The future of data, Edge Data Center, is equivalent to a mini data centre. Its proximity to enterprises eliminates latency and other limitations, giving access to real-time data. In this article, we will delve into its core concepts, advancements, operational challenges, and real-time applications.
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In the future, drones will take off automatically and head to an emergency scene immediately after the emergency call, transmitting initial aerial images to the emergency services control centre – even before the relevant personnel arrive.
Enterprise IoT is another direction of IoT industry development, which businesses are actively adopting. Embedded technologies for large organizations bring new challenges in terms of connectivity, network stability, and data security.
This article examines whether we met the hype of 5G and where we are today with technology deployments.
Ada is a state-of-the-art programming language development teams use worldwide for critical software. It is unique among languages in that it helps detect and eliminate bugs early in the software life cycle when they are the least expensive to correct.
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It’s a step toward smart coatings that change color—or other properties—on the fly.
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Soft polymers with the combined properties of electrolytes and traditional polymers offer some unique and desirable properties that can be drastically changed on demand.
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Stanford scientists designed a catalyst that turns carbon dioxide into ethanol, which could incentivize cleaning up emissions.
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EPFL scientists have developed an AI-based technique to improve chemical analysis of nanomaterials, overcoming challenges of noisy data and mixed signals.
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The lightweight material could extend EV range or fuel efficiency once its microstructure is understood.
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Penn State scientists recently found that mass-produced soda-lime silicate glass from post-consumer bottles of different colors can be safely melted together in the recycling process, which could potentially lead to more bottles being recycled.
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Explore the future of connected communities in intelligent cities and underserved regions, highlighting the role of technologies like 5G, AI, and blockchain in enhancing connectivity and promoting inclusive development.
Researchers have created a new class of materials called “glassy gels” that are very hard and difficult to break despite containing more than 50% liquid. Coupled with the fact that glassy gels are simple to produce, the material holds promise for a variety of applications.
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Combining a deep curiosity and “recreational biology,” Stanford researchers have discovered how a simple cell produces remarkably complex behavior, all without a nervous system. It’s origami, they say.
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The work could lead to ultra-efficient electronics and more.
The future of data, Edge Data Center, is equivalent to a mini data centre. Its proximity to enterprises eliminates latency and other limitations, giving access to real-time data. In this article, we will delve into its core concepts, advancements, operational challenges, and real-time applications.
Smaller than a coin, this optical device could enable rapid prototyping on the go.
In this episode, discuss how big of a problem lead contaminated water still is across the world and how a collaboration between MIT & Nanyang University plans to tackle it with a highly accurate and inexpensive water pollution sensor.
16 minutes read
The chip-scale device could provide sensitive detection of lead levels in drinking water, whose toxicity affects 240 million people worldwide.
Using an ultrasensitive photonic crystal, TU/e researchers were able to detect single particles down to 50 nanometers in diameter. The new research has just been published in the journal Optica.
4 minutes read
