TechCrunch
중도 성향
IT/기술
Chinese spies are using LinkedIn to lure Westerners into sharing sensitive information
The advisory warns that Chinese spies are using public job search platforms to recruit people with access to non-public information.
IT/기술 · "WESTERN" · 총 16건
필터 보기현재 지수
50.3
0 = 부정 우세
50 = 중립
100 = 긍정 우세
최근 7일 기준 87,122건을 분석한 결과, 뉴스 심리지수는 50.2(균형)입니다. 긍정 4,284건(4.9%)·중립 80,699건(92.6%)·부정 2,139건(2.5%)이며, 중립 비중이 뚜렷하게 높습니다. 성향 지수는 종합 14.9(중도 균형)입니다.
The advisory warns that Chinese spies are using public job search platforms to recruit people with access to non-public information.
Professor Cath Ellis, Western Sydney University's pro vice chancellor for quality and integrity, had her piece published in the Sydney Morning Herald last month.
THE operations and effectiveness of the Western Nigeria Security Network, WNSN, code-named Amotekun, have come under scrutiny. The post INSECURITY IN YORUBALAND:Is Amotekun still effective in S-West? appeared first on Vanguard News.
Sydney Morning Herald removes piece by Cath Ellis, despite Western Sydney University saying her use of AI was ‘appropriate’ Follow our Australia news live blog for latest updates Get our breaking news email, free app or daily news podcast A top Sydney academic used AI to write an opinion piece that urged students to “do the work” and not cut corners by using such technology, with the Sydney Morning Herald removing the “unacceptable” piece from its website. Western Sydney University’s pro vice-chancellor for quality and integrity, Prof Cath Ellis, had an opinion piece published in the Sydney Morning Herald last month, in response to an article from the academic Kylie Moore-Gilbert. Continue reading...
China’s SAIC Motor plans to set up a car factory in Spain’s northwestern region of Galicia that would be its first production facility in the European Union, the regional government said on Monday. Galicia’s leader Alfonso Rueda said his administration had given strategic priority to the project, with an initial investment envisaged at around €200 million (US$232 million). The project, which includes a logistics hub, still requires the central government’s approval for foreign direct...
Almost 50 per cent of young adults in six major economies think AI romantic companionship will improve human happiness through emotional support in the next decade, the results of a large survey suggested on Monday. The percentage dropped progressively across older age categories to just a quarter of people aged 55 and over, according to the research shared exclusively with AFP. Leaps in AI development have seen people turn to chatbots as confidants and lovers, while advancements in robotics are helping produce more sophisticated sex dolls — raising questions over the impact on human relationships. The survey of nearly 10,000 people across the United States, Japan, Germany, Britain, Indonesia and Hong Kong provides a snapshot of this “rapidly changing moral landscape”, pollsters YouGov said. It also shows “a profound ideological split between Western and Asian markets”, with the latter seemingly more accepting of technologically enabled sex and romance. In terms of emotional support, 48pc of all respondents aged 18-24 and 47pc of 25 to 34-year-olds said they thought “AI intimacy companions” — a category ranging from chatbots to sex dolls — would improve human happiness in the next decade. When the same question was asked focusing on deeper connection and sexual wellbeing, the figures came in at 32pc and 38pc respectively. On both counts, older people were less optimistic. The psychological impact of chatbots on vulnerable people has been under scrutiny, with the deaths of several teenagers linked to AI use by their families. Geographic split YouGov and the media company that commissioned the research, Tokyo-based Star X Gen, told AFP they were surprised by the regional disparity. In Indonesia, 50pc of people — of all ages — said they thought AI companions would improve connection and sexual wellness. It was 34pc in Hong Kong and 24pc in Japan, declining to 20pc in the United States, 15pc in Germany and just 9pc in Britain. “While Western audiences largely view synthetic intimacy as a threat to authentic human closeness, Asian audiences appear increasingly ready to integrate AI into their personal and physical lives,” said YouGov’s Philippe Chan. While the use of AI chatbots for romance and sex is becoming more commonplace, their embodiment in robots or dolls is at a more nascent stage. Across all 9,912 respondents, only 17pc said they would consider using an “AI intimacy doll”, compared to 59pc who said they would not. Across the board, younger adults were more likely than older ones to consider using a doll — and in Japan and Germany, the number of younger people who would think about trying a doll was nearly double the national average. “While the global (general population) remains wary, the next generation is actively redefining the boundaries of companionship,” the report said. In Japan, over a third of younger adults said they believed AI dolls could provide a sense of love, outnumbering those who disagreed.
Aliyah, a light-skinned Black woman dressed in country-western gear, is struggling to sell metal buckles she handmade on TikTok. In a video for the social media platform from March, she cries to the camera and pleads for views: "Even as a black woman, I have more faith that white women will stay 13 seconds [on […]
FOR the last three years since ChatGPT was introduced, prominent writers, editors and litterateurs have been openly hostile to the idea of AI being able to write fiction, poetry or prose — indeed, any kind of literature. The tech companies that introduced all these LLMs, imagining ChatGPT, Claude, Gemini, Grok, and Copilot as writing aids, study buddies, collaborators and co-authors, have thrown a nuclear bomb into the literary world, and most of its inhabitants are still in a crouch position, bracing for an impact that detonated back in 2022. But the literary world must call a truce because AI is here to stay. Moreover, any writer who teaches writing, any literary editor or agent who evaluates submissions, any practitioner called upon to judge a literary competition must become AI literate; it’s an unavoidable skill that’s simply part of the job from now on. Last week, the Commonwealth Writing Prize and Granta published five regional short story winners, one of which, Jamir Nazar’s ‘A Serpent in the Grove’, was singled out as possibly AI-generated. It raised a furore on social media but it didn’t surprise me at all. I’ve graded hundreds of student essays, judged creative writing capstones and a major Pakistani literary prize in the last year. So much is now written with the help of AI that I feel overwhelmed. I’ve been using the last two years to learn exactly how AI writes — not just its processes, but its style and its voice. I’ve studied it as much as I would study any human author, looking for how it handles dialogue, description, character and plot. Yet if I’d stuck my head in the sand and refused to touch AI for the sake of artistic integrity, I would be letting down all those people who trust my judgement and expertise. Students are addicted to AI not because they want to cheat, but because they’re terrified of looking stupid or inadequate. I spent hours tinkering with AI, asking it to write things in a Pakistani context: a synopsis for a Harry Potter book set in Lahore; descriptions of Karachi. AI churned out showy, contrived prose that looks like it’s doing a lot without actually saying anything meaningful. It blathered inanities about Karachi being a “city that remembers” and Pakistani women who “sauntered through the bazaar as if their bodies bore the weight of generations of family secrets”. AI wrote verbal pyrotechnics with no emotional connection to the city that I love. It’s too much of a temptation to expect people, especially students, not to use AI to write. Pakistan is a former British colony with a postcolonial hangover about the English language, even though few of us speak it fluently and even fewer can write it well. Yet the language of instruction in top Pakistani schools and universities has remained and always will be English. Students are addicted to AI not because they want to cheat, but because they’re terrified of looking stupid or inadequate. And the LLMs are ever-present to capitalise on that fear. I have to keep telling my students: AI is here not to help you, but to make money off you. Also, there will never be a foolproof AI-detection tool. AI will keep learning more from every person that asks it to help them write a story; AI ‘detectors’ will offer you an answer based on their own algorithms and biases. Differentiating AI writing from human writing requires human discernment, the same faculty we use to know when writing is sublime or terrible. It requires instinct, experience and a close look at the person’s work overall to see if the story is a representation of their usual style — call it the new due diligence in a post-AI world. The culprit in the Commonwealth Writers debacle was not racism or some kind of Western pandering to the postcolonial writer, but sheer ignorance on the part of judges. And underneath that ignorance lies a wilful denial about just how seismic the AI shift is. Everyone who must evaluate writing professionally is scared of the threat that AI poses to the literary arts and the earnings of the publishing industry. They’re terrified of the idea that everyone else is already so far ahead they may never be able to catch up. AI has already learned to mimic cultural inflections. It will talk about any part of the world — Guyana, South Korea, Bosnia — with pompous certainty and try to dazzle you with metaphorically bizarre surface-level descriptors or overwhelm you with atmosphere so you don’t realise there’s actually no plot or insight, no empathy, none of the beauty that makes writing an art as well as a practice. Personally, I resent the tech bros who have turned my relationship with writing from practitioner to policewoman, turning a jaundiced eye to everyone’s writing and suspecting the worst. AI is now influencing young people learning how to write to the extent that even my best students have started to sound like AI. I know that AI recognises patterns and produces only a facsimile of good writing, much like the proverbial broken clock that’s right twice a day. The practice of writing words to connect with a reader, communicate ideas and tell a story is a human endeavour that AI will never be able to match. Fear won’t stop me from looking it straight in the AI and declaring, “You have no power over me.” I urge everyone else — writers, teachers, judges and editors — to do the same. The writer currently teaches Expository Writing at AKUFAS. Published in Dawn, May 30th, 2026
A new artificial intelligence voice model from Alibaba Group Holding has beaten out Western rivals OpenAI and xAI on a major global benchmark, underscoring its technical edge in capturing complex Chinese dialects and accents. Fun-Realtime-TTS-Preview, developed by Alibaba’s Tongyi Lab, has secured the fifth spot on the Artificial Analysis Speech Arena leaderboard with a score of 1,190. It was the only Chinese-engineered voice system in the global top five. Alibaba owns the South China Morning...
The NBA is moving toward AI-automated officiating to eliminate replay delays and address foul-baiting criticism during the Western Conference playoffs.
The office was created a year ago and seemingly named for a far right European plan to expel minorities and immigrants from Western nations. It now works, a source says, with little to no oversight.
For the first time, China has included artificial intelligence chips in its official “secure and reliable” technology assessments, expanding the scope of a state-backed drive to adopt domestic alternatives to Western products. The China Information Technology Security Evaluation Centre and the National Secrecy Science and Technology Evaluation Centre released the latest batch of assessments on Tuesday, creating a new category for “AI training and inference chips”. The certifications were valid...
While the premiers of the western provinces and territories have a lot to discuss during their meeting in Alberta this week, it is separatism that may dominate the talks.
As Leo XIV prepares his first encyclical, tech firms and Western diplomats have worked to make their case for AI inside the Vatican.
For $7 an hour, virtual assistants use AI tools to write LinkedIn posts and comments on behalf of Western executives.
This article is brought to you by DAIMON Robotics. This April, Hong Kong-based DAIMON Robotics has released Daimon-Infinity, which it describes as the largest omni-modal robotic dataset for physical AI, featuring high resolution tactile sensing and spanning a wide range of tasks from folding laundry at home to manufacturing on factory assembly lines. The project is supported by collaborative efforts of partners across China and the globe, including Google DeepMind, Northwestern University, and the National University of Singapore. The move signals a key strategic initiative for DAIMON, a two-and-a-half-year-old company known for its advanced tactile sensor hardware, most notably a monochromatic, vision-based tactile sensor that packs over 110,000 effective sensing units into a fingertip-sized module. Drawing on its high-resolution tactile sensing technology and a distributed out-of-lab collection network capable of generating millions of hours of data annually, DAIMON is building large-scale robot manipulation datasets that include vast amounts of tactile sensing data. To accelerate the real-world deployment of embodied AI, the company has also open-sourced 10,000 hours of its data. Prof. Michael Yu Wang, co-founder and chief scientist at DAIMON Robotics, has pioneered Vision-Tactile-Language-Action (VTLA) architecture, elevating the tactile to a modality on par with vision.DAIMON Robotics Behind the strategy is Prof. Michael Yu Wang, DAIMON’s co-founder and chief scientist. Prof. Wang earned his PhD at Carnegie Mellon — studying manipulation under Matt Mason — and went on to found the Robotics Institute at the Hong Kong University of Science and Technology. An IEEE Fellow and former Editor-in-Chief of IEEE Transactions on Automation Science and Engineering, he has spent roughly four decades in the field. His objective is to address the missing “insensitivity” of robot manipulation, which practically relies on the dominant Vision-Language-Action (VLA) model. He and his team have pioneered Vision-Tactile-Language-Action (VTLA) architecture, elevating the tactile to a modality on par with vision. We spoke with Prof. Wang about how tactile feedback aims to change dexterous manipulation, how the dataset initiative is foreseen to improve our understanding of robotic hands in natural environments, and where — from hotels to convenience stores in China — he sees touch-enabled robots making their first real-world inroads. Daimon-Infinity is the world’s largest omni-modal dataset for Physical AI, featuring million-hour scale multimodal data, ultra-high-res tactile feedback, data from 80+ real scenarios and 2,000+ human skills, and more.DAIMON Robotics The Dataset Initiative This month, DAIMON Robotics released the largest and most comprehensive robotic manipulation dataset with multiple leading academic institutions and enterprises. Why releasing the dataset now, rather than continuing to focus on product development? What impact will this have on the embodied intelligence industry? DAIMON Robotics has been around for almost two and a half years. We have been committed to developing high-resolution, multimodal tactile sensing devices to perceive the interaction between a robot’s hand (particularly its fingertips) and objects. Our devices have become quite robust. They are now accepted and used by a large segment of users, including academic and research institutes as well as leading humanoid robotics companies. As embodied AI continues to advance, the critical role of data has been clearer. Data scarcity remains a primary bottleneck in robot learning, particularly the lack of physical interaction data, which is essential for robots to operate effectively in the real world. Consequently, data quality, reliability, and cost have become major concerns in both research and commercial development. This is exactly where DAIMON excels. Our vision-based tactile technology captures high-quality, multimodal tactile data. Beyond basic contact forces, it records deformation, slip and friction, material properties and surface textures — enabling a comprehensive reconstruction of physical interactions. Building on our expertise in multimodal fusion, we have developed a robust data processing pipeline that seamlessly integrates tactile feedback with vision, motion trajectories, and natural language, transforming raw inputs into training-ready dataset for machine learning models. Recognizing the industry-wide data gap, we view large-scale data collection not only as our unique competitive advantage, but as a responsibility to the broader community. By building and open-sourcing the dataset, we aim to provide the high-quality “fuel” needed to power embodied AI, ultimately accelerating the real-world deployment of general-purpose robotic foundation models. The robotics industry is highly competitive, and many teams have chosen to focus on data. DAIMON is releasing a large and highly comprehensive cross-embodiment, vision-based tactile multimodal robotic manipulation dataset. How were you able to achieve this? We have a dedicated in-house team focused on expanding our capabilities, including building hardware devices and developing our own large-scale model. Although we are a relatively small company, our core tactile sensing technology and innovative data collection paradigm enable us to build large-scale dataset. Our approach is to broaden our offering. We have built the world’s largest distributed out-of-lab data collection network. Rather than relying on centralized data factories, this lightweight and scalable system allows data to be gathered across diverse real-world environments, enabling us to generate millions of hours of data per year. “To drive the advancement of the entire embodied AI field, we have open-sourced 10,000 hours of the dataset for the broader community.” —Prof. Michael Yu Wang, DAIMON Robotics This dataset is being jointly developed with several institutions worldwide. What roles did they play in its development, and how will the dataset benefit their research and products? Besides China based teams, our partners include leading research groups from universities, such as Northwestern University and the National University of Singapore, as well as top global enterprises like Google DeepMind and China Mobile. Their decision to partner with DAIMON is a strong testament to the value of our tactile-rich dataset. Among the companies involved there are some that have already built their own models but are now incorporating tactile information. By deploying our data collection devices across research, manufacturing and other real-world scenarios, they help us to gather highly practical, application-driven data. In turn, our partners leverage the data to train models tailored to their specific use cases. Furthermore, to drive the advancement of the entire embodied AI field, we have open-sourced 10,000 hours of the dataset for the broader community. Equipped with Daimon’s visuotactile sensor, the gripper delicately senses contact and precisely controls force to pick up a fragile eggshell.Daimon Robotics From VLA to VTLA: Why Tactile Sensing Changes the Equation The mainstream paradigm in robotics is currently the Vision-Language-Action (VLA) model, but your team has proposed a Vision-Tactile-Language-Action (VTLA) model. Why is it necessary to incorporate tactile sensing? What does it enable robots to achieve, and which tasks are likely to fail without tactile feedback? Over these years of working to make generalist robots capable of performing manipulation tasks, especially dexterous manipulation — not just power grasping or holding an object, but manipulating objects and using tools to impart forces and motion onto parts — we see these robots being used in household as well as industrial assembly settings. It is well established that tactile information is essential for providing feedback about contact states so that robots can guide their hands and fingers to perform reliable manipulation. Without tactile sensing, robots are severely limited. They struggle to locate objects in dark environments, and without slip detection, they can easily drop fragile items like glass. Furthermore, the inability to precisely control force often leads to failed manipulation tasks or, in severe cases, physical damage. Naturally, the VLA approach needs to be enhanced to incorporate tactile information. We expanded the VLA framework to incorporate tactile data, creating the VTLA model. An additional benefit of our tactile sensor is that it is vision-based: We capture visual images of the deformation on the fingertip surface. We capture multiple images in a time sequence that encodes contact information, from which we can infer forces and other contact states. This aligns well with the visual framework that VLA is based upon. Having tactile information in a visual image format makes it naturally suitable for integration into the VLA framework, transforming it into a VTLA system. That is the key advantage: Vision-based tactile sensors provide very high resolution at the pixel level, and this data can be incorporated into the framework, whether it is an end-to-end model or another type of architecture. DAIMON has been known for its vision-based tactile sensors that can pack over 110,000 effective sensing units.DAIMON Robotics The Technology: Monochromatic Vision-based Tactile Sensing You and your team have spent many years deeply engaged in vision-based tactile sensing and have developed the world’s first monochromatic vision-based tactile sensing technology. Why did you choose this technical path? Once we started investigating tactile sensors, we understood our needs. We wanted sensors that closely mimic what we have under our fingertip skin. Physiological studies have well documented the capabilities humans have at their fingertips — knowing what we touch, what kind of material it is, how forces are distributed, and whether it is moving into the right position as our brain controls our hands. We knew that replicating these capabilities on a robot hand’s fingertips would help considerably. When we surveyed existing technologies, we found many types, including vision-based tactile sensors with tri-color optics and other simpler designs. We decided to integrate the best of these into an engineering-robust solution that works well without being overly complicated, keeping cost, reliability, and sensitivity within a satisfactory range, thus ultimately developing a monochromatic vision-based tactile sensing technique. This is fundamentally an engineering approach rather than a purely scientific one, since a great deal of foundational research already existed. With the growing realization of the necessity of tactile data, all of this will advance hand in hand. DAIMON vision-based tactile sensor captures high-quality, multimodal tactile data.DAIMON Robotics Last year, DAIMON launched a multi-dimensional, high-resolution, high-frequency vision-based tactile sensor. Compared with traditional tactile sensors, where does its core advantage lie? Which industries could it potentially transform? The key features of our sensors are the density of distributed force measurement and the deformation we can capture over the area of a fingertip. I believe we have the highest density in terms of sensing units. That is one very important metric. The other is dynamics: the frequency and bandwidth — how quickly we can detect force changes, transmit signals, and process them in real time. Other important aspects are largely engineering-related, such as reliability, drift, durability of the soft surface, and resistance to interference from magnetic, optical, or environmental factors. A growing number of researchers and companies are recognizing the importance of tactile sensing and adopting our technology. I believe the advances in tactile sensing will elevate the entire community and industry to a higher level. One of our potential customers is deploying humanoid robots in a small convenience store, with densely packed shelves where shelf space is at a premium. The robot needs to reach into very tight spaces — tighter than books on a shelf — to pick out an object. Current two-jaw parallel grippers cannot fit into most of these spaces. Observing how humans pick up objects, you clearly need at least three slim fingers to touch and roll the object toward you and secure it. Thus, we are starting to see very specific needs where tactile sensing capabilities are essential. From Academia to Startup After 40 years in academia — founding the HKUST Robotics Institute, earning prestigious honors including IEEE Fellow, and serving as Editor-in-Chief of IEEE TASE — what motivated you to found DAIMON Robotics? I have come a long way. I started learning robotics during my PhD at Carnegie Mellon, where there were truly remarkable groups working on locomotion under Marc Raibert, who founded Boston Dynamics, and on manipulation under my advisor, Matt Mason, a leader in the field. We have been working on dexterous manipulation, not only at Carnegie Mellon, but globally for many years. However, progress has been limited for a long time, especially in building dexterous hands and making them work. Only recently have locomotion robots truly taken off, and only in the last few years have we begun to see major advancements in robot hands. There is clearly room for advancing manipulation capabilities, which would enable robots to do work like humans. While at Hong Kong University of Science and Technology, I saw increasingly greater people entering this area in the form of students and postdoctoral researchers. We wanted to jumpstart our effort by leveraging the available capital and talent resources. Fortunately, one of my postdocs, Dr. Duan Jianghua, has a strong sense for commercial opportunities. Recognizing the rapid growth of robotics market and the unique value that our vision-based tactile sensing technology could bring, together we started DAIMON Robotics, and it has progressed well. The community has grown tremendously in China, Japan, Korea, the U.S., and Europe. Robots equipped with DAIMON technology have been deployed in factory settings. The company aims to enable robots to achieve “embodied intelligence” and close the gap between what they can see and what they can feel.DAIMON Robotics Business Model and Commercial Strategy What is DAIMON’s current business model and strategic focus? What role does the dataset release play in your commercial strategy? We started as a device company focused on making highly capable tactile sensors, especially for robot hands. But as technology and business developed, everyone realized it is not just about one component, rather the entire technology chain: devices, data of adequate quality and quantity, and finally the right framework to build, train, and deploy models on robots in real application environments. Our business strategy is best described as “3D”: Devices, Data, and Deployment. We build devices for data collection, our own ecosystem, and for deploying them in our partners’ potential application domains. This enables the collection of real-world tactile-rich data and complete closed-loop validation. This will become an integral part of the 3D business model. Most startups in this space are following a similar path until eventually some may become more specialized or more tightly integrated with other companies. For now, it is mostly vertical integration. Embodied Skills and the Convergence Moment You’ve introduced the concept of “embodied skills” as essential for humanoid robots to move beyond having just an advanced AI “brain.” What prompted this insight? What new capabilities could embodied skills enable? After the rapid evolution of models and hardware over the past two years, has your definition or roadmap for embodied skills evolved? We have come a long way now see a convergence point where electrical, electronic, and mechatronic hardware technologies have advanced tremendously in last two decades. Robots are now fully electric, do not require hydraulics, because hardware has evolved rapidly. Modern electronics provide tremendous bandwidth with high torques. If we can build intelligence into these systems, we can create truly humanoid robots with the ability to operate in unstructured environments, make decisions, and take actions autonomously. “Our vision is for robots to achieve robust manipulation capabilities and evolve into reliable partners for humans.” —Prof. Michael Yu Wang, DAIMON Robotics AI has arrived at exactly the right time. Enormous resources have been invested in AI development, especially large language models, which are now being generalized into world models that enable physical AI capabilities. We would like to see these manifested in real-world systems. While both AI and core hardware technologies continue to evolve, the focus is much clearer now. For example, human-sized robots are preferred in a home environment. This is an exciting domain with a promise of great societal benefit if we can eventually achieve safe, reliable, and cost-effective robots. The Road to Real-World Deployment Today, many robots can deliver impressive demos, yet there remains a gap before they truly enter real-world applications. What could be a potential trigger for real-world deployment? Which scenarios are most likely to achieve large-scale deployment first? I think the road toward large-scale deployment of generalist robots is still long, but we are starting to see signs of feasibility within specific domains. It is very similar to autonomous vehicles, where we are yet to see full deployment of robo-taxis, while we have already started to find mobile robots and smaller vehicles widely deployed in the hospitality industry. Virtually every major hotel in China now has a delivery robot — no arms, just a vehicle that picks up items from the hotel lobby (e.g., food deliveries). The delivery person just loads the food and selects the room number. It is up to the robot thereafter to navigate and reach the guest’s room, which includes using the elevator, to deliver the food. This is already nearly 100 percent deployed in major Chinese hotels. Hotel and restaurant robots are viewed as a model for deploying humanoid robots in specific domains like overnight drugstores and convenience stores. I expect complete deployment in such settings within a short timeframe, followed by other applications. Overall, we can expect autonomous robots, including humanoids, to progressively penetrate specific sectors, delivering value in each and expanding into others. Ultimately, our vision is for robots to achieve robust manipulation capabilities and evolve into reliable partners for humans. By seamlessly integrating into our homes and daily lives, they will genuinely benefit and serve humanity. This interview has been edited for length and clarity.