In the ever-evolving landscape of audio and biomedical signal analysis, researchers are constantly seeking innovative ways to improve the efficiency and accuracy of deep learning models. A recent study introduces the Parallel Delayed Memory Unit (PDM
A team of physicists at the University of Vermont has achieved a landmark in quantum science, solving a 90-year-old puzzle by creating the first exact quantum description of a damped harmonic oscillator. This breakthrough, published in Physical Review Research, reformulates Horace Lamb’s classical model to explain how atomic vibrations lose energy over time—preserving the strange rules of quantum mechanics. The discovery opens the door to ultra-precise quantum measurement tools and could redefine the limits of acoustic and sensor technology at the atomic scale.
In the rapidly evolving world of video generation, a new player has stepped onto the stage, promising to revolutionize the way we create and interact with multi-person videos. Meet AnyTalker, a framework developed by a team of researchers from variou
In a significant leap forward for brain-computer interfaces (BCIs), researchers have introduced an innovative end-to-end Brain-to-Text (BIT) framework that promises to revolutionize how neural activity is translated into coherent text. This breakthro
The world of speech synthesis is abuzz with the latest advancements in diffusion models, and for good reason. These models have been pushing the boundaries of audio quality and stability, making them a formidable force in the generative AI landscape.
This past week, the audio industry witnessed a seismic shift as L-Acoustics unveiled its latest innovation at the London Keynote 2025, fundamentally altering the landscape for live DJ performances and electronic music production. The company introduced a comprehensive ecosystem that transcends traditional stereo mixing, empowering artists to craft dynamic, three-dimensional soundscapes without disrupting their established workflows. This breakthrough not only enhances creative possibilities but also sets a new standard for immersive live audio experiences.
A team of researchers at EPFL Lausanne has unveiled a groundbreaking polymer-based MEMS loudspeaker, featuring a partially stiffened membrane actuated by a transferred PZT thin film. Published in Nature’s Communications Engineering, this innovation enables integration on flexible substrates, opening the door for transparent audio systems and next-generation wearable devices. The breakthrough addresses a longstanding challenge in miniaturized loudspeakers: achieving consistent acoustic performance, especially at low frequencies, without sacrificing form factor or flexibility.
In the world of video understanding and education, especially when it comes to scientific content, there’s a significant challenge. Existing systems, while advanced, often fall short when dealing with the complex, step-by-step reasoning and professio
The anticipation of Black Friday has already ignited a flurry of early deals across the music technology landscape, offering producers, engineers, and enthusiasts a prime opportunity to restock their plugin folders and upgrade their gear at significa
Robotic manipulation tasks are inherently contact-rich, yet most imitation learning (IL) approaches rely heavily on vision. While vision is powerful, it struggles to capture subtle interaction cues like stiffness, roughness, and slip. This is where t
