The U.S. Army is eyeing a system that traps military drones while they’re on the move, which could help the devices avoid detection by enemies.
Month: September 2018
TOKYO, Sept. 6, 2018 (ANA HD/JAXA PR) — ANA HOLDINGS INC. (hereinafter ANA HD) and Japan Aerospace Exploration Agency ( JAXA ) are proud to announce the launch of “AVATAR X,” a multi-phased program to revolutionize space exploration and development using real-world Avatars (*1).
AVATAR X aims to capitalize on the growing space-based economy by accelerating development of real-world Avatars that will enable humans to remotely build camps on the Moon, support long-term space missions and further explore space from afar.
AVATAR X is part of “ANA’s AVATAR Vision (*2),” a breakthrough endeavor to advance and pioneer real-world Avatar technologies, and JAXA ‘s new research and development program “J-SPARC” ( JAXA Space Innovation through Partnership and Co-creation). Together with a growing list of public and private partners, AVATAR X hopes to catalyze new space-based businesses that will provide key services and an unprecedented level of access to space.
Hoping to make up ground in the hotly contested artificial intelligence battleground, Chinese Internet giant Baidu Inc. is releasing a tool that allows businesses to create and deploy AI models without coding skills.
Announced Saturday, EZDL is a “no-code platform to build custom machine learning models,” designed with ease of use and security in mind, the company said.
“EZDL is a service platform that allows users to build custom machine learning models with a drag-and-drop interface,” Yongkang Xie, tech lead of Baidu EZDL, said in a statement. “It takes only four steps to train a deep learning model, built specifically for your unique business needs.”
Today, we want to point out a new publication that dives into the world of senolytics, which are drugs or therapies that seek and destroy harmful non-dividing cells that resist the programmed cell death known as apoptosis.
These cells linger in the body, and, as we age, more and more of them accumulate and contribute to the chronic age-related inflammation known as “inflammaging” while reducing tissue regeneration and repair and contributing to the development of various age-related diseases.
One approach to dealing with these problem cells is to tip them over the edge and cause them to self-destruct, thus removing them and the inflammation they cause. A new class of drugs known as senolytics was discovered a few years ago, and the interest in developing them to potentially combat age-related diseases has been growing rapidly.
In this video, we’ll be discussing why global internet connectivity is essential in ensuring a more prosperous future for all and to assure in many of the new technologies in development today. As well as the ongoing and future initiatives to make this hyper-connected future a reality – sooner than many think.
[0:30–10:00] Starting off we’ll take a look at the evolution of the web, how it has advanced society, assured in new technological advancements and why global connectivity is essential in ensuring everyone can access these benefits.
[10:00–19:10] Following that, we’ll discuss the ground-based initiatives to bring internet connectivity to the world, with Googles Project Loon and Facebooks Project Aquila, as well as the upgrades they will see in the future.
Almost anyone who has looked into the night sky has wondered if we could ever travel to the stars. Today, for the first time in history, we might be only decades away from sending a spacecraft to a star, reaching it within the 21st century. Here, Andreas Hein looks into the possibilities and challenges associated with getting to the stars and asks if humans will ever set foot on an exoplanet.
Flying to another star is incredibly difficult, first and foremost due to the distances involved. Imagine for a moment that the distance between our Sun and the Earth is one metre. The Sun would be the size of a grain of salt on this scale. Still, the closest star to our Sun, Proxima Centauri, would be more than 265 km away. At this scale, the farthest human-made object, the Voyager 1 probe, would be at a distance of about 141 metres from the Sun, increasing its distance by about 3.6 metres per year. In reality Voyager 1 flies at an astonishing velocity of 17 km/s; at this velocity, a flight to Proxima Centauri would take about 75,000 years. This timescale sounds hopeless but it does also mean that, in principle, we can already send spacecraft to other stars. Voyager 1 is heading towards the star Gliese 445 and Voyager 2 towards Sirius.
When we talk about interstellar travel however, we commonly mean that we can reach another star within an acceptable timeframe. What is an ‘acceptable timeframe’ though? The team that designed the Daedalus spacecraft, a hypothetical fusion-propelled interstellar probe, argued that an acceptable trip duration would be about the working life of a scientist, roughly 50 years. Breakthrough Starshot, an ongoing project for laser-propelled interstellar probes, is aiming at 20 years to Proxima Centauri.