US, Russian astronauts safe after emergency landing

The Soyuz-FG rocket booster with Soyuz MS-10 space ship carrying a new crew to the International Space Station before an emergency shutdown of its second stage. (AP)
Updated 11 October 2018
0

US, Russian astronauts safe after emergency landing

  • The three-stage Soyuz booster suffered an emergency shutdown of its second stage
  • The launch failure marks an unprecedented mishap for the Russian space program

BAIKONUR, Kazakhstan: Two astronauts from the US and Russia were safe after an emergency landing Thursday in the steppes of Kazakhstan following the failure of a Russian booster rocket carrying them to the International Space Station.
NASA astronaut Nick Hague and Roscosmos’ Alexei Ovchinin lifted off as scheduled at 2:40pm Thursday from the Russia-leased Baikonur cosmodrome in Kazakhstan atop a Soyuz booster rocket. Roscosmos and NASA said the three-stage Soyuz booster suffered an emergency shutdown of its second stage. The capsule jettisoned from the booster and went into a ballistic descent, landing at a sharper than normal angle.
The launch failure marks an unprecedented mishap for the Russian space program, which has been dogged by a string of launch failures and other incidents.
“Thank God, the crew is alive,” Russian President Vladimir Putin’s spokesman Dmitry Peskov told reporters when it became clear that the crew had landed safely.
They were to dock at the orbiting outpost six hours later, but the booster suffered a failure minutes after the launch.
NASA and Russian Roscosmos space agency said the astronauts were in good condition after their capsule landed about 20 kilometers east of the city of Dzhezkazgan in Kazakhstan.
Search and rescue teams were heading to the area to recover the crew. Dzhezkazgan is about 450 kilometers northeast of Baikonur. Spacecraft returning from the ISS normally land in that region.


King Abdul Aziz City for Science and Technology unveils self-guided Black Shark boat at 38th GITEX Technology Week

The development of the Black Shark smart boat is part of a KACST initiative to localize and transform transport technology and logistics, to help achieve the aims of Vision 2030. (SPA)
Updated 20 October 2018
0

King Abdul Aziz City for Science and Technology unveils self-guided Black Shark boat at 38th GITEX Technology Week

  • These trucks are equipped with electronic pairing technologies, which effectively improve the shipping and distributing of goods, reduce human error

JEDDAH: King Abdul Aziz City for Science and Technology (KACST) has unveiled its Black Shark self-guided boat at the 38th GITEX Technology Week in Dubai. The vessel, which can carry out coastal surveillance and many other tasks, was developed in collaboration with Taqnia for Robotics and Smart Systems.
The development of the craft is part of a KACST initiative to localize and transform transport technology and logistics, to help achieve the aims of Vision of 2030.
The boat includes sensor systems that allow it to monitor and create a 3D map of a 200-meter area surrounding the boat, and automated control technology that gives it the ability to navigate independently and avoid collisions without human input. It can also be equipped with a flexible range of weapons, acting as a firearms platform that uses gyroscopic self-balancing technology. It has the ability to survey beaches at a range of 15 kilometers, in addition to accurately identifying its precise location with a margin of error of less than 20 centimeters using differential GPS, as well as specifying, monitoring and tracking targets.
The Black Shark also has long-range radar that covers up to 150 kilometers, and a telecommunication system to track its location, monitor its status and connect to multiple domains through command centers that allow wireless communication and remote control. It is fitted with a digital camera powered by electro-optic and infrared technology that can produce HD-quality video, and also has night vision capability.
As part of its initiative to develop transport technology and logistics, KACST has also worked on automated control technology, included self-driving heavy-duty trucks, with the University of California, Berkeley. These trucks are equipped with electronic pairing technologies, which effectively improve the shipping and distributing of goods, reduce human error, preserve resources, and reduce harmful emissions and fuel consumption.
The same technology can also, for example, transform a four-wheel-drive vehicle into a remote-controlled vehicle equipped with video cameras, infrared technology, a microphone and a control device wirelessly connected to a command center, where an operator can guide it using images from the video cameras.