OpenAI will soon implement controls for content owners to manage character use in its Sora AI video-generating tool and plans to share revenue with those who grant permission. This initiative aims to address concerns around intellectual property and fair compensation for creators.

Chief Executive Sam Altman announced on his blog Friday that the artificial intelligence organisation will provide rights holders with more granular control over character generation. Options for copyright owners, including television, and movie studios, will include the ability to block character use.

This development comes amid increasing scrutiny of AI-generated content and its impact on intellectual property rights. Companies are navigating the balance between innovation and fair compensation for creators.

OpenAI launched Sora this week as a standalone application, initially available in the United States and Canada. Videos created within the app can be up to 10 seconds long.

The app allows users to create and share AI videos, potentially spun from copyrighted content, to social media-like streams. Its copyright policy is anticipated to generate tensions in Hollywood, with at least one major studio, Disney, already opting out of having its material appear in the app.

Mr. Altman also stated that OpenAI intends to introduce a revenue-sharing model for copyright holders who permit their characters to be generated by users. This strategy is driven by users creating significantly more video content than anticipated, often for niche audiences.

The Chief Executive acknowledged the revenue-sharing framework will require trial and error to establish. Implementation will begin soon, as OpenAI plans to test various approaches within Sora before rolling out a consistent model across its broader product suite.

Microsoft-backed OpenAI launched a Sora model for public use last year, expanding its multimodal AI technologies. This move competes with similar text-to-video tools offered by Meta and Alphabet’s Google.

Meta recently unveiled Vibes, a platform designed for users to create and share short-form, AI-generated videos.

• OpenAI will offer content owners controls over character use in its Sora AI video app.

• The organisation plans a revenue-sharing model for rights holders who permit character generation.

• Chief Executive Sam Altman confirmed these plans on his blog Friday.

Source: REUTERS

In Formula 1, the pursuit of performance extends beyond aerodynamics, tire strategy, and driver skill. Behind the scenes, teams manage enormous volumes of sensitive data, and protecting this information has become just as critical as refining a car’s setup.

For Williams Racing, one of the sport’s most historic teams, cybersecurity is a fundamental pillar of success. That’s why the team partners with Keeper Security, a leader in privileged access management and password security, to ensure their operations remain safe from the growing risks of cyberattacks.

Cybersecurity and Data Protection in Motorsport

Every race weekend, Williams Racing collects and analyzes a staggering amount of data. This includes car telemetry, power unit performance, aerodynamic readings, tire wear information, and race simulations. The ability to securely transmit and interpret this information in real time can make the difference between outpacing rivals or falling behind.

Keeper Security’s technology is built on a zero-trust and zero-knowledge approach, which means that no person or system is automatically trusted and even Keeper itself cannot view the data being protected. For a Formula 1 team, this ensures that confidential information remains private, even within the cybersecurity platform itself.

One of Keeper’s key contributions is its Privileged Access Management (KeeperPAM) system. This allows Williams Racing to control, monitor, and secure access to privileged accounts, the high-level logins used by engineers, strategists, and IT specialists. These accounts are often prime targets for hackers, but with Keeper in place, access is tightly managed, and any unusual activity can be flagged instantly.

In an era where cyberattacks are becoming more sophisticated, this level of defense is crucial. A single breach could reveal car development secrets, compromise race strategy, or even disrupt live race operations. Keeper’s tools help Williams reduce these risks, giving the team the confidence to operate efficiently and focus on performance.

Safeguarding Intellectual Property and Team Operations

Beyond real-time race data, Formula 1 teams depend heavily on intellectual property. The design of a front wing, the geometry of a suspension system, or the results of a wind tunnel test represent years of research and investment. This intellectual property is what separates one team’s car from another, and it is one of the most valuable assets Williams Racing possesses.

Keeper’s security solutions ensure that this information is fully protected. By encrypting files and controlling who has access to them, Williams can safely share design and strategy documents between its UK headquarters and trackside engineers. Whether it’s sending updated aerodynamic models or refining pit stop strategy notes, Keeper ensures that information stays within the team and away from prying eyes.

But cybersecurity for Williams extends further than just engineering. Logistics schedules, staff travel details, and confidential communications with commercial partners are also at risk if not properly protected. A leak in any of these areas could cause reputational harm or operational setbacks. Keeper’s infrastructure helps safeguard every aspect of team operations, ensuring that Williams Racing remains secure across its entire business.

Cybersecurity as a Competitive Edge

In modern Formula 1, every competitive advantage matters. A fast car and a skilled driver are essential, but without strong digital defenses, a team risks losing ground before even reaching the track. Williams Racing’s collaboration with Keeper Security highlights how seriously teams take this challenge and how cybersecurity has become a competitive factor in motorsport.

By protecting data, securing access, and safeguarding intellectual property, Keeper allows Williams to focus fully on racing. In a sport defined by precision and innovation, having a trusted cybersecurity partner ensures that the team’s most valuable assets, its people, its technology, and its data, are always protected.

As the digital landscape evolves and threats become more advanced, partnerships like this will be the unseen but critical backbone of success in Formula 1. Thanks to Keeper Security, Williams Racing can continue chasing performance on the track, safe in the knowledge that its data is locked down off it.

China is preparing for the flight test of an airborne power generation system, which resembles an airship and functions as a turbine. This system is projected as the world’s first megawatt-level floating turbine, designed to supply power to remote locations.

Chief Technology Officer Weng Hanke of Beijing SAWES Energy Technology Company announced the one-megawatt system’s test flight earlier this month. This technology offers a solution for energy generation in areas challenging to reach through conventional means.

The new system, named S1500, boasts a 1 MW energy generation capacity. Weng stated its output is equivalent to a traditional 328-foot (100-meter) wind turbine.

The S1500 aims to harness high-speed, steady winds at altitudes of 1,500 metres above ground. This significantly increases efficiency compared to conventional turbines, which typically tap wind for energy just 656 feet (200 meters) above ground.

Weng noted that wind flows approximately three times faster at 1,500 metres than on land, potentially increasing power output by about 27 times. Helium assists the airship-like turbine in reaching optimal heights and carrying power generation equipment.

Wind energy is converted into electricity in the sky and then transmitted to the ground via a cable. The S1500 system features 12 micro-generators made of carbon fibre, centrally located within its duct, which can operate simultaneously.

The entire weight of one S1500 system is less than 1 metric tonne. SAWES developed this floating turbine in collaboration with Tsinghua University and the Aerospace Information Research Institute of the Chinese Academy of Sciences.

This is not SAWES' first venture into floating wind turbines. In Oct. 2024, the company flew the S500 buoyant airborne turbine, which reached 1,640 feet (500 meters) above ground and generated over 50 kW of power.

The company claimed the S500 broke records for maximum flying time and power generated for such a system. Weng suggested these systems could provide power for emergency rescue, surveys, and other immediate energy needs at various sites.

In Jan. 2025, the company flew the more powerful S1000 system, which achieved an altitude of 3,280 feet (1,000 meters) with a power output of 100 kW. For the S1500, advanced safety measures, such as stopping gas release from the aerostat, have been implemented.

These measures could enable the floating system to remain operational for over 25 years. Founder and Chief Executive Officer Dun Tianrui of SAWES previously stated the company's goal is to take the floating wind turbine system to 32,808 feet (10,000 meters).

At 10,000 metres, wind flow is up to 200 times stronger than on the ground, which could lead to significantly higher power outputs.

• China is preparing to test the S1500, a megawatt-level airborne power generation system.

• The S1500 airship-like turbine generates 1 MW of power, equivalent to a traditional 328-foot (100-meter) wind turbine.

• It is designed to operate at 1,500 metres altitude, harnessing faster winds for increased efficiency.

Source: INTERESTING ENGINEERING