currently running the DJI osmo moblie 5. A lightweight stabilizer is something that even those running the LiveU setup don't have. On the left, I have an old pixel 3 running chat, alerts, and the IRLToolkit dashboard all at the same time. Since this requires very little data, this is doable just with a pay-as-you-go SIM card. Lastly, the box jutting off on the left is a LumeCube that is mounted in a cold shoe mounting block. This is just a small LED panel that I can spin away or toward me to keep my subject lit. Not pictured: I've got a JBL clip speaker to strap to my chest, which runs alerts and TTS (which I get in trouble for in public all the time. Shoutout to the guy who played a TTS out loud while I was in the security line at TwitchCon Amsterdam saying I volunteered for a cavity search).
All said and done, the Gimbal costs $140, the extra phone plan costs maybe $30 a month depending on usage. The (unnecessary) mic system is $300. I do have a discount on the intermediate server with IRLToolkit because I know the guy who runs it (sue me - it's normally $120 a month and I won't say what I pay). You could run this same setup on the Prism app to stream directly to Twitch or YouTube, so the intermediate server service can be avoided (at the cost of your stream possibly going down when you lose connection). The upfront cost is really low and the ongoing cost is also relatively low. For someone that wants a better-than-average IRL setup, I think that going down a route like this or similar is something people should explore. It requires the least amount of knowledge for a relatively low amount of money.
If you want to watch this stuff in action, as well as my studio space where I run my own twitch production full time - I'm live at http://www.twitch.tv/hamncheddar
ched.tv for other socials
#streaming#irl streaming#irl#twitch#youtube#streamer#camera equipment#live stream#dji gimbal#steadycam#5g services#technology#hamncheddar#dji#rtmp#dji osmo mobile 6#audiophile#dslr#mirrorless#cameras#gopro#iphone13promax#iphone 13#twitch partner
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DJI RS 3 Pro Gimbal Stabilizer Combo
The DJI RS 3 Pro Gimbal Stabilizer Combo is a professional-grade 3-axis camera gimbal that supports up to 10 lbs of payload. It features advanced stabilization technology, multiple shooting modes, and intuitive controls, making it ideal for filmmakers and content creators.
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DJI OM 4 SE - 3-Axis Smartphone Gimbal Stabilizer with Tripod, Magnetic Design, Portable and Foldable, ActiveTrack 3.0, Story Mode, Vlogging Stabilizer, YouTube TikTok Video, for Android and iPhone https://koutlou.com/product/dji-om-4-se-3-axis-smartphone-gimbal-stabilizer-with-tripod-magnetic-design-portable-and-foldable-activetrack-3-0-story-mode-vlogging-stabilizer-youtube-tiktok-video-for-android-and-iphone/?feed_id=761&_unique_id=62c3281390a49
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DJI Mini 2 SE, Lightweight Mini Drone with QHD Video
https://youtu.be/I8A_UDgDAOk
Discover Aerial Freedom with DJI Mini 2 SE - Lightweight Mini Drone with QHD Video
Description:
Elevate your aerial photography and videography with the DJI Mini 2 SE, the ultimate lightweight mini drone designed to capture stunning QHD video. Perfect for both beginners and seasoned pilots, this compact yet powerful drone offers exceptional performance, ease of use, and superior image quality, making it the ideal companion for all your adventures.
Why Choose DJI Mini 2 SE Lightweight Mini Drone?
High-Quality QHD Video: Capture breathtaking aerial footage in QHD resolution, ensuring sharp, vibrant, and detailed images and videos.
Compact and Portable: Weighing just under 250 grams, the DJI Mini 2 SE is incredibly lightweight and portable, making it easy to take with you on any adventure without the need for FAA registration.
Easy-to-Use: With intuitive controls and user-friendly features, the DJI Mini 2 SE is perfect for both beginners and experienced drone enthusiasts, allowing you to start flying and capturing footage right out of the box.
Long Battery Life: Enjoy extended flight times of up to 31 minutes per charge, giving you more time to explore and capture stunning aerial shots.
Stability and Precision: Equipped with advanced flight stabilization technology and GPS-assisted navigation, the Mini 2 SE ensures stable and precise flight performance, even in windy conditions.
Key Features:
QHD Video and High-Resolution Photos: Capture stunning aerial footage in Quad HD resolution and take high-resolution photos with the Mini 2 SE’s advanced camera, providing professional-quality results.
3-Axis Gimbal: The built-in 3-axis gimbal stabilizes the camera, ensuring smooth and stable footage, even during dynamic flights.
Intelligent Flight Modes: Enhance your aerial creativity with intelligent flight modes like QuickShots, Panorama, and more, allowing you to capture cinematic shots effortlessly.
OcuSync 2.0 Transmission: Experience real-time HD video transmission up to 10 km, providing a clear and reliable connection between the drone and your controller.
GPS and Vision Sensor: Enjoy accurate hovering and precise flight control with the GPS and vision sensor system, ensuring safe and stable flights.
Customer Reviews:
⭐️⭐️⭐️⭐️⭐️ "The DJI Mini 2 SE is an amazing drone! The QHD video quality is outstanding, and it's so easy to fly. I love how portable it is, making it perfect for all my travels." - Emily R.
⭐️⭐️⭐️⭐️⭐️ "I’m new to drones, and the Mini 2 SE was the perfect choice. It’s incredibly user-friendly, and the footage is stunning. Highly recommend for anyone looking to get into aerial photography!" - Mark L.
Experience Aerial Photography Like Never Before with DJI Mini 2 SE!
Ready to explore the skies and capture stunning QHD video? The DJI Mini 2 SE offers the perfect blend of performance, portability, and ease of use. Click here [insert link] to order yours today and start your aerial adventure!
#DJIMini2SE #LightweightDrone #QHDVideo #AerialPhotography #DroneTechnology #PortableDrone #OutdoorExploration #EasyToUseDrone #AerialVideography #DJI
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Exploring the DJI Avata: Revolutionizing Aerial Mobility
In the ever-evolving landscape of technology, the realm of aerial mobility continues to push boundaries and redefine possibilities. DJI, a name synonymous with innovation in the field of drones, has once again captured the imagination of enthusiasts and professionals alike with its latest creation – the DJI Avata.
Unveiled amidst much anticipation and excitement, the DJI Avata represents a significant leap forward in the realm of personal aerial transportation. Combining cutting-edge technology with sleek design, this futuristic aircraft promises to revolutionize the way we perceive and engage with the skies.
Design and Features
At first glance, the DJI Avata captivates with its streamlined, aerodynamic design. Inspired by nature and engineered for efficiency, every aspect of its construction is meticulously crafted to optimize performance and user experience.
One of the most striking features of the Avata is its vertical takeoff and landing (VTOL) capabilities. Unlike traditional aircraft that require runways for liftoff and landing, the Avata can ascend and descend gracefully from almost any location, making it ideal for urban environments where space is limited.
Powered by advanced electric propulsion systems, the Avata boasts impressive speed and agility while maintaining a whisper-quiet operation. Equipped with state-of-the-art sensors and intelligent flight control algorithms, it offers unparalleled stability and maneuverability, ensuring a smooth and safe journey for passengers.
Safety and Reliability
In the realm of aerial transportation, safety is paramount, and DJI has left no stone unturned in ensuring the utmost security for Avata passengers. Multiple redundant systems, including backup power sources and flight control redundancies, are integrated into the aircraft to mitigate the risk of system failures.
Furthermore, the Avata utilizes advanced collision avoidance technology to detect and navigate around obstacles in its flight path, reducing the likelihood of accidents and ensuring a stress-free flying experience for passengers and bystanders alike.
Versatility and Accessibility
Beyond its role as a personal aerial transportation vehicle, the DJI Avata opens up a world of possibilities for various applications. From urban commuting and emergency medical services to aerial photography and surveillance, its versatility knows no bounds.
Moreover, the Avata is designed to be accessible to a wide range of users, with intuitive controls and automated flight assistance features that make piloting effortless, even for those with limited experience. Whether you're a seasoned aviator or a novice enthusiast, the Avata invites you to soar to new heights with confidence and ease.
Environmental Impact
In an era where environmental sustainability is of paramount importance, the DJI Avata stands as a beacon of progress in the pursuit of greener transportation solutions. By harnessing the power of electric propulsion, it significantly reduces carbon emissions compared to traditional gas-powered aircraft, contributing to a cleaner and healthier planet for future generations.
Furthermore, its efficient design and use of renewable materials minimize ecological footprint throughout its lifecycle, aligning with DJI's commitment to environmental stewardship and corporate responsibility.
Otros productos:
La DJI Pocket 3 es una cámara compacta y versátil diseñada para capturar imágenes suaves y de alta calidad sobre la marcha. Con su tamaño compacto y tecnología de estabilización incorporada, permite a los usuarios crear fácilmente videos de aspecto profesional sin necesidad de equipos voluminosos. La Pocket 3 cuenta con capacidades avanzadas de cámara, incluida la grabación de video 4K, modos de disparo inteligentes y una variedad de opciones creativas. Su interfaz táctil intuitiva y diseño fácil de usar la hacen accesible tanto para principiantes como para videógrafos experimentados. Ya sea que estés grabando vlogs, videos de viajes o aventuras llenas de acción, la DJI Pocket 3 ofrece comodidad, portabilidad y un rendimiento excepcional.
DJI Care es un plan de protección integral ofrecido por DJI para sus drones y otros productos. Ofrece cobertura para daños accidentales y brinda tranquilidad a los usuarios al minimizar los costos de reparación en caso de percances durante su funcionamiento. Con DJI Care, los usuarios pueden acceder a reparaciones aceleradas, servicios de reemplazo e incluso recibir cobertura para daños por agua en algunos casos. Este servicio tiene como objetivo garantizar que los propietarios de productos DJI puedan disfrutar de sus dispositivos con confianza, sabiendo que cuentan con un soporte confiable y asistencia en caso de accidentes imprevistos.
The DJI Mavic 3 es un dron de última generación diseñado para la fotografía y videografía aérea profesional. Con sus características y capacidades avanzadas, ofrece una calidad de imagen y rendimiento incomparables en un paquete compacto y portátil. El Mavic 3 cuenta con un potente sistema de cámara con un sensor grande y un procesamiento de imagen avanzado, lo que permite a los usuarios capturar impresionantes videos en 4K y fotos de alta resolución con una claridad y detalle excepcionales. Sus modos de vuelo inteligentes y tecnología de evitación de obstáculos hacen que sea fácil capturar tomas cinematográficas con precisión y seguridad. Ya sea que seas un cineasta profesional, creador de contenido o fotógrafo aficionado, el DJI Mavic 3 ofrece las herramientas y la versatilidad para llevar tu imagen aérea a nuevas alturas.
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The development of drone cameras has revolutionized the way we capture aerial footage. Originally used primarily for military purposes, drones equipped with cameras have found a significant place in both commercial and recreational sectors. These devices provide an unparalleled perspective, allowing for stunning landscape shots, comprehensive site surveys, and even wildlife monitoring without disturbing the natural habitat. The technology behind drone cameras has advanced rapidly, offering higher resolution, better stability, and more intuitive controls, making aerial photography accessible to both professionals and hobbyists.
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Andyax: Shooting an Adventure Film with DJI RS3 PRO – Commentary
Andyax: Shooting an Adventure Film with DJI RS3 PRO – Commentary
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#camera accessories#camera supports#cinema camera accessories#DJI#DJI Ronin#DJI RS 3 Gimbal Stabilizer Combo#DJI RS 3 Pro Gimbal Stabilizer Combo#DJI RSC2#gimbals#movie camera accessories#Ted&039;s World of Imaging#video camera accessories
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Keeping It Steady: Filming with a Gimbal (Highlight Reel)
As I look back at previous film and video productions, I was reminded of the challenge and the fulfillment of working with a camera gimbal. This camera technology has always been a bit foreign to me for the past decade. I have worked with several professionals that are well-versed in gimbal and steadicam systems, often in a supporting role, yet I have never had the opportunity to operate a similar system. Recently, I finally had the chance to work extensively with a camera gimbal.
For a quick and simple explanation, the purpose of a gimbal or steadicam is to smooth video footage while operating a handheld camera by compensating for the movements of the camera’s operator. There are several advanced gimbal systems that electronically calibrate and balance camera movement, which is mounted to the gimbal.
Last fall, I had the opportunity to shoot a short film for the 48 Hour Film Project in Pittsburgh. Our goal for the film was to shoot it entirely on a gimbal with the facade that the film is shot in a single take, meaning the camera moves with the story and characters in real-time. Think of how the movie Birdman (2014) was shot (and if you’ve never seen Birdman, do yourself a favor and add it to your watchlist). Our production team chose to adopt that sort of method of filming.
For our production, The Fatal Burden of Educating Children in the Time of the Undead (2023), I decided to use the DJI Ronin RS 3 Pro gimbal stabilizer paired with my Blackmagic Design Pocket Cinema 6K Pro camera. Initially, it proved to be a challenge to understand gimbal calibrations, but our camera team was able to overcome difficulties and film a fantastic little film based on our own constraints.
I decided to put together a little highlight reel that shows off some of my favorite shots from that film, as well as footage that I shot for another project that utilizes the gimbal. Check out the video, which is now live on the Cipher Eye Media YouTube page! From my experiences I hope to produce more camera shots like this in the future and share more of my work with you!
youtube
#cinematography#filmshoot#indiefilm#filmproduction#blackmagic#videoproduction#djironin#rokinon#canon#cinematographer#filmmaker#contentcreator#directorofphotography#cameraoperator#pittsburgh#digitalmedia#digitalvideo#ciphereyemedia#stevencroner#croner#stevecroner#stevenecroner#promotionalvideo#filmreel#videoreel#highlightreel#Youtube
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India's Top DJI Drones for Best Price | Xboom
Ready to take some aerial photos and explore the view? Looking at DJI drones for sale is all that is required. With a choice of solutions to suit every need and budget, DJI drones are highly regarded for their advanced technology and exceptional performance. DJI offers a drone suitable for all budgets and skill levels. Professional filmmakers use the professional-grade Inspire series, while beginners can choose the more compact and lightweight Mini series. Because DJI is committed to innovation, all of its drone models are expected to be loaded with advanced capabilities. Advanced flying modes like ActiveTrack and Point of Interest make it easier to take beautiful photos, and strong gimbal stability ensures perfect footage even in unexpected situations. Whether you're a professional looking to improve your aerial photography or a beginner hoping to discover new perspectives, DJI drones deliver unparalleled quality and performance. For more information check out the website.
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