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A time-of-flight sensor can be a lot more than a mere depth-sensor. Introducing PlatoNeRF, work done in our group at Reality Labs, Meta with our…

Impulse-Radio Ultra-Wideband (IR-UWB) radar is a type of radar technology that operates by emitting short-duration pulses with very low power across an extremely wide fre

Ultra-low-power ultra-wideband transceiver for localization and streaming applications.

Ultra Wideband Chipset Market is driven by increasing interest in the ultra wideband technology and growing investments toward the development of the same, the ultra wideband chipset market is expected to reach a value of US$ 31 Mn by 2030

Ixana’s patented high-speed Wi-R silicon chip communicates with 100 times more energy efficiency and is more secure than traditional wireless technologies

What if the end of the smartphone era is caused by the ability to use your skin — instead of a screen or even voice commands — to interface with the internet? Or by using your mind to control devices without looking at them?

Ixana CTO Shreyas Sen is developing innovations for the post-smartphone era, in which people collaborate with technology rather than simply coexist with devices

UWB is a PNTC (positioning, navigation, timing and communication) local positioning system, accuracy 10cm. working for NON- GPS tetehred drone system.

Although the path ahead for quantum computing is anything but certain, our analysis suggests companies will have the resources needed to make continued progress.

Accelerating technological breakthroughs, increasing investment flows, start-up proliferation, and promises of capable quantum systems by 2030 signal it’s time for business leaders to begin planning their quantum-computing strategies.

Our latest Quantum Technology Monitor shows industry interest remains strong, China is upping its game, and talent shortages require attention.

Causal influences are at the core of any empirical science, the reason why its quantification is of paramount relevance for the mathematical theory of causality and applications. Quantum correlations, however, challenge our notion of cause and effect, implying that tools and concepts developed over the years having in mind a classical world have to be reevaluated in the presence of quantum effects. Here, we propose the quantum version of the most common causality quantifier, the average causal effect, measuring how much a target quantum system is changed by interventions on its presumed cause. Not only does it offer an innate manner to quantify causation in two-qubit gates but also in alternative quantum computation models such as the measurement-based version, suggesting that causality can be used as a proxy for optimizing quantum algorithms. Considering quantum teleportation, we show that any pure entangled state offers an advantage in terms of causal effects as compared to separable states. This broadness of different uses showcases that, just as in the classical case, the quantification of causal influence has foundational and applied consequences and can lead to a yet totally unexplored tool for quantum information science.

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The stunning experiment, which reconstructs the properties of entangled photons from a 2D interference pattern, could be used to design faster quantum computers.

Introduction: In the realm of modern technology, where data is king, signal processing emerges as the unsung hero that transforms raw data into valuable insights. From the subtle rhythms of heartbeats captured by medical devices to the intricate details of audio and image files, signal processing is

The proposed strategy relies on manipulating with high precision an unimaginably huge number of variables

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Can a solitaire version of the ancient game mancala lead to a breakthrough in quantum physics? Researchers think it may be possible.