Researchers from University College London (UCL) and the Nuffield Department of Clinical Neurosciences at the University of Oxford have developed a groundbreaking technology that opens a completely new chapter in brain research and the treatment of complex neurological conditions. The new ultrasound system allows for highly precise stimulation of deep brain regions without any need for surgical intervention. This method marks a significant advancement over previous approaches and offers numerous possibilities for treating conditions such as Parkinson’s disease and depression.
Modulating brain activity has long been one of the key goals of modern neuroscience. However, existing non-invasive methods have had limitations—they were either not precise enough or unable to reach internal structures. This new technology uses transcranial ultrasound stimulation (TUS), an advanced technique that delivers gentle mechanical pulses to either activate or suppress neural activity in very specific areas.
Unlike earlier solutions, this device can target regions up to 1000 times smaller than those accessible with previous methods. It consists of 256 precisely directed ultrasound emitters arranged inside a helmet-like frame, while a soft plastic face mask ensures the subject’s head remains still during treatment. The research team successfully tested the system on human participants, focusing on the lateral geniculate nucleus (LGN), a small structure in the center of the brain responsible for transmitting visual information to the cortex.
In the first test, participants observed a flickering checkerboard visual stimulus, which was used to activate the visual system. When combined with ultrasound pulses, this triggered increased activity in the brain's visual centers, as confirmed by functional MRI scans. A second experiment showed that this effect could last for up to 40 minutes, with long-lasting changes in neural activity—without the participants consciously noticing any visual differences.
This development could also transform clinical practice. Deep brain stimulation (DBS), a current treatment option for several neurological disorders, requires invasive surgery that carries certain risks. The new ultrasound system offers a safer alternative with similar precision, eliminating the need for invasive procedures. It also gives clinicians the ability to test specific brain regions before deciding on further treatment—or potentially avoid surgery altogether.
Recognizing the immense therapeutic potential of this approach, the research team has launched a spin-off company called NeuroHarmonics, aiming to commercialize a portable and wearable version of the technology. The company’s vision is to create a widely accessible solution for personalized neurological therapy, usable in clinical settings as well as everyday scenarios. This innovation has the potential to completely reshape how we approach brain treatment—focusing on safety, precision, and patient-specific care.
Humanoid robots are entering new areas of application, and the latest example comes from China, where the robot Tien Kung was recently used for the first time to test running shoes. This innovation marks a major shift in how athletic products are designed and improved, moving beyond the traditional reliance on human testing.
The testing took place at the Li-Ning Sports Science Research Center in Beijing. There, experts equipped the robot with running shoes and sent it onto a complex 3D treadmill and a 200-meter indoor track to gather real-world performance data.
The experiment focused on key features such as impact absorption, rebound, and overall efficiency during motion. What would normally take weeks of data collection from athletes can now be gathered much faster and with greater accuracy.
Tien Kung is fitted with advanced sensors embedded in its joints, allowing for precise biomechanical data collection during each movement. These metrics are highly detailed and difficult to obtain from human participants due to natural variability.
Unlike people, mechanical testers do not experience fatigue or changes in behavior during testing. This consistency allows for repeated trials without external influences, delivering reliable and comparable results.
Using robots in this industry opens the door to faster product development, reduced costs, and design optimization based on objective information. In the future, this type of technology could become standard in sports engineering and the development of high-performance footwear.
Artificial intelligence is being used everywhere. Science is now being done by machines. New devices and systems have arrived in every field. A new approach has emerged in research and development. AI has made science faster and smarter. New algorithms are used in each system. Everything in science is now done intelligently. Machine learning has made many things easier.
New AI models are being developed every day. Science tools are now more powerful and reliable. Difficult problems are also being solved with the help of AI. The relationship between technology and science has become very strong. Each piece of research has raised new expectations for AI. The tools of science now work well with humans.
AI Gold Scientific Research
With the help of AI tools, research work is done faster. Data is processed quickly, and the result is easy to understand. Earlier work was slow; now time is saved. Research models have become more reliable with new systems. Machines can easily handle complex data. The research process has now become shorter and clearer. The advancement of science now depends on AI.
Every new research paper is getting help from AI. AI has improved accuracy in research projects. With AI, the path to scientific discoveries has become easier. It has also become possible to test new ideas with AI. Scientists now make fewer mistakes in experiments. AI is expanding the scope of research. Understanding new data sets becomes easier with AI. AI has significantly improved the quality of research.
Role of AI in data analysis
At first the data was very difficult to understand.
Now with AI this task has become much faster.
AI handles big data with ease.
AI understands patterns and numbers faster.
Sorting and filtering is done automatically by AI.
Data reports are easily generated by AI.
Fraud has become easier with the help of AI.
Business decisions are better with AI.
AI has made understanding data much easier. New trends are found quickly. Data quality also improves. Errors are reduced with AI. Due to this, companies are doing their work better. Making decisions has also become easier with AI.
AI in Medical Science
AI has modernized the procedure of health checkups. Disease detection becomes faster and easier. AI can quickly read scans and deliver results. AI tools help doctors in their work. Treatment plans are being created through the system. Monitoring tools are now recording real-time data. AI generates accurate and fast reports. Machines perform very well in the medical field.
AI insights prove useful for disease prevention. AI creates personalized treatment options for patients. AI reduces errors in diagnosis. Doctors are getting new ways from AI. Medical imaging becomes more accurate and reliable with AI. AI has greatly improved patient care. New vaccines are also being developed through AI research. AI and drug discovery
New drug development was slow at first. Now this process is accelerated with AI models. A system can predict the reactions of molecules. Checking the medicine result is now easy. Each step is completed through digital testing. Understanding chemical data has become easier with AI. Companies are using new AI tools in research. Development time is reduced, and results are more accurate. AI has saved both cost and time.
Safety testing of drugs has also improved with AI. AI helps discover new compounds. Testing errors are reduced with AI. AI experiments in drug design take very little time. Medicines are being introduced to the market quickly and safely. The drug approval process has also become easier with AI. The results of clinical trials are also being better understood with the help of AI.
Use of AI in Climate Science
Weather monitoring
Weather data is read quickly and easily with AI. It has become easy to track the temperature of each region. AI provides early warning of floods and storms. This allows people to prepare on time.
Pollution control
Data on CO₂ levels are updated daily by the system. Environmental protection projects are being built on AI systems. Pollution records are updated automatically. This helps in reducing pollution.
3.Analysis of meteorological data
Analysis of weather data with AI is fast and reliable. AI detects natural changes quickly. Climate models are now more accurate. These models help shape the future.
4.Global warming and energy
The effects of global warming are being better understood with AI. AI is improving renewable energy projects. Managing climate risks has become easier. It reduces the damage to the environment.
Reducing water and carbon
AI reduces data errors in environmental monitoring. Water resources are being better managed. Reducing the carbon footprint has become possible with AI. It helps in saving the earth.
Weather forecast
AI has been very helpful in weather forecasting. Accurate identification and forecasting of weather has become easy. It helps farmers and people to improve their planning.
Challenges related to AI
There are some risks and problems with AI. Systems face the risk of data misuse. Biased algorithms bias results. Security and privacy laws do not apply everywhere. Monitoring of every mechanical system is now essential. AI rules must be in place to protect the system. The development of regulations is still ongoing. Balance and control are critical to the future of the system. Ethical usage should be given more importance.
Transparency builds trust and reduces abuse. Data protection policies must be strengthened. International cooperation is needed to prevent misuse of AI. Every technology also comes with responsibility. User education protects against misuse of AI. It is important for everyone to understand AI systems. AI risks can be mitigated through training.
Conclusion
Every field of science has been accelerated with AI. Every process is now completed in a modern way. AI has a role in data analysis, health, space, etc. The right use of technology can make the future safer. AI tools have made the development journey easier. The connection between science and AI is getting stronger. New systems improve the results of every task. With careful planning, using AI can be useful.
Every sector should understand the benefits of AI. It is imperative to take advantage of the benefits of technology, but do so astutely. It is vital to face the challenges of AI and discover solutions to them. Tomorrow will take science to new heights with AI. AI development must be sustainable and ethical. Every branch should understand AI. The world can be improved with the help of AI.
The U.S. space research agency has decided to block individuals from China, even those holding valid American visas, from accessing its facilities. This move effectively ends their ability to work either as students or contractors on projects within one of the world’s most prestigious scientific institutions. The information was first reported by Bloomberg, citing sources familiar with the matter.
The restrictions were introduced to safeguard systems, infrastructure, and communication networks from potential threats. On September 5, the affected individuals were notified they had lost access to all relevant tools and premises, thereby being immediately excluded from research and collaboration processes.
China has rapidly advanced its space program in recent years, raising concern among officials in Washington. Its astronauts have long been excluded from the International Space Station, as U.S. law prohibits the sharing of technical data with Beijing. Such policies further widen the gap between the two global powers.
Many young professionals from China who study or work in America are facing additional barriers, including difficulties in obtaining entry permits. In recent years, several alleged espionage cases have been reported, leading to increased scrutiny of scientists of Asian origin.
NASA’s public affairs officer, Bethany Stevens, confirmed that “internal actions” have been taken, including bans on physical presence and access to information systems. It is unclear whether the individuals affected were given prior notice, but reactions indicate the decision came suddenly and without warning.
Elon Musk recently shared an ambitious vision for the Starlink system after SpaceX acquired a $17 billion spectrum from EchoStar. Musk aims for Starlink to become the sole source of internet, both at home and on the move.
During an interview, he highlighted plans to integrate Starlink’s home internet with mobile services, although he admitted that SpaceX currently cannot compete with major telecom operators like AT&T, T-Mobile, and Verizon, who hold much larger spectrum resources. When asked about potentially buying Verizon, he gave a diplomatic response.
The new spectrum allows satellites to function as space-based cell towers, sending data directly to mobile devices. Out of over 8,000 SpaceX satellites, several hundred already use direct-to-cell technology, while the rest provide traditional Starlink internet.
To enable mobile phones to use EchoStar frequencies, new chipsets are needed, and according to estimates, development and implementation could take around two years. Industry experts believe this technology will offer reliable connectivity even in the most remote areas.
SpaceX has already launched a service in partnership with T-Mobile that allows users to send SMS messages via satellite, with data usage on apps expected soon. Musk emphasizes this is a long-term project that could redefine the future of communications.
In many parts of the world, the idea of robots replacing humans still sounds like science fiction, but in the most populous country on the planet – it’s already reality. There, it is completely normal to encounter automated assistants in restaurants, where they deliver food, or to find them in supermarkets cleaning the floors.
A journalist from Bosnia and Herzegovina confirmed the growing presence of such technology through personal experience. During a stay at a hotel in Shenzhen, he encountered a robot that independently used the elevator, performing tasks like deliveries or cleaning, moving between floors with no human assistance.
A visit to UBTECH Robotics, located in Shenzhen, revealed the scale of development in the field of artificial intelligence. Founded in 2012, the company specializes in the production of humanoid robots applicable in various areas—from education to industrial automation.
UBTECH’s most advanced product is the Walker S2, a human-sized robot with impressive capabilities. Equipped with two batteries and an autonomous battery-replacement system, it can work continuously. It’s already in use across multiple sectors, including the automotive industry, where it performs complex tasks such as assembly and quality inspections.
Another notable creation is the Alpha Mini, designed for educational purposes. This compact device is used in schools, can understand speech, express emotions, read even upside-down pages, and teach programming. It demonstrates just how integrated technology has already become in China’s educational system.
Many messaging platforms boast about their reliability and content protection. However, despite the implementation of advanced technologies that prevent eavesdropping, there are numerous factors that can reduce their effectiveness. The key problems do not necessarily lie in the software, but in the habits of the users themselves.
American security services have warned that many smartphone owners, despite using well-known tools for protected correspondence, still remain exposed to risks. Careless handling of functions within the applications can allow third parties to access content without the knowledge of the device owner.
One of the potentially vulnerable aspects relates to the option of using the same account on multiple mobile devices. Without additional checks, it is possible for unwanted users to gain access to communication. Experts recommend regularly reviewing the list of connected devices and removing any suspicious entries.
Another challenge is adding new members to shared conversations using external links. If these options are not controlled, a person outside the circle of acquaintances can join the discussion. It is recommended to disable automatic joining, whenever possible, and limit access to trusted sources.
For additional protection, it is recommended to activate a password or use facial or fingerprint recognition to enter the application. Also, it is useful to check all security settings after each app upgrade, as sometimes new features are automatically enabled, leaving the user less protected than before.
In recent days, the Internet has been flooded with creative depictions of people as if they were characters from animated worlds or miniature action figures. Many upload their photos into tools that use advanced technology to create visuals inspired by Japanese cartoons or futuristic concepts. However, behind these attractive images lie more serious challenges that are not only about aesthetics.
The mass generation of visuals using advanced algorithms has become a viral phenomenon, but it also brings with it significant energy consumption. Experts warn that the processes of generating images require many times more electricity compared to ordinary Internet searches. This increase in resource consumption indicates an increasingly pronounced gap between entertainment and responsible use of digital systems.
At the same time, there is increasing attention to worrying aspects of identity protection. Every photo that users enter into the system represents a potential source of information that can be used in the further development of algorithms, including biometric processing. While many people upload photos out of curiosity or a desire for creative expression, they are unwittingly giving companies access to data that would otherwise be legally protected.
European regulations such as the GDPR strictly regulate the collection of information from the internet, requiring clear legal bases and measures to preserve individual autonomy. However, when individuals share images themselves via an interface, it is treated as voluntary consent, giving companies the right to process them without further restrictions. This, as legal experts point out, makes the situation sensitive.
By using this approach, technology companies gain direct insight into visual data that may never have been published before. This raises questions about transparency and the long-term consequences for digital security. While most users access these tools for entertainment, the truth is that behind the scenes, a complex mechanism operates that uses users’ enthusiasm to expand their own knowledge bases.
The tech giant has begun rolling out a feature that automatically reacts to potentially inappropriate visual material. The initiative, which was first introduced last year, is now rolling out to select Android devices. The innovation is part of Google’s messaging app.
When the system detects a visual that contains nudity, it automatically blurs it. In addition, the recipient sees a message explaining why the content is not being displayed immediately. However, there is the option to manually reveal the photo if the recipient chooses to do so. The sender is also informed of the potential risks of sharing such material.
Sharing visuals without permission can have serious consequences for the people who see them. There is a possibility of abuse through blackmail, spreading on social networks or among acquaintances, including at work or school. This practice often ends in so-called revenge distribution, especially after relationships have ended.
Users under the age of eighteen will have this feature enabled automatically. Adults must manually set the activation within the settings. This is expected to help protect minors and raise awareness about responsible behavior when sending private media.
The company emphasizes that the tool does not guarantee complete accuracy. It may misjudge content and blur out harmless photos or miss those that should be hidden. However, the goal is to improve security and reduce the chances of misuse of visual information.
Imagine electronics that disappear after use, with virtually no waste. Scientists at the University of Maryland have developed innovative 3D-printed electronic boards that dissolve in water, opening up new possibilities for rapid prototyping and easier recycling.
The research team, led by Huaishu Peng, used polyvinyl alcohol (PVA), a synthetic polymer that dissolves in water, as the base material for the boards. They created the wiring by injecting an alloy of gallium and indium into specially designed channels, while the electronic components were placed by hand and fixed with a polymer adhesive. After drying at 60°C, the boards were ready to use.
As a proof of concept, functional devices such as a Bluetooth speaker, a fidget toy, and a robotic gripper were created. While small amounts of water do not harm the devices, after 36 hours in water at room temperature, the boards completely dissolved. The team was able to recover almost all of the polyvinyl alcohol and most of the metals, indicating great potential for sustainable recycling and reuse of the material.
Experts point out that printed circuit boards are a major source of electronic waste, and traditional recycling methods are often inefficient. According to a 2022 United Nations report, Asia produced 600,000 tons of discarded circuit boards, but recycled only 17%, while Europe and North America had significantly better results, with 61% and 44% of circuit boards recycled, respectively.
This technology brings a new perspective: 3D printers allow anyone to quickly create temporary electronic circuits that are easily dissolved after use. Researchers are also considering the use of waterproof housings to extend the life of the devices.
Peng points out that this approach can greatly reduce the time it takes to produce prototypes. Instead of weeks of processes in factories, new circuits can be printed in 30 minutes, and if they don’t work, they can be melted down and the materials reused.
This innovation promises to significantly reduce electronic waste and is open to collaboration with manufacturers for mass production in the future.
Three major industry players – France’s Thales Group, connector maker Radiall and Taiwanese giant Foxconn – have started talks to jointly build an advanced microchip assembly and testing facility in France. The project focuses on outsourced semiconductor assembly and testing (OSAT) services, a crucial final step in the chip manufacturing chain.
In this process, chips previously manufactured in wafer form are cut, assembled into assemblies and rigorously tested to ensure quality and reliability. As chips become smaller and more complex, this stage is becoming crucial for the efficiency and safety of the final products, which is why more and more manufacturers are looking to external partners for finishing.
The planned factory would have a capacity of over 100 million microchip assemblies (SiP – system-in-package) per year by 2031, significantly strengthening Europe’s position in the global semiconductor industry. Although the specific location has not yet been confirmed, the total investment is expected to exceed 250 million euros.
Thales points out that the goal of the project is to encourage other European industrial players to get involved, which would further accelerate the development of the local technological infrastructure. The new facility also represents an important step towards the strategic goal of the European Union – strengthening technological autonomy in relation to the USA, China and other world powers.
Support for such initiatives has already been announced by the European Investment Bank, whose president Nadia Calviño is planning a new fund for AI and chips worth 70 billion euros by 2027. The EU's long-term goal is to attract as much as 250 billion euros of investment in key technologies and thereby ensure the competitiveness of European industry in the coming decades.
Amazon has unveiled a new AI called DeepFleet, developed to optimize the movement of robotic systems within its logistics centers. The technology delivers about 10% greater efficiency, enabling faster order processing, reduced operating costs and lower energy consumption, with the aim of improving the entire supply chain.
Scott Dresser from Amazon Robotics said that the team is focused on addressing real challenges in the industry. Automation, he says, is not only speeding up deliveries, but also redefining the way goods are handled in large warehouses around the world.
With the new technology, Amazon is strengthening its position as the world's leading operator of mobile robotics, currently operating a fleet of more than a million robots in over 300 facilities. Among the new systems are Hercules, capable of lifting loads of up to 540 kg, Pegasus, responsible for packages, and Proteus, the first fully autonomous system that collaborates with people without a physical barrier.
Special attention is drawn to Vulcan, a robot that independently manages warehouse shelves and is capable of working up to 20 hours a day. This step forward shows the growing confidence in the capabilities of automation, but also a shift towards the long-term replacement of certain physical processes in logistics.
Although the level of autonomy is increasing, Amazon says that technology does not replace people, but complements them. As CEO Andy Jassy confirms the long-term vision of robotic delivery, the company is seeing an increase in hiring in technical roles – in Louisiana alone, the number of engineering and maintenance positions is up 30%.
Intel has begun a major reorganization to adapt to market changes and technological competition. New CEO Lip-Bu Tan has introduced a series of measures that include a 15 percent reduction in the total number of employees and additional layoffs. The goal of these moves is to create a more flexible and efficient corporate structure that can respond to the challenges of the modern market.
According to the latest reports, the company plans to keep only 75,000 employees in its primary organization by the end of 2025, excluding subsidiaries such as Mobileye. This rationalization of the workforce also includes the termination of several projects in Europe and the slowdown of investments in new chip production in the United States, in order to align costs with the real needs of the market.
Despite a net loss of almost three billion dollars in the last quarter, stock market investors have shown some confidence – the value of the shares has increased, and the market is reacting positively to the strategic changes that Tan is introducing. Although the numbers are negative, investors clearly recognize the company's long-term intention to regain its position in the industry.
One of the key reasons for Intel's decline was its slow response to two major technology trends – mobile platforms and artificial intelligence. Competitors, especially Nvidia, have taken advantage of the vacuum and taken the lead, reaching historic highs in market value. At the same time, Intel has been forced to restructure its business to stay relevant.
The mass layoffs are not an isolated incident. A number of large companies, including Microsoft and Meta, have also reduced their workforces this year. But for Intel, these changes mean much more than cutting costs – they represent an attempt to restore its former leadership position and catch up with global technology trends that are increasingly shaping the semiconductor market.
OpenAI has announced the opening of its first European data center, which will be located in northern Norway, in the Kvandal region, not far from Narvik. The project is called Stargate, and it will be implemented by the British company Nscale in cooperation with the Norwegian partner Aker, specialized in energy infrastructure. Both companies are investing equally in the project, which will use exclusively renewable energy sources.
The new center will be one of the largest in Europe, with an initial capacity of 230 megawatts. Already in the first phase, it is expected to use 100,000 NVIDIA GPUs, which are crucial for the development of artificial intelligence. In the first phase, a power of 20 megawatts is planned, with an investment of two billion dollars – one billion from each investor.
The region where the center is being built was chosen for its natural resources and stable conditions – it has abundant hydropower, low consumption and limited transmission capacity, which enables efficient infrastructure management. OpenAI will take over processing capacities from this facility, while technical performance will be managed by Nscale and Aker.
The Stargate project was already launched at the beginning of the year in the USA, where it was conceived as a global AI initiative with the support of partners such as Oracle, SoftBank and MGX from the UAE. The plan is to invest up to $500 billion over the next four years in a global network of advanced AI infrastructure.
The new initiative comes at a time when the European Union is strongly promoting the concept of sovereign artificial intelligence, which encourages local data processing and the placement of AI systems within European borders. Nvidia and OpenAI have already adapted their strategies to align with these guidelines, and are supported by European leaders in the AI sector such as the French company Mistral.
Bosnia and Herzegovina, along with neighboring Serbia and Montenegro, could soon gain access to a modern satellite connection system offered by the company “Starlink”, owned by a well-known technology entrepreneur. According to media reports, an agreement on legal steps to enable the arrival of this service was reached in April, during a meeting between the Minister of Communications and a high-ranking representative of the company in the US capital.
The network that enables this type of wireless access uses several thousand flying devices that orbit the planet in an organized structure. The introduction of such technology to the domestic market, according to experts in the field of digital forensics and communication systems, could have a profound impact on the development of infrastructure, the stability of institutions and the progress of the economy.
This advanced method of connection provides the opportunity for remote areas, mountainous regions and villages that have never had a permanent network connection to receive a reliable signal. This would enable a more even inclusion of all citizens in the modern technological world. However, the question arises as to what response the existing domestic companies operating on the market can offer when it comes to the arrival of a system that does not require local support.
A professor who follows this topic warns that it is urgently necessary to harmonize legal norms and security strategies in order to preserve control over the flow of information. It is recommended to adopt clear rules that would oblige foreign suppliers to cooperate with domestic institutions, without jeopardizing the rights of users to open access to content.
Finally, at a time when the protection of the digital space has become a key element of state stability, the presence of technology that operates beyond the reach of local mechanisms carries risks. Such systems could be used for covert activities, the dissemination of false information or the organization of illegal actions. In crisis circumstances, the possibility of certain communications escaping supervision can make it difficult for the competent authorities to act and lead to serious consequences for the security of society.
Recently, hardware forums and Reddit communities have been flooded with worrying reports: users are reporting that their Ryzen 7000 processors have burned out on AM5 motherboards. Most of the complaints are related to Asrock boards, where socket damage has become particularly common. The cases have become so numerous that AMD itself had to react, acknowledging the seriousness of the situation.
AMD explained that the processor itself is not to blame for these failures, but rather problematic BIOS settings that some motherboard manufacturers have changed outside of the official technical specifications. These changes allowed the processor to operate at too high a voltage and power consumption, which in the long run leads to physical damage. It was only with BIOS version 3.25 that Asrock introduced the necessary security measures that have significantly reduced the number of incidents.
The company further emphasized that its more open philosophy — compared to the competition — allows for a wide variety of motherboard and processor combinations. This gives users more freedom, but at the same time increases the possibility of problems if manufacturers deviate from the standard. The Asrock case is a clear reminder of how important it is to implement BIOS settings correctly.
AMD's current advice is clear: update your BIOS to the latest version, especially if you're using an Asrock AM5 board. While the latest updates have mitigated the issue, complete security is still not guaranteed. AMD claims to be working with partners on additional improvements, but many believe a permanent solution will only come through future hardware revisions.
Finally, users should remember one thing – the flexibility of a platform like AM5 brings enormous opportunities, but also responsibilities. Regularly updating your BIOS is no longer just a recommendation for enthusiasts; it has become essential for the longevity and security of your system. One update can be the difference between a reliable computer and costly damage.
