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DJI’s RS3 mirrorless camera stabilizer unlocks automatically and is easier to balance

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DJI’s RS3 mirrorless camera stabilizer unlocks automatically and is easier to balance

DJI has significantly expanded its gimbal lineup with the RS3 and RS3 Pro models designed for mirrorless and cinema cameras. It also launched some other interesting cinema products derived from the innovative Ronin 4D camera gimbal, including a LiDAR focusing system and “DJI Transmission” for remote monitoring and control of compatible gimbals. Finally, it announced that it has joined Panasonic and Leica’s full-frame L-Mount alliance and unveiled a compensation for removing ProRes RAW from the Ronin 4D. 

DJI’s flagship mainstream gimbal is now the DJI RS3. The key new feature over the RSC 2 is an automatic locking system that releases and unfolds the gimbal when it’s turned on, then folds and locks it when turned off. That avoids the usual dance of steadying the camera by hand when turning off the gimbal, then manually locking three separate axes. 

DJI's RS3 mirrorless camera stabilizer unlocks automatically and is easier to balance

DJI

Tapping the power button sends it into sleep mode, “which makes powering on the device, stowing it away and relocating much faster,” DJI notes. It also uses quick-release plates for “position memory” so in theory, you only have to balance your camera once. 

It weighs in at just under 2.8 pounds but can handle a payload of 6.6 pounds, enough to support most mainstream mirrorless cameras. The 3rd-generation stabilization algorithm offers a 20 percent improvement over the RSC 2, so it’s easier to shoot low angles, running or filming from a moving vehicle. For longer lenses up to 100mm, SuperSmooth provides further electronic stabilization. 

DJI's RS3 mirrorless camera stabilizer unlocks automatically and is easier to balance

DJI

It has a Bluetooth shutter button that supports automatic connection without the need for a camera control cable, along with a 1.8-inch full-color OLED display with 80 percent more surface area than the RSC 2. That screen allows a full gimbal setup in most scenarios without connecting the mobile app, while the redesigned UI and control layout makes it easier to operate. Part of that is a new physical gimbal mode switch that lets you select pan follow, pan and tilt follow and FPV modes instantly. 

Finally, a new battery grip provides up to 12 hours of battery life and can be easily changed out via a quick release system. It supports PD fast charging at 18 watts and can be charged independently or during use for non-stop operation. The DJI RS3 gimbal is now available from authorized retailers and at DJI’s store priced at $550 for the standalone gimbal and $720 for the DJI RS3 Combo that adds a briefcase handle, focus motor, second control cable and a carrying case. 

DJI RS3 Pro gimbal

DJI

Next up is the RS3 Pro, another technological tour de force from DJI. It’s built from carbon fiber so it weighs just 3.3 pounds, but can handle up to 10 pounds of payload — enough for pro cinema cameras like the Sony FX6, Canon C70 and RED Komodo. Like the RS3, it also has the new automated axis lock system, Bluetooth shutter button, 1.8-inch OLED touchscreen and gimbal mode switch. 

The RS3 Pro borrows a key feature from the Ronin 4D, the optional DJI LiDAR Range Finder. It projects 43,200 ranging points within a 46 foot indoor area, and powers a next-generation focus motor with extra torque and one-step mounting. That allows for “autofocus on manual lenses with no need for repetitive calibration,” according to DJI. 

DJI RS3 Pro

DJI

The LiDAR Range Finder has the same chip as the one on the Ronin 4D and a built-in 30mm camera, giving similar ActiveTrack Pro focus and gimbal tracking capabilities. That will allow pro cameras to maintain steady, clear shots in “even more dynamic scenarios,” DJI says. The RS3 Pro is now available starting at $870 or $1,100 in a combo with an extended quick release plate, phone holder, focus motor and kit, Ronin Image Transmitter and more. The LiDAR Range Finder will be sold separately priced at $660. 

DJI has also announced that it’s selling the DJI Transmission remote control/monitor seen with the Ronin 4D as a separate device. It uses DJI’s O3 tech used on drones like the Mavic 3, transmitting video in 1080p/60fps at a ground range of up to 20,000 feet with end-to-end ultra-low latency. Monitoring is done via the 7-inch, 1,500-nit High-Bright Remote Monitor. 

DJI Transmission

DJI

With compatible devices like the RS3 Pro, you can not only monitor and record video output but also control the gimbal, camera recording and more, using the DJI Master Wheel and Force Pro. It also adds a DFS band that allows for up to 23 channels, letting large crews work simultaneously with ten or more transmitters. The DJI Transmission arrives this September for $2,500 or you can purchase the High-Bright Monitor separately for $1,700. 

Finally, DJI announced that it’s now a member of the L-Mount Alliance and has partnered with Leica on the Zenmuse X9 L-Mount unit that’s compatible with Leica, Panasonic and Sigma L-Mount lenses. And for any Ronin 4D buyers disappointed with the removal of Apple ProRes RAW support, DJI announced that it will support Apple ProRes 4444 XQ, the highest-quality ProRes codec short of ProRes RAW. 

All products recommended by Engadget are selected by our editorial team, independent of our parent company. Some of our stories include affiliate links. If you buy something through one of these links, we may earn an affiliate commission.

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Why trusted execution environments will be integral to proof-of-stake blockchains

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Why trusted execution environments will be integral to proof-of-stake blockchains

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Ever since the invention of Bitcoin, we have seen a tremendous outpouring of computer science creativity in the open community. Despite its obvious success, Bitcoin has several shortcomings. It is too slow, too expensive, the price is too volatile and the transactions are too public.

Various cryptocurrency projects in the public space have tried to solve these challenges. There is particular interest in the community to solve the scalability challenge. Bitcoin’s proof-of-work consensus algorithm supports only seven transactions per second throughput. Other blockchains such as Ethereum 1.0, which also relies on the proof-of-work consensus algorithm, also demonstrate mediocre performance. This has an adverse impact on transaction fees. Transaction fees vary with the amount of traffic on the network. Sometimes the fees may be lower than $1 and at other times higher than $50.

Proof-of-work blockchains are also very energy-intensive. As of this writing, the process of creating Bitcoin consumes around 91 terawatt-hours of electricity annually. This is more energy than used by Finland, a nation of about 5.5 million.

While there is a section of commentators that think of this as a necessary cost of protecting the entire financial system securely, rather than just the cost of running a digital payment system, there is another section that thinks that this cost could be done away with by developing proof-of-stake consensus protocols. Proof-of-stake consensus protocols also deliver much higher throughputs. Some blockchain projects are aiming at delivering upwards of 100,000 transactions per second. At this performance level, blockchains could rival centralized payment processors like Visa.  

Figure 1: Validators

The shift toward proof-of-stake consensus is quite significant. Tendermint is a popular proof-of-stake consensus framework. Several projects such as Binance DEX, Oasis Network, Secret Network, Provenance Blockchain, and many more use the Tendermint framework. Ethereum is transitioning toward becoming a proof-of-stake-based network. Ethereum 2.0 is likely to launch in 2022 but already the network has over 300,000 validators. After Ethereum makes the transition, it is likely that several Ethereum Virtual Machine (EVM) based blockchains will follow suit. In addition, there are several non-EVM blockchains such as Cardano, Solana, Algorand, Tezos and Celo which use proof-of-stake consensus.  

Proof-of-stake blockchains introduce new requirements

As proof-of-stake blockchains take hold, it is important to dig deeper into the changes that are unfolding.  

First, there is no more “mining.” Instead, there is “staking.” Staking is a process of putting at stake the native blockchain currency to obtain the right to validate transactions. The staked cryptocurrency is made unusable for transactions, i.e., it cannot be used for making payments or interacting with smart contracts. Validators that stake cryptocurrency and process transactions earn a fraction of the fees that are paid by entities that submit transactions to the blockchain. Staking yields are often in the range of 5% to 15%.  

Second, unlike proof-of-work, proof-of-stake is a voting-based consensus protocol. Once a validator stakes cryptocurrency, it is committing to staying online and voting on transactions. If for some reason, a substantial number of validators go offline, transaction processing would stop entirely. This is because a supermajority of votes are required to add new blocks to the blockchain. This is quite a departure from proof-of-work blockchains where miners could come and go as they pleased, and their long-term rewards would depend on the amount of work they did while participating in the consensus protocol. In proof-of-stake blockchains, validator nodes are penalized, and a part of their stake is taken away if they do not stay online and vote on transactions.  

Figure 2: Honest voting vs. dishonest voting.

Third, in proof-of-work blockchains, if a miner misbehaves, for example, by trying to fork the blockchain, it ends up hurting itself. Mining on top of an incorrect block is a waste of effort. This is not true in proof-of-stake blockchains. If there is a fork in the blockchain, a validator node is in fact incentivized to support both the main chain and the fork. This is because there is always some small chance that the forked chain turns out to be the main chain in the long term. 

Punishing blockchain misbehavior

Early proof-of-stake blockchains ignored this problem and relied on validator nodes participating in consensus without misbehaving. But this is not a good assumption to make in the long term and so newer designs introduce a concept called “slashing.” In case a validator node observes that another node has misbehaved, for example by voting for two separate blocks at the same height, then the observer can slash the malicious node. The slashed node loses part of its staked cryptocurrency. The magnitude of a slashed cryptocurrency depends on the specific blockchain. Each blockchain has its own rules.  

Figure 3: Misbehaving validators are slashed by other validators for reasons such as “Attestation rule offense” and “Proposer rule offense”

Fourth, in proof-of-stake blockchains, misconfigurations can lead to slashing. A typical misconfiguration is one where multiple validators, which may be owned or operated by the same entity, end up using the same key for validating transactions. It is easy to see how this can lead to slashing.  

Finally, early proof-of-stake blockchains had a hard limit on how many validators could participate in consensus. This is because each validator signs a block two times, once during the prepare phase of the protocol and once during the commit phase. These signatures add up and could take up quite a bit of space in the block. This meant that proof-of-stake blockchains were more centralized than proof-of-work blockchains. This is a grave issue for proponents of decentralization and consequently, newer proof-of-stake blockchains are shifting towards newer crypto systems that support signature aggregation. For example, the Boneh-Lynn-Shacham (BLS) cryptosystem supports signature aggregation. Using the BLS cryptosystem, thousands of signatures can be aggregated in such a way that the aggregated signature occupies the space of only a single signature.  

How trusted execution environments can be integral to proof-of-stake blockchains  

While the core philosophy of blockchains revolves around the concept of trustlessness, trusted execution environments can be integral to proof-of-stake blockchains.  

Secure management of long-lived validator keys  

For proof-of-stake blockchains, validator keys need to be managed securely. Ideally, such keys should never be available in clear text. They should be generated and used inside trusted execution environments. Also, trusted execution environments need to ensure disaster recovery, and high availability. They need to be always online to cater to the demands of validator nodes.  

Secure execution of critical code

Trusted execution environments today are capable of more than secure key management. They can also be used to deploy critical code that operates with high integrity. In the case of proof-of-stake validators, it is important that conflicting messages are not signed. Signing conflicting messages can lead to economic penalties according to several proof-of-stake blockchain protocols. The code that tracks blockchain state and ensures that validators do not sign conflicting messages needs to be executed with high integrity.  

Conclusions

The blockchain ecosystem is changing in very fundamental ways. There is a large shift toward using proof-of-stake consensus because it offers higher performance and a lower energy footprint as compared to a proof-of-work consensus algorithm. This is not an insignificant change. 

Validator nodes must remain online and are penalized for going offline. Managing keys securely and always online is a challenge. 

To make the protocol work at scale, several blockchains have introduced punishments for misbehavior. Validator nodes continue to suffer these punishments because of misconfigurations or malicious attacks on them. To retain the large-scale distributed nature of blockchains, new cryptosystems are being adopted. Trusted execution environments that offer disaster recovery, high availability, support new cryptosystems such as BLS and allow for the execution of custom code with high integrity are likely to be an integral part of this shift from proof-of-work to proof-of-stake blockchains.

Pralhad Deshpande, Ph.D., is senior solutions architect at Fortanix.

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How NFTs in the metaverse can improve the value of physical assets in the real world

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How NFTs in the metaverse can improve the value of physical assets in the real world

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The metaverse has become inseparable from Web3 culture. Companies are racing to put out their own metaverses, from small startups to Mark Cuban and, of course, Meta. Before companies race to put out a metaverse, it’s important to understand what the metaverse actually is.

Or what it should be.

The prefix “meta” generally means both ”self-referential” or “about.” In other words, a meta-level is something about a lower level. From dictionary.com: 

“-a prefix added to the name of a subject and designating another subject that analyzes the original one but at a more abstract, higher level:

metaphilosophy; metalinguistics.

a prefix added to the name of something that consciously references or comments upon its own subject or features:

a meta-painting of an artist painting a canvas.

The key aspect of both definitions is self-reference. Logically, the term “metaverse” then should be “a universe that analyzes the original one, but at an abstracted level.” In other words, the metaverse will be an abstraction layer that describes our current physical world. 

The metaverse should be an extended reality, not a whole new one. 

And that’s why the trend has been heading toward a metaverse that’s built on crypto. Crypto, just like the world, has a kind of physical nature to it. You can’t copy a Bitcoin or an NFT. Just like the coffee cup on your desk can’t occupy the same physical space as the cup next to it. The space itself is singular and immutable and can’t be copied. Even if you make a 3D-printed replica, it’s not the same cup. So crypto is very well suited to building an immutable layer that describes the real world. In crypto, we can build models of the real world that carry over many of its properties.

The natural opportunity will be in digital twins. Digital twins create a universe of information about buildings or other physical assets and are tied to the physical world. In other words, they are that meta-layer. By integrating blockchain technology, in the form of NFTs, all data and information surrounding the physical twin can be verified and saved, forever, all tracked with the asset itself. When you think about it, digital twins are the metaverse versions of the physical twins, and the technology enhances features of the real world. 

Validation is the key to metaverse truth

When evaluating crypto/blockchain’s relationship to the metaverse, it’s important to remember that crypto is about verification and validation. So when considering blockchain’s relationship to the metaverse, it makes sense to think about it as a digital space that can be validated. 

So in the metaverse, it’s time to expand on what an NFT is and what it can hold. NFTs cannot be copied because they are tied to the validation and verification process in time, which is what makes them nonfungible. As the capabilities of NFTs grow, they are becoming a new information dimension that is tied to the real world.

NFT domains are going to be core to this idea. They become a nonfungible data space, uniquely tied to us and our activity on Web3. In the metaverse, these domain NFTs can represent a house; recording and validating every visitor, repair, event, etc. And that record and that infrastructure can be sold not just with the house but as a core component of the house, increasing the value.

By clearly defining what a true metaverse is, both for developers and investors, we can start to move toward a meaningful version of it. 

Leonard Kish is cofounder of Cortex App, based on YouBase’s distributed date protocol.

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Protecting the modern workforce requires a new approach to third-party security

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Ask any HR leader: they’ll tell you that attracting and retaining employees continues to be a top challenge. While this has never been easy, there’s little doubt that the COVID-19 pandemic (and distributed workforces) have made things even more complex. As you read this article, many workers are actively considering leaving their current roles, which don’t support their long-term goals or desired work-life balance. While organizations attempt to navigate this “Great Resignation,” more than 4 million workers are still resigning every month.

As 2022 marches on, hiring teams face another massive obstacle: global talent shortages. These trends have companies rushing to find creative stop-gap solutions to ensure business continuity in difficult times. It shouldn’t come as a surprise that more companies are relying on third-party vendors, suppliers and partners to meet short-term needs, reduce costs and keep innovation humming. In addition, the rise of the gig economy has more employees entering into nontraditional or temporary working relationships. This trend is particularly prevalent in the healthcare industry, but as many as 36% of American employees have a gig work arrangement in some form, either alongside or instead of a full-time job. 

What’s more, the corporate supplier ecosystem has become exponentially more complex. Amidst the supply chain vulnerabilities revealed by the pandemic, organizations are expanding and diversifying the number of supplier relationships they’re engaging in. Meanwhile, regulators have stepped up efforts to manage these business ecosystems.

In many cases, outsourcing to temporary workers or external partners makes good business sense. Sometimes, given the constraints of the talent pool, there’s simply no other option for a company. Either way, organizations should be aware of the security risks that third parties bring — and the steps they can take to minimize the chances of a breach occurring. 

Third-party security challenges remain prevalent

Bringing a third-party workforce onboard in a rushed way – and without proper governance or security controls in place – leaves organizations open to significant cyber risk. These risks can stem from the third-party users or suppliers themselves or those third parties’ access becoming compromised and used as a conduit for lateral movement, enabling attackers to access the company’s most sensitive data. Sadly, a lack of centralized control over suppliers and partners is all too common, no matter the industry. In many organizations, unlike full-time employees, third-party users are managed on an ad hoc basis by individual departments using manual processes or custom-built solutions. This is a recipe for increased cyber risk.

Take the now-infamous Target breach, which remains among the largest-scale third-party security breaches in history. In this incident, attackers made their way onto the retail giant’s network after compromising login credentials belonging to an employee of an HVAC contractor, eventually stealing 110 million customers’ payment information. 

In today’s world, where outsourcing and remote work are now the norm, third parties require corporate network access to get their jobs done. If companies don’t reconsider third-party security controls – and take action by addressing the root of the problem – they’ll remain open to cyber vulnerabilities that can devastate their business and its reputation.

A pervasive lack of visibility and control

Although reliance on third-party workers and technology is widespread in nearly every industry (and in some, it’s common for an organization to have more third-party users than employees), most organizations still don’t know exactly how many third-party relationships they have. Even worse, most don’t even grasp precisely how many employees each vendor, supplier or partner brings into the relationship or their level of risk. According to one survey conducted by the Ponemon Institute, 66% of respondents have no idea how many third-party relationships their organization has, even though 61% of those surveyed had experienced a breach attributable to a third party. 

Grasping the full extent of third-party access can be particularly challenging when there’s collaboration with outsiders through cloud-based applications like Slack, Microsoft Teams, Google Drive or Dropbox. Of course, the adoption of these platforms skyrocketed with the large-scale shift to remote and hybrid work that has come about over the last two years.

Another challenge is that although an organization may try to maintain a supplier database, it can be near-impossible to ensure that it’s both current and accurate with current technical capabilities. Because of processes like self-registration and guest invites, external identities remain disconnected from the security controls applied to employees. 

Growing regulatory interest and contractual obligations

As incidents and breaches attributable to third parties continue to rise, regulators are taking notice. For instance, Sarbanes-Oxley (SOX) now includes several controls targeted explicitly at managing third-party risk. Even the Cybersecurity Maturity Model Certification (CMMC) explicitly targets improving the cybersecurity maturity of third parties that serve the federal government. The ultimate goal of such regulations is to bring all third-party access under the same compliance controls required for employees so that there’s consistency across the entire workforce and violations can be mitigated quickly.

Today, we expect companies to push their suppliers, vendors and partners to implement more stringent security controls. In the long run, however, such approaches are unsustainable, since it’s difficult, if not impossible, to enforce standards across a third-party organization. Hence, the focus will need to shift to ensuring that identity-based perimeters are robust enough to identify and manage threats that third parties may pose.

Currently, decentralized identity solutions are moving into the mainstream. As these technologies become more widely accepted, they’ll continue to mature. This will help many organizations streamline third-party management in the future. It will also assist companies on their journey toward zero trust-compatible identity postures. Incorporating ongoing security monitoring and implementing continuous identity verification systems will also become increasingly important. 

Five steps to mitigate third-party risk today

Today’s challenges are complex but not unsolvable. Here are five steps organizations can take to improve third-party access governance over the short term.

1) Consolidate third-party management. This process can begin with finance and procurement. Anyone with any contract to provide services to any department in the company should be identified and cataloged in an authoritative system of record that includes information on the access privileges assigned to external users. 

Security teams should test for stale accounts and deprovision any that are no longer needed or in use. In addition, they should assign sponsorship and joint accountability to third-party administrators.

2) Institute vetting and risk-aware onboarding processes. Both the organization and its supplier/vendor need to determine workflows for vetting and onboarding third-party users to ensure they are who they say they are — and that their onboarding process follows the principle of least privilege. Implementing a self-service portal where third-party users can request access and provide required documentation can smooth the path to productivity. Access decisions should be based on risk.  

3) Define and refine policies and controls. The organization — and its vendors and suppliers — should continuously optimize policies and controls to identify potential violations and reduce false positives. Policies and controls must be tested periodically, and security teams should also review employees’ access. Over time, auto-remediation can minimize administrative overhead further.

4) Institute compliance controls for your entire workforce. Look for a third-party access governance solution that will enable consistency across employees and third-party users, especially since regulators increasingly require this. Having access to out-of-the-box compliance reports for SOX, GDPR, HIPAA and other relevant regulations makes it easier to enforce the appropriate controls and provide necessary audit documentation.

5) Implement privileged access management (PAM). Another critical step that organizations can take to boost their cybersecurity maturity is implementing a PAM solution. This will enable the organization to enforce least privileged access and zero-standing privilege automatically across all relevant accounts. 

The world of work will never again look like it did in 2019. The flexibility, agility and access to first-rate talent that businesses gain from embracing modern ways of working make the changes more than worthwhile. And enterprises can realize enormous value within today’s complex and dynamic business relationship and supplier ecosystems. They need to ensure their cybersecurity strategies can keep up by strengthening identity and third-party access governance.

Paul Mezzera is VP of Strategy at Saviynt.

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