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Archive for the ‘engineering’ category: Page 207

Jul 23, 2016

Japan is about to test out plans for a real-life space elevator

Posted by in categories: engineering, robotics/AI, space

The idea of a space elevator to lift us into orbit is one of the oldest concepts in sci-fi, but thanks to the efforts of scientists in Japan, we might soon be seeing this fantastic feat of engineering become a reality at last.

A mini satellite called STARS-C (Space Tethered Autonomous Robotic Satellite-Cube) is heading to the International Space Station in the coming months and is a prototype design that could form the basis of a future space elevator.

Once STARS-C has been delivered – on some to-be-determined date after the Northern Hemisphere’s summer – its makers at Shizuoka University will put it to the test: the orbiter will split into two 10-cm (3.94-inch) cubes and spool out a thin 100-metre tether made of Kevlar between them.

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Jul 21, 2016

BioCryptography and Biometric Penetration Testing

Posted by in categories: biotech/medical, cybercrime/malcode, engineering, privacy

I do love biometrics for security; however, many know that we will not only leverage biometrics alone for certifying identification given how easy it is for folks to retrieve others DNA information, etc. from commercial DNA sites, etc.


In the world of security, there are many tools at the IT Staff’s disposal which can be used to fight Cybercrimes of all types and levels. Regarding Physical Access Entry, Smart Cards and FOB’s are available to help alleviate the probability of a Social Engineering attack. Regarding Logical Access Entry, Network Intrusion Devices, Firewalls, Routers, etc. are also all ready to be installed and used.

But, there is one problem with all of these tools above: To some degree or another, all of them can be hijacked, stolen, or even spoofed so that a real Cyber hacker can find their way into a corporation very quickly and easily. For instance, a Smart Card can be easily lost or stolen; or even malformed data packets can be sent to a router and tricking it that it is a legitimate employee trying to gain access.

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Jul 21, 2016

Enterprise Fellowships to kick-start the quantum technology industry

Posted by in categories: business, cybercrime/malcode, energy, engineering, finance, health, internet, quantum physics, robotics/AI

Luv this.


The University of Bristol’s Quantum Technology Enterprise Centre (QTEC) is looking to recruit its first cohort of Enterprise Fellows that will be the next generation of quantum technology entrepreneurs.

Merging training in systems thinking, quantum engineering and entrepreneurship, QTEC will provide the necessary skills for budding innovators to develop their own business ideas and for them to branch out into the emerging field of quantum technologies.

The Centre, which is the first of its kind in the world, was funded as part of the UK’s £270 million investment into quantum technologies. These technologies exploit the laws of quantum mechanics to create practical and useful technologies that will outperform their classical rivals and that have the potential to transform artificial intelligence, healthcare, energy, finance, cyber security and the internet.

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Jul 20, 2016

One of the First Real-World Quantum Computer Applications Was Just Realized

Posted by in categories: computing, engineering, quantum physics

Luv it; and this is only the beginning too.


In the continued effort to make a viable quantum computer, scientists assert that they have made the first scalable quantum simulation of a molecule.

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Jul 19, 2016

Researchers develop plastic flexible magnetic memory device

Posted by in categories: computing, engineering, health, military, robotics/AI, wearables

A new technique has been developed to implant high-performance magnetic memory chip on a flexible plastic surface without compromising performance.

It looks like a small piece of transparent film with tiny engravings on it, and is flexible enough to be bent into a tube. Yet, this piece of “smart” plastic demonstrates excellent performance in terms of data storage and processing capabilities. This novel invention, developed by researchers from the National University of Singapore (NUS), hails a breakthrough in the flexible electronics revolution, and brings researchers a step closer towards making flexible, wearable electronics a reality in the near future.

The technological advancement is achieved in collaboration with researchers from Yonsei University, Ghent University and Singapore’s Institute of Materials Research and Engineering. The research team has successfully embedded a powerful magnetic memory chip on a flexible plastic material, and this malleable memory chip will be a critical component for the design and development of flexible and lightweight devices. Such devices have great potential in applications such as automotive, healthcare electronics, industrial motor control and robotics, industrial power and energy management, as well as military and avionics systems.

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Jul 19, 2016

Study shows continuous dehydration kills cells during dry preservation

Posted by in categories: cryonics, engineering, life extension

A new finding in experiments studying the dry preservation of living cells — a potentially revolutionary alternative to cryopreservation — has defined a clear limit where continuing dehydration kills cells. The data, combined with molecular dynamics simulations, provides insight into an important processing factor that has limited recent attempts at dry preservation.

“What we have done is identified what appears to be a materials constraint in our method of dry preservation. I think this new understanding suggests some interesting avenues to pursue in developing a successful process,” said Gloria Elliott, Professor of Mechanical Engineering at the University of North Carolina at Charlotte, one of the study’s authors.

The findings, reported in the July 8 issue of Scientific Reports, analyzes changes in the molecular arrangements of trehalose (a sugar) and water molecules during a typical dehydration process that they use to immobilize cells in a stable trehalose glass for long-term storage.

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Jul 19, 2016

Scientists develop way to upsize nanostructures into light, flexible 3D printed materials

Posted by in categories: 3D printing, energy, engineering, nanotechnology

For years, scientists and engineers have synthesized materials at the nanoscale level to take advantage of their mechanical, optical, and energy properties, but efforts to scale these materials to larger sizes have resulted in diminished performance and structural integrity.

Now, researchers led by Xiaoyu “Rayne” Zheng, an assistant professor of mechanical engineering at Virginia Tech have published a study in the journal Nature Materials that describes a new process to create lightweight, strong and super elastic 3D printed metallic nanostructured with unprecedented scalability, a full seven orders of magnitude control of arbitrary 3D architectures.

Strikingly, these multiscale metallic materials have displayed super elasticity because of their designed hierarchical 3D architectural arrangement and nanoscale hollow tubes, resulting in more than a 400 percent increase of tensile elasticity over conventional lightweight metals and ceramic foams.

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Jul 18, 2016

Columbia Engineering Researchers Use Acoustic Voxels to Embed Sound with Data

Posted by in categories: 3D printing, biotech/medical, engineering, information science

Columbia Engineering Professor Changxi Zheng’s new approach could lead to better tagging and coding, leveraging 3D printing of complex geometries.

New York — July 18, 2016 — Columbia Engineering researchers, working with colleagues at Disney Research and MIT, have developed a new method to control sound waves, using a computational approach to inversely design acoustic filters that can fit within an arbitrary 3D shape while achieving target sound filtering properties. Led by Computer Science Professor Changxi Zheng, the team designed acoustic voxels, small, hollow, cube-shaped chambers through which sound enters and exits, as a modular system. Like Legos, the voxels can be connected to form an infinitely adjustable, complex structure. Because of their internal chambers, they can modify the acoustic filtering property of the structure—changing their number and size or how they connect alters the acoustic result.

“In the past, people have explored computational design of specific products, like a certain type of muffler or a particular shape of trumpet,” says Zheng, whose team is presenting their paper, “Acoustic Voxels: Computational Optimization of Modular Acoustic Filters,” at SIGGRAPH 2016 on July 27. “The general approach to manipulating sound waves has been to computationally design chamber shapes. Our algorithm enables new designs of noise mufflers, hearing aids, wind instruments, and more — we can now make them in any shape we want, even a 3D-printed toy hippopotamus that sounds like a trumpet.” VIDEO: http://www.cs.columbia.edu/cg/lego/

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Jul 11, 2016

Germs add ripples to make ‘groovy’ graphene

Posted by in categories: biotech/medical, computing, engineering, nanotechnology, particle physics

Graphene, a two-dimensional wonder-material composed of a single layer of carbon atoms linked in a hexagonal chicken-wire pattern, has attracted intense interest for its phenomenal ability to conduct electricity. Now University of Illinois at Chicago researchers have used rod-shaped bacteria — precisely aligned in an electric field, then vacuum-shrunk under a graphene sheet — to introduce nanoscale ripples in the material, causing it to conduct electrons differently in perpendicular directions.

The resulting material, sort of a graphene nano-corduroy, can be applied to a silicon chip and may add to graphene’s almost limitless potential in electronics and nanotechnology. The finding is reported in the journal ACS Nano.

“The current across the graphene wrinkles is less than the current along them,” says Vikas Berry, associate professor and interim head of chemical engineering at UIC, who led the research.

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Jul 11, 2016

Stanford University Researchers Help DARPA Create Mathematical Framework for Network Pattern Discovery

Posted by in categories: engineering, information science, mathematics

The Defense Advanced Research Projects Agency has demonstrated a new mathematical framework that works to help researchers discover patterns in complex scientific and engineering systems. DARPA said Thursday researchers at Stanford University created algorithms designed to explore patterns in data in order to gain insights into network structure and function under the Simplifying Complexity in Scientific Discovery [ ].

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