Robotics

Robotic exosuit uses ultrasound imaging to provide personalized walking assistance

By Tami Freeman

Wearable robotic systems have great potential for assisting locomotion during clinical rehabilitation, as well as use in recreation and to ease demanding occupational tasks. Walking patterns, however, vary according to a person’s age, height and physiology, may be affected by neural or muscular disorders, and change in different environments. As such, there’s a need for wearable robotics that can customize walking assistance to each user and task.

To address this need, researchers at Harvard University have developed a novel robotic ankle exosuit that uses ultrasound measurements recorded during walking to tune the level of assistance to an individual’s own muscle dynamics and walking task. The team – from Robert Howe’s Harvard Biorobotics Laboratory and the Harvard Biodesign Lab run by Conor Walsh – describes this new muscle-based assistance (MBA) strategy in Science Robotics.

The researchers predict that such personalized assistance should improve exosuit performance and support the adoption of wearable robotics in real-world, dynamic locomotor tasks. “By measuring the muscle directly, we can work more intuitively with the person using the exosuit,” explains co-first author Sangjun Lee in a press statement. “With this approach, the exosuit isn’t overpowering the wearer, it’s working co-operatively with them.”

Continue reading… “Robotic exosuit uses ultrasound imaging to provide personalized walking assistance”
drones

This Futuristic Mailbox Is Smarter Than All Your Gadgets, Will Transform Drone Deliveries

By Cristina Mircea

In a future where mailmen will be replaced by drones, it is only logical for the mailboxes to keep up with technological advancements. The DroneDek smart receptacle is compatible with drone couriers, humans, and robots, and it was designed to securely receive and hold your deliveries so that you can worry about more important things. 6 photos

This smart mailbox is weatherproof and feature-packed, being equipped with sensor technology, a motorized sliding door, GPS, Bluetooth, and advanced positioning technology. It is secured by a fully encrypted, end-to-end opening protocol, which means no one can open it unless they have the right security code. The DroneDek smart box has been optimized for tethered, dropped, manual, and automated deliveries. It is also climate controlled, Bluetooth enabled, and comes with a two-way speaker system for real-time communication. Or you can just use it to play music.

Drones can also use the smart box to recharge wirelessly.

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Virtual Reality

Nike’s Roblox Digital Showroom Offers Next Peek Into the Metaverse

Take a peek at Nike’s newly launched digital experience known as Nikeland on Roblox.

By Lisa Johnston

As retailers shake out how the metaverse might make sense for them, Nike launched a new digital experience known as Nikeland on Roblox.

The footwear and apparel retailer designed Nikeland after its real-life headquarters, and Roblox players can play a range of mini games, such as tag, dodgeball, and the floor is lava. Players can also use the accelerometers in their mobile devices for further game interactivity, such as running or jumping, and pick up Nike-branded items for their avatar in the digital showroom.

Nikeland is a free environment on Roblox, and in December, the company will release a Snapchat lens that turns its House of Innovation in New York into an augmented reality version of the space.

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Space

Lenz Architects Proposes Levitating Production Station That Moves With Self-Generated Energy On Mars

Called ILO (Identified Levitating Object), the conceptual project, having a static base, consists of a levitating station that can move around with its self-generated energy, collected from the wind and the sun.

To create this concept, the studio worked with a scientific group of physicists and engineers. Using a scientific approach and making a scientific conclusion, the architects calculated a magnetic levitation on Mars.

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Futurist

Someone Unearthed A 1997 Wired Article Predicting ’10 Things That Could Go Wrong In The 21st Century’ — And Nearly All Of Them Came True

By James Crugnale

As they say, it’s tough to make predictions, especially about the future — but it appears a duo of futurologists made some extraordinary prognostications about the world that, as it turns out, were nearly dead on.

The internet unearthed an old article, written by Pete Leyden and Peter Schwartz, from the July 1997 issue of WIRED magazine that made some eerily prophetic predictions about the 21st century that have “come true in one way or another” — including a pandemic, skyrocketing energy prices, climate change and Brexit.

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New Inventions

Harvesting water from the air, 24 hours a day, with no energy input

Pilot condenser used at ETH Zurich.

Fresh water is scarce in many parts of the world and must be obtained at great expense. Communities near the ocean can desalinate sea water for this purpose, but doing so requires a large amount of energy. Further away from the coast, practically often the only remaining option is to condense atmospheric humidity through cooling, either through processes that similarly require high energy input or by using “passive” technologies that exploit the temperature swing between day and night. However, with current passive technologies, such as dew-collecting foils, water can be extracted only at night. This is because the sun heats the foils during the day, which makes condensation impossible.

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Medical Breakthrough

Researchers develop ultra-thin ‘computer on the bone’ using NFC for bone health monitoring

By Tom Phillips 

Researchers at the University of Arizona in the US have developed an ultra-thin NFC sensor that could be directly attached to human bone and enable physicians to monitor a patient’s bone health and healing from fractures and other traumatic injuries.

The battery-free osseosurface electronics device is as thin as a sheet of paper and “roughly the size of a [US] penny” and draws power from and communicates information to an NFC-enabled smartphone or other NFC reader.

The device’s thin structure means that it can form a “tight interface” with a bone without irritating surrounding tissue, while the adhesive that the researchers have developed to attach it contains calcium particles that allow it to “form a permanent bond to the bone and take measurements over long periods of time”.

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Batteries

Fast Company Says Li-Cycle Is One Of The “Next Big Things In Tech”


By Johnna Crider

In its first-ever list of the “Next Big Things in Tech,” Fast Company listed several companies in the technology industry that are making an impact on various topics from sustainability, health, and AI to money and smart machines. Li-Cycle, which has North America’s largest battery recycling facility, is one of the companies mentioned on that long list.

Li-Cycle was noted for its goal of keeping batteries out of landfills. The company is on a mission to make lithium-ion batteries into circular and sustainable products. Next year, it plans to open its Commercial Spoke 3 facility in Arizona, which will have the capacity of recycling 10,000 tonnes of lithium-ion batteries per year.

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quantum computing, Science & Technology News

Quantum computers to explore precision oncology

Quantum processors can potentially tackle massive calculations at speed

By Alison Abbott 

Life scientists are preparing to test quantum computers for applications beyond computational chemistry, such as selecting responders to cancer therapies.

Cancer researchers will be among the first to test the potential of Europe’s first IBM quantum computer, which was unveiled in Germany this summer. The 27-qubit IBM Q System One is among the most powerful commercial quantum computers in Europe. Based at IBM’s German headquarters in Ehningen, near Stuttgart, it is jointly operated by IBM and the Fraunhofer Society, Germany’s multidisciplinary applied research organization headquartered in Munich. The Fraunhofer Society is making the quantum computer available to researchers wishing to test ideas for practical applications of quantum computers, including in life sciences.

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quantum computing, Science & Technology News

Exotic New Material Could Be Two Superconductors in One – With Serious Quantum Computing Applications

Work has potential applications in quantum computing, and introduces new way to plumb the secrets of superconductivity.

MIT physicists and colleagues have demonstrated an exotic form of superconductivity in a new material the team synthesized only about a year ago. Although predicted in the 1960s, until now this type of superconductivity has proven difficult to stabilize. Further, the scientists found that the same material can potentially be manipulated to exhibit yet another, equally exotic form of superconductivity.

The work was reported in the November 3, 2021, issue of the journal Nature.

The demonstration of finite momentum superconductivity in a layered crystal known as a natural superlattice means that the material can be tweaked to create different patterns of superconductivity within the same sample. And that, in turn, could have implications for quantum computing and more.

The material is also expected to become an important tool for plumbing the secrets of unconventional superconductors. This may be useful for new quantum technologies. Designing such technologies is challenging, partly because the materials they are composed of can be difficult to study. The new material could simplify such research because, among other things, it is relatively easy to make.

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3D Printer

Texas will soon get an entire neighbourhood of 3D-printed houses

In Austin, construction of the largest 3D-printed neighbourhood will begin in 2022.

Will the future of housing and construction involve 3D printing? In a city in the US state of Texas, a new kind of real estate project will break ground in 2022.

An entire neighbourhood of 100 single-storey, 3D-printed homes will be built in an Austin neighbourhood. This method of construction is faster, cheaper and less polluting than conventional construction methods, according to the three companies behind this unique project.

This development is set to be the largest neighbourhood of 3D-printed homes ever built. Behind this project of unprecedented size are Danish architecture firm Bjarke Ingels Group (BIG), home building company Lennar and 3D printing construction technology company ICON.

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