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Tech & AI

2127 artiklar · sida 37 av 86

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Researchers have developed a mathematical framework that helps AI systems recognize patterns and simplify complex logical statements with near-perfect accuracy. The finding could reduce computational overhead in databases and search systems that process millions of queries, potentially cutting infrastructure costs for companies relying on large-scale data analysis.EN

2025-01-01 · ,
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Researchers have published a database of over 5,600 membrane permeability measurements for ring-shaped drug molecules, enabling computational predictions that could slash development costs. The resource addresses a major bottleneck in creating medicines targeting previously undruggable disease mechanisms, potentially shortening timelines for biotech and pharma companies.EN

2025-01-01 · Scientific Data · , , et al.
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Researchers have designed mandibular reconstruction plates using 3D printing that could dramatically improve survival rates for cancer patients undergoing jaw reconstruction and radiation therapy. The innovation addresses a major clinical problem: implants commonly fail in irradiated patients. If validated in human trials, this could reduce costly surgical complications and revision procedures.EN

2025-01-01 · Journal of The Mechanical Behavior of Biomedical Materials · , , et al.
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Researchers have confirmed what EV makers have long suspected: rapid charging degrades batteries significantly faster than slower alternatives, forcing a strategic choice between convenience and longevity. For fleet operators and policymakers planning charging infrastructure, the finding underscores that one-size-fits-all charging networks could prove costly, requiring differentiated strategies based on use case and vehicle type.EN

2025-01-01 · Energy Strategy Reviews ·
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Researchers have classified a family of abstract mathematical structures called nZ-cluster tilting subcategories, solving a long-standing problem in algebra. The discovery provides a blueprint for building higher-dimensional mathematical frameworks that could eventually enable more efficient machine learning models and novel computational systems.EN

2025-01-01 · Mathematische Zeitschrift · , ,
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Researchers have developed a flat antenna that can transmit and receive signals across a much wider range of angles and frequencies than current systems, while maintaining compact size. The breakthrough could unlock faster data transmission for 5G networks, satellite communications, and military radar—markets worth billions annually.EN

2025-01-01 · Frontiers in Communications and Networks · , ,
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Researchers have successfully 3D-printed collagen structures that mimic natural bone geometry, a breakthrough that could enable better treatments for severe bone injuries. The advance uses a printing method called FRESH, which achieves the precise porous architecture needed for bone cells to grow—opening a commercial pathway for regenerative medicine and orthopedic device makers.EN

2025-01-01 · 3D Printing in Medicine · , , et al.
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A major comparative study reveals that numerical models can't reliably predict how floating offshore wind turbines will behave in rough seas—especially their side-to-side and tilting movements. The findings expose a critical validation gap that could delay deployment of these machines, which are essential for expanding offshore wind capacity in deep water.EN

2025-01-01 · Applied Ocean Research · , , et al.
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Researchers found that AI language models can identify what objects people are talking about in conversations just by reading the text—without analyzing the video itself. The finding has major implications for building cheaper, faster AI assistants for customer service, virtual meetings, and accessibility tools.EN

2025-01-01 · ,
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Researchers have developed a system that lets mobile robots understand natural language commands and navigate cluttered manufacturing environments without extensive reprogramming. The breakthrough could reduce downtime and retraining costs for factories deploying autonomous inspection and material-handling robots across diverse, unpredictable work spaces.EN

2025-01-01 · Engineering · , , et al.
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Researchers have redesigned the core computing circuits used in AI accelerators and wireless systems to dramatically reduce latency and energy consumption. The innovation could accelerate deployment of AI on edge devices and lower operating costs for data centers running machine learning workloads.EN

2025-01-01 · , ,
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Researchers have identified the ideal chemical recipe for melting hydrogen-reduced iron pellets—a key input for greener steelmaking—cutting melting time nearly in half. The finding could help steelmakers improve efficiency when switching to cleaner production methods, reducing both emissions and operating costs.EN

2025-01-01 · Steel Research International · , ,
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Researchers have solved a decades-old mathematical problem in quantum physics that could accelerate the design of more efficient quantum computers and cryptographic systems. The breakthrough uses a new geometric approach to predict how quantum systems behave, potentially cutting years off development timelines for quantum technologies that major tech firms are racing to commercialize.EN

2025-01-01 · Letters in Mathematical Physics · ,
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Researchers have developed a method to design engineered materials that absorb vibration and impact in precisely controlled ways, depending on direction and loading type. The work could transform industries from aerospace to automotive by allowing engineers to tailor shock absorption and noise reduction without changing the base material itself.EN

2025-01-01 · Mechanics of materials · , , et al.
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Researchers have developed a faster way to analyze giant structured matrices—common in engineering simulations and financial modeling—by working with smaller proxy matrices instead. The technique could dramatically cut computation time and memory costs for industries relying on complex mathematical modeling, from aerospace to energy systems.EN

2025-01-01 · BIT Numerical Mathematics · , , et al.
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Researchers have developed a faster computational method for modeling how waves travel through materials with nonuniform properties—a common challenge in oil exploration, medical imaging, and structural monitoring. The advance could significantly cut processing time for industries that rely on wave-based sensing and imaging technologies.EN

2025-01-01 · Linear Algebra and its Applications · , , et al.
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Researchers have significantly improved electron beam technology used to photograph atomic structures in motion, shrinking the equipment needed while capturing sharper images in trillionths of a second. The breakthrough could make ultrafast imaging tools cheaper and more accessible for pharmaceutical development, materials science, and semiconductor manufacturing.EN

2025-01-01 · Ultramicroscopy · , , et al.
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Researchers have developed a method to grow specialized metal alloy films without heating, cutting energy costs and complexity in manufacturing. The technique could accelerate production of advanced coatings for aerospace, electronics, and industrial equipment that currently require expensive high-temperature processing.EN

2025-01-01 · Surface & Coatings Technology · , , et al.
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Researchers have demonstrated a laser-based process that deposits razor-thin steel coatings—thinner than a human hair—onto components with minimal defects. The advance could unlock new applications in aerospace, medical devices, and semiconductor manufacturing where precision coating has been cost-prohibitive or technically impossible.EN

2025-01-01 · Journal of Manufacturing Processes · , ,
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Researchers have developed a machine-learning technique that generates accurate synthetic populations even when training data has significant gaps—a breakthrough for companies and governments struggling with privacy constraints. The method, tested on Swedish travel data, could accelerate planning in transportation, utilities, and public health by making fragmented datasets usable without exposing sensitive information.EN

2025-01-01 · Proceedings 26th EURO Working Group on Transportation, EWGT 2024 · , ,
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Researchers discovered that Zika virus manipulates human skin cells to release chemicals that attract mosquitoes, dramatically improving transmission rates. The finding could reshape vector-control strategies and inform development of new transmission-blocking interventions as the virus continues spreading globally.EN

2025-01-01 · Communications Biology · , , et al.
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Researchers have developed a type of AI network that can recognize objects in images even when they're much larger or smaller than examples it learned from. The finding could improve computer vision systems used in autonomous vehicles, medical imaging, and surveillance—where real-world objects rarely match training data sizes.EN

2025-01-01 · Covariant and invariant deep networks · ,
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Scientists say the battery industry relies on 19th-century ion-pairing theory to model how electrolytes work, leading to fundamentally flawed predictions. Adopting modern electrolyte analysis could improve battery design and performance—a critical advantage as companies race to scale production of EVs and energy storage systems.EN

2025-01-01 · Batteries & Supercaps · , ,
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A new analysis identifies which carbon capture technologies work best for different bioenergy facilities, addressing a critical gap in achieving net-zero goals. The findings help companies and policymakers choose cost-effective capture systems for anaerobic digesters, gasifiers, and other biofuel conversion processes that could unlock billions in carbon removal.EN

2025-01-01 · Renewable & sustainable energy reviews · , , et al.
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Researchers have created a decision framework for selecting cooling systems that keep electric motors in vehicles and aircraft running at safe temperatures. The guidance could help manufacturers design more reliable EVs and reduce motor failures, a key reliability concern for the industry.EN

2025-01-01 · Applied Thermal Engineering · , , et al.