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Associated Press
27-05-2025
- Business
- Associated Press
What are the Key Security Measures you require in a Cloud-Based Video QC System?
05/27/2025, New York City, New York // KISS PR Brand Story PressWire // Given the time, cost, and efforts that go into content creation, protecting your content in cloud storage is a necessity. Cloud ensures flexibility and scalability, but, at the same time, usher in the security concerns that must be addressed. Enforcing robust security measures in cloud video QC workflows is necessary to safeguard your content from breaches, unauthorised access, maintain compliance, and ensure a seamless workflow. In this article, we'll explore the key security measures essential for cloud video QC to prevent breaches and unauthorised access, and maintain integrity. Why is security important in cloud video QC? Here are the key reasons: Key Security Measures in Cloud Video QC It is the foundation of cloud security to protect data from unauthorized access. access. If the content is moved from its primary location, it should be converted into a secure format, so even if the data is accessed, it can't be read without a decryption key. Cloud video QC solutions implement both in-transit and at-rest encryption. In-transit encryption protects data during transfer between your storage location and the cloud QC servers. At-rest encryption ensures security of the data stored on cloud QC servers. Venera's QC solutions, Quasar and CapMate provide end-to-end encryption to ensure an added layer of content security for their customers. You can't let anyone in your cloud QC company access your content on the cloud. So, you must implement stringent access controls in your video QC software, which include: These security measures prevent unauthorized personnel from accessing content during the QC process. To maintain security and ensure legal compliance, cloud video QC providers must adhere to industry regulations, like ISO, SOC2, GDPR, CCPA, FTR and others. SOC2 compliance is relevant for SaaS and cloud service providers to assure their customers about their content security. It focuses on five key principles: security, availability, processing integrity, confidentiality, and privacy. Similarly, if your content is on AWS, you can ensure its security with their Foundational Technical Review (FTR) that enables you to identify and rectify any risks in your cloud QC solutions. Adhering to these security and compliance standards instils confidence among media companies that rely on cloud video QC solutions. Continuous security monitoring by the cloud QC solution provider is vital to identifying and mitigating potential threats before they escalate. Best practices include: By conducting periodic security assessments, cloud video QC providers can proactively address potential risks and strengthen system defences. Conclusion As the trend of media workflows moving to the cloud gains momentum, security of cloud-based video QC software becomes the top priority. Encryption, access controls, and compliance are key features that greatly boost content security. Regular security audits and sophisticated tracking mechanisms also guarantee that media assets are safe from leaks, breaches, and cyber attacks. By implementing these main security features, cloud video QC providers can provide a secure, strong, and reliable platform to content owners, broadcasters, and post-production operators so that they can keep up high-quality videos with confidence during the digital age. Original Source of the original story >> What are the Key Security Measures you require in a Cloud-Based Video QC System?
Yahoo
15-05-2025
- Science
- Yahoo
Kosmos 482's Final Descent Captured in One Haunting Image
More than 50 years ago in the early 1960s, the Soviet space program embarked on a bold new undertaking to go where no human had gone before. The Venera mission to explore Earth's nearest orbital neighbor, Venus, is to date the only mission to have successfully landed spacecraft on the deeply inhospitable planet. But, of the 29 probes dispatched on the Venera mission, only 16 landed on or orbited the nearby world. Most of the remainder got temporarily stuck in Earth orbit, falling back to the surface in the same year they were launched. One probe, renamed Kosmos 482, took a little more time to return. Launched in March 1972, it spent just over 53 years stuck looping through space before finally plunging through our atmosphere on 10 May 2025 in an uncontrolled reentry that captured the global imagination. Now, images captured by a German radar station present what is likely to be the last time we'll ever see the failed probe. The data, captured by Fraunhofer Institute for High Frequency Physics and Radar Techniques FHR on 8 May 2025, shows the tumbling roll of Kosmos 482 as it falls through space. As for where it ended up, that is currently unknown and is likely to remain unknown, unless more data becomes available. "The Soviet-era object was last spotted over Germany at 08:04 CEST on 10 May by our colleagues at Fraunhofer FHR as it passed through the sky over their antenna. Because the descent craft was not spotted one orbit later, at the expected 09:32 CEST pass, the reentry can be assumed to have occurred between these two times," the European Space Agency explained on its tracking blog for the object. "A precise time and location of its reentry have so far not been identified. We have not received any reports on direct visual observations of the final reentry or of any impacts on ground." Currently, based on extremely detailed modeling, the best estimate for where it fell is somewhere in the Indian Ocean. This is probably for the best. The conditions on Venus are perhaps most aptly described as hellacious. Surface temperatures average around 464 degrees Celsius (867 Fahrenheit), and atmospheric pressure is about 92 times higher than the atmospheric pressure at sea level here on Earth. Oh, and it rains sulfuric acid (which evaporates before it hits the ground, but any descending spacecraft still needs to get through the atmosphere). All this to say that the Venera probes were built to be extremely sturdy, and scientists thought it likely that Kosmos 482 would at least partially survive the searing heat of reentry to hit the ground intact or in chunks. No one wants a Venus lander raining on their heads. There is, unfortunately, still a lot of defunct junk circling our planet. Once the scope of the problem started to emerge, space agencies began to push a spacecraft design philosophy called Design for Demise. It is what it sounds like: objects sent into Earth orbit should be designed in such a way that they will harmlessly burn up on reentry. However, not all manufacturers have adopted this approach, and we're still sending spacecraft into Earth orbit faster than they can come down. In addition, even spacecraft that are designed to burn up can release ozone-depleting chemicals into Earth's atmosphere. Humanity has been treating low-Earth orbital space with reckless abandon. We were relatively lucky that the descent of Kosmos 482 caused no known problems, but it's a sobering reminder that even space, for us, is not limitless. Sun Unleashes Most Powerful Flare We've Seen in 2025 Venus May Be More Earth-Like Than We Thought – And It's Still Moving The Martian Night Sky Was Seen Turning Green in a Stunning First
India Today
11-05-2025
- Science
- India Today
Soviet-era Cosmos-482 crashes over Indian Ocean after half a century in space
A Soviet spacecraft launched more than half a century ago has finally returned to Earth, ending a decades-long odyssey with a dramatic but harmless plunge into the Indian probe, known as Kosmos 482 or Cosmos 482, re-entered Earth's atmosphere in the early hours of Saturday, coming down about 560 kilometers west of India's Middle Andaman Island, according to Russia's space agency in March 1972, Kosmos 482 was originally intended to land on Venus as part of the Soviet Union's ambitious Venera program. However, a malfunction during launch left the nearly 500-kilogram spacecraft stranded in an elliptical Earth orbit, where it remained for 53 years, slowly losing altitude due to atmospheric drag. The probe's return to Earth had been closely monitored by multiple space agencies, including the European Space Agency (ESA) and the European Union's Space Surveillance and Tracking ESA confirmed the reentry after the spacecraft failed to appear over a German radar station, signaling that it had already descended into the 482 was designed to survive the extreme conditions of Venus, featuring a robust titanium shell. This led scientists to predict that parts of the spacecraft might survive reentry and reach the ocean's surface nearly no damage or injuries have been reported, and there are no confirmed sightings of debris on emphasise that the risk to people on the ground from such uncontrolled reentries remains extremely low. The Aerospace Corporation estimated the odds of a person being harmed by Kosmos 482 at less than one in a million, well within international safety international space law, any remains of the spacecraft would legally remain the property of uneventful conclusion of Kosmos 482's journey highlights both the enduring legacy of early space exploration and the growing importance of monitoring aging space debris as human activity in orbit increases.
The Age
11-05-2025
- Science
- The Age
Soviet spacecraft plunges to Earth after 50 years stuck in space
A Cold War-era spacecraft has come crashing down to Earth after being stuck in orbit for more than five decades. An unconfirmed report from Russian space agency Roscosmos claimed that the Kosmos 482 splashed down in the Indian Ocean, west of Jakarta. A Venera module similar to the Kosmos-482 that has crashed back to Earth. Credit: NASA Experts from around the globe had been monitoring Kosmos 482, but its eccentric orbit, coupled with space weather, made its potential landing site difficult to predict. In an update on its Telegram channel, Roscosmos said: 'The descent of the spacecraft was monitored by the automated warning system for hazardous situations in near-Earth space.
9 News
10-05-2025
- Science
- 9 News
Soviet-era spacecraft plunges to Earth after 53 years stuck in orbit
Your web browser is no longer supported. To improve your experience update it here A Soviet-era spacecraft has plunged to Earth, more than a half-century after its failed launch to Venus. Its uncontrolled entry was confirmed by both the Russian Space Agency and European Union Space Surveillance and Tracking. The Russians indicated it came down over the Indian Ocean, but some experts were not so sure of the precise location. Pictured: The Venera module, similar to Kosmos 482. (NASA) The European Space Agency's space debris office also tracked the spacecraft's doom after it failed to appear over a German radar station. It was not immediately known how much, if any, of the half-tonne spacecraft survived the fiery descent from orbit. Experts said ahead of time that some if not all of it might come crashing down, given it was built to withstand a landing on Venus, the solar system's hottest planet. The chances of anyone getting clobbered by spacecraft debris were exceedingly low, scientists said. Launched in 1972 by the Soviet Union, the spacecraft known as Kosmos 482 was part of a series of missions bound for Venus. But this one never made it out of orbit around Earth, stranded there by a rocket malfunction. Much of the spacecraft came tumbling back to Earth within a decade of the failed launch. The spacecraft known as Kosmos 482 was part of a series of missions bound for Venus. (AP) No longer able to resist gravity's tug as its orbit dwindled, the spherical lander – an estimated 3 feet (1 metre) across – was the last part of the spacecraft to come down. The lander was encased in titanium, according to experts, and weighed more than 1000 pounds (495 kilograms). Any surviving wreckage will belong to Russia under a United Nations treaty. After following the spacecraft's downward spiral, scientists, military experts and others could not pinpoint in advance precisely when or where the spacecraft might come down. Solar activity added to the uncertainty as well as the spacecraft's deteriorating condition after so long in space. After so much anticipation, some observers were disappointed by the lingering uncertainty over the exact whereabouts of the spacecraft's grave. 'If it was over the Indian Ocean, only the whales saw it,' Dutch scientist Marco Langbroek said via X. As of Saturday afternoon, the US Space Command had yet to confirm the spacecraft's demise as it collected and analysed data from orbit. The US Space Command routinely monitors dozens of reentries each month. What set Kosmos 482 apart – and earned it extra attention from government and private space trackers – was that it was more likely to survive reentry, according to officials. It was also coming in uncontrolled, without any intervention by flight controllers who normally target the Pacific and other vast expanses of water for old satellites and other space debris. space Russia USA Astronomy Europe World CONTACT US
