Global Air Traffic Control (ATC) Training Market Analysis of Major Segments and Future Opportunity Assessment 2020-2026

The MarketWatch News Department was not involved in the creation of this content.

Aug 31, 2020 (Profound via COMTEX) —
The report provides rational insights along with historical and forecast data to aid in better understanding of the Global Air Traffic Control (ATC) Training Market. The report provides a comprehensive analysis of key factors that are expected to drive the growth of the Air Traffic Control (ATC) Training market. This study also provides a detailed overview of the opportunities along with the current trends observed in the target market.

The report includes thorough compilation of the quantitative analysis of the industry for the period of 10 years in order to assist players to grow in the market. Insights on specific revenue figures generated are also given in the report, along with projected revenue at the end of the forecast period. This study includes a widespread analysis of the key segments of the industry. This analysis sheds light in the current trends and opportunities in the global Air Traffic Control (ATC) Training market.

Download Sample – https://www.qyresearchmedical.com/sample/81826

Key Points of the Global Air Traffic Control (ATC) Training Market Report:

The report provides a basic overview of the Air Traffic Control (ATC) Training industry including its definition, applications, and manufacturing technology.

The report also explores the major international players in detail. In this part, the report presents the company profile, product specifications, capacity, and production value up tolsquo;2026 year’, along with the market shares for each company.

Through the statistical analysis, the study depicts the global market for Air Traffic Control (ATC) Training including capacity, production, production value, cost/profit, and supply/demand from an international perspective.

Considering segmentation, the market is divided in terms of product, end-use, company, region, and other important aspects. Each of these categories forms an important base point for

Understanding how viruses invade host cell protein-making machinery — ScienceDaily

Infectious viruses come in many shapes and sizes and use slightly different attack mechanisms to make humans and animals sick. But all viruses share something in common: They can only do damage by replicating inside the cells of another organism — their host.

This broad, fundamental process of how viruses trick host cells into making copies of the virus has had a team of Colorado State University scientists captivated for several years. A collaboration between the labs of Monfort Professor Tim Stasevich, in the Department of Biochemistry and Molecular Biology, and Associate Professor Brian Munsky, in the Department of Chemical and Biological Engineering, is on a mission to understand, in visual detail and with mathematical precision, all aspects of viral attack strategies, including how viruses invade host cell protein-making machinery. Their work, supported by grants from the National Institute of General Medicine and the W. M. Keck Foundation, could provide insight into predicting and fighting back against all manner of viral diseases.

For the first time ever, the team has shown an important mechanism in this host-attacking process, at the single-molecule level in living cells, and they have reproduced these behaviors in computational models. Their new experiments and models, published in Nature Structural and Molecular Biology, reveal in unprecedented detail how viruses initiate translation of genetic material into proteins.

Hijacking the host

Since viruses do not encode their own replication machinery, they hijack that of their host cells by stealing cellular machines called ribosomes, which are essential for making proteins from the genetic material found in RNA. Many viral genomes contain special RNA structures called Internal Ribosome Entry Sites, or IRES, that capture ribosomes from the host, forcing those ribosomes to make viral proteins.

Researchers know that when IRES-related RNA translation takes place, the virus has succeeded in commandeering the

Pair of massive baby stars swaddled in salty water vapor

Pair of massive baby stars swaddled in salty water vapor
ALMA composite image of a binary massive protostar IRAS 16547-4247. Different colors show the different distributions of dust particles (yellow), methyl cyanide (CH3CN, red), salt (NaCl, green), and hot water vapor (H2O, blue). Bottom insets are the close-up views of each components. Dust and methyl cyanide are distributed widely around the binary, whereas salt and water vapor are concentrated in the disk around each protostar. In the wide-field image, the jets from one of the protostars, seen as several dots in the above image, are shown in light blue. Credit: ALMA (ESO/NAOJ/NRAO), Tanaka et al.

Using the Atacama Large Millimeter/submillimeter Array (ALMA), astronomers spotted a pair of massive baby stars growing in salty cosmic soup. Each star is shrouded by a gaseous disk which includes molecules of sodium chloride, commonly known as table salt, and heated water vapor. Analyzing the radio emissions from the salt and water, the team found that the disks are counter rotating. This is the second detection of salt around massive young stars, promising that salt is an excellent marker to explore the immediate surroundings of giant baby stars.


There are stars of many different masses in the universe. Smaller ones only have one-tenth the mass of the sun, while larger ones have 10 times or more mass than the sun. Regardless of the mass, all stars are formed in cosmic clouds of gas and dust. Astronomers have eagerly studied the origins of stars, however, the process of massive star formation is still veiled. This is because the formation sites of massive stars are located farther from the Earth, and massive baby stars are surrounded by massive clouds with complicated structures. These two facts prevent astronomers from obtaining clear views of massive young stars and their formation sites.

A team of astronomers led by Kei Tanaka

Kia Motors reveals new K5 and Carnival at Auto China 2020

  • All-new K5 sedan combines striking new styling with driver-focused interior

  • Fourth-generation Carnival offers unrivalled space and comfort

  • Kia reveals new models as part of new brand direction in China

  • Interactive exhibits highlight Kia’s focus on advanced R&D, cutting-edge technology and high-octane motorsport competition in China

SEOUL, South Korea and BEIJING, Sept. 26, 2020 /CNW/ — Dongfeng Yueda Kia Motors Co. (DYK) is welcoming the start of a new era for the brand with the Chinese-market debut of the new Kia K5 and Kia Carnival at Auto China 2020 in Beijing.

Group Photo with Kia Carnival MPV
Group Photo with Kia Carnival MPV

Kia’s presence at the show highlights the wealth of research and development that has gone into the brand’s products, which aim to attract a young, trend-setting audience. This is matched by a highly experiential Auto China exhibition, allowing visitors to interact and engage with Kia’s latest vehicles and technologies.

“At Auto China 2020 we are revealing more about our mid- to long-term strategic vision, and showing the direction in which we are taking the Kia brand,” said Li Feng, General Manager for DYK. “Our latest models such as the K5 and Carnival will spearhead this evolution, with each providing stylish and high-tech mobility to trend-setting drivers. These are revealed alongside our high-performance China Touring Car Championship competitor, as well as unique displays designed to engage users with our cutting-edge ‘connected car’ and production technologies.”

Under its TECH (Turbo, Electrification, Connectivity, Hybrid) strategy, DYK plans to offer competitive new technologies and vehicles for the next 10 years. The strategy will also see DYK become a leader in the New Energy Vehicle (NEV) sector by 2030, with NEV sales set to account for 30 percent of DYK’s entire sales volume.

All-new Kia K5 signifies new brand direction

To demonstrate the ongoing transformation of

Facebook users in Illinois may qualify for a $400 settlement check

  • Illinois Facebook users may be eligible for up to $400 after a settlement was reached involving the website’s facial-tagging feature.
  • Facebook originally tried to settle for $550 million, but a judge bumped the number up to $650 million. 
  • In order to qualify, users must have lived in Illinois for six months and have a profile before 2017.
  • Visit Business Insider’s homepage for more stories.

Some Facebook users in Illinois are eligible for up to $400 after a settlement was reached involving Facebook’s tagging feature, according to the Chicago Sun Times.

In July, Reuters reported that Facebook agreed to pay $650 million after a lawsuit was filed alleging the company violated the state’s Biometric Information Privacy Act. The law states “[no] private entity may collect, store, or use biometric identifiers or information without providing prior notice to and obtaining a written release or consent from the subject,” according to Bloomberg Law.

This isn’t the first time that Facebook has received pushback for its facial-recognition feature. In 2019, Facebook began requiring users to opt-in to use their facial-recognition tool, after the FTC fined the tech giant $5 billion for its role in the the Cambridge Analytica privacy breech, as previously reported by Business Insider.

Facebook originally tried to settle the Illinois lawsuit for $550 million, but the judge presiding over the case rejected that offer, saying “I am not willing to let those companies off the hook in this case.” If the settlement had gone for $550 million, claimants would’ve only been eligible to receive $150 to $300, according to NPR.

In order to qualify for the settlement check, claimants must have lived in Illinois for six months and have a profile that “Facebook created and stored a face template after June 7, 2011,” according to the Chicago Sun Times.

Most checks