Copenhagen, Denmark, October 12, 2023 – A.P. Moller – Maersk (London: 0O77) is embarking on a collaboration with Starlink, the pioneering satellite internet constellation developed by Space Exploration Technologies Corp., commonly referred to as SpaceX. SpaceX was founded in 2002 by Elon Musk of Tesla (Nasdaq: TSLA) fame.
Maersk, the global leader of integrated container logistics, will have Starlink installed on more than 330 own operated container vessels. This will enabling high-speed internet with speeds over 200 Mbps, service that is a leap forward in terms of internet speed and latency bringing significant benefits in terms of both crew welfare and business impact.
The agreement comes after a successful pilot phase where crew members on more than 30 Maersk vessels have had the opportunity to test the Starlink technology – resulting in very positive feedback.
Rolls-Royce (RR.L) will provide 70 of its mtu Series 4000 engines, produced in Yulin by MTU Yuchai Power, the Chinese Joint Venture with Yuchai Diesel, for use in generator sets that will be packaged and distributed by emergency power systems provider Hefei Calsion Electric System Co., Ltd. The gensets will be installed at multiple semiconductor manufacturing locations in China to ensure that chip production is not affected by power failures.
The rapid expansion of information technology applications such as artificial intelligence, cloud computing, big data and Internet of Things (IoT), has resulted in growing market demand for semiconductor products. In recent years, Chinese semiconductor enterprises have experienced a significant growth period due to the acceleration of domestic insourcing and the upgrade of industrial technologies.
The guarantee of continuous power supply is critical for semiconductor factories, as the manufacturing process is very sensitive. The products on the production line are at risk of being scrapped after even a few minutes of power disruption. The mtu engine-powered generator sets installed by Calsion will provide uninterrupted switching between diesel engines and grid power to deliver continuous loading capacity under high load conditions, helping to ensure the stable operation of production lines and special process systems such as safety, clean room, and cooling and pure water systems.
As the leader of semiconductor power system solutions, Hefei Calsion Electric System Co., Ltd. specializes in the R&D, manufacturing, marketing and services of generator sets, and has R&D centers, modern production bases and first-class test systems. Its original semiconductor power system solution has won a market share of more than 70% of the domestic semiconductor industry emergency power system solution-based projects in China. It is a strategic partner and designated OEM manufacturer of Rolls-Royce in China, as the two parties have maintained close cooperation for 18 years.
Toulouse, France February 9, 2022 – K5-Aviation has taken delivery of its first ACJ330-300 Airbus (OTC: EADSY) aircraft. K5-Aviation is the largest ACJ (Airbus Corporate Jets) operator in Europe with four ACJ319’s and one ACJ350-900 in its fleet.
Designed for highly-demanding VIP and private markets, the ACJ330-300 delivers top-end luxury, comfort and true nonstop range to the world. The ACJ330-300 aircraft will feature a 243m² VIP cabin, installed by Fokker Techniek, the outfitter selected by K5-Aviation. Onboard guests can experience ultimate comfort over 8,650 nm/16,000 km or up to 18.5 hours, enough to fly nonstop from Europe to Australia.
At the end of December 2021, Airbus’ A330 Family had won over 1,800 orders, making it the world’s most successful widebody aircraft. More than 210 Airbus corporate jets are in service worldwide, flying on every continent, including Antarctica, and more than 1,800 private and business aviation Airbus helicopters are in service worldwide.
Airbus (OTC: EADSY) space engineers have installed ESA’s European Robotic Arm (ERA) onto the Russian Multipurpose Laboratory Module (MLM) and it is now ready for its flight to the International Space Station (ISS). Together with this module, known as ‘Nauka’, ERA and its two control stations will launch from the Baikonur Cosmodrome, in Kazakhstan, on a Proton rocket.
After a one-week journey the European Robotic Arm will arrive at the ISS, where it will service the Russian segment of the space station. With a total length of 11.3 metres, the symmetrical, two-handed intelligent robot arm can ‘walk’ around the exterior of the ISS, hand-over-hand from one fixed base-point to another. ERA’s seven robust and accurate joints, the lightweight limbs and the control computer in the middle of the arm give the robot arm its versatility.
Astronauts and cosmonauts can control the European Robotic Arm in real-time or pre-programme it from inside or outside of the ISS, to make it move payloads, inspect the space station with its infrared cameras and to support operations outside the ISS. From its tip, the robot provides electrical power, a data bus, a video line and a rotating drive machine. By connecting a tool to the tip, ERA can be equipped for one of the many tasks it can perform automatically or semi-automatically. ERA has a lightweight construction but thanks to the zero-gravity conditions in space, it can move very large masses: from 3,000 kg routinely up to 8,000 kg in slow modus. The robot arm operates with an accuracy of 5 millimetres.
ERA has been developed for European Space Agency (ESA) by a European consortium, led by Airbus Defence and Space in the Netherlands. Airbus designed the arm and its software functions, managed the development of subsystems throughout Europe and integrated and tested the system. In the last few months Airbus has integrated ERA on the MLM, together with ESA and Russian partners RSC/Energia.
– New courses include helicopter specific eLearning courses for G1000H NXi
Garmin® International Inc., a unit of Garmin Ltd., is pleased to announce two new eLearning training courses for the G1000® NXi, as well as two separate eLearning courses for the G1000H NXi integrated flight deck for helicopters. These training courses are available in a virtual eLearning format allowing pilots to learn at their own pace, with the G1000 NXi Fundamentals eLearning Course providing a foundational understanding of the system, while the G1000 NXi Essentials eLearning Course is focused on systems installed in high-performance piston and turbine engine aircraft. The two comprehensive eLearning courses for the G1000H NXi integrated flight deck titled G1000H NXi Fundamentals, and G1000H NXi Advanced-IFR, use scenario-based training to highlight helicopter-specific operations and are tailored for pilots new to the G1000H NXi system, in addition to those with experience wanting a deeper understanding of the system.
Core training topics All four training courses build on a common core of training topics. These topics are common to all G1000 NXi and G1000H NXi systems but are tailored to the audience for each course. The topics include:
Primary Flight Display (PFD) and Multifunction Display (MFD) function
Audio Panel Features
Automatic Flight Control System
Hazard Avoidance Features
Safety Features
Abnormal Operations
Managing Databases
Operational Flight Scenario
Learn best-practices for G1000 NXi operational use
For those that are new to Garmin avionics, transitioning to advanced avionics, or perhaps want to refresh their understanding of the system, the G1000 NXi Fundamentals eLearning Course provides comprehensive training on the system designed for piston engine equipped aircraft. This course describes features of the system in detail and use a scenario to demonstrate how particular features function in different phases of flight in order to see this advanced system in action. In order to practice what you learned during this course, the Garmin G1000 NXi PC Trainer software is available for purchase online.
G1000 NXi for high-performance piston and turbine aircraft
For those operating high-performance piston or turbine-engine equipped aircraft, the G1000 NXi Essentials course presents best-practices for the G1000 NXi integrated flight deck by providing detailed training for pilots wanting to get the most out of the system. In addition to describing features in detail and showing how they can be used effectively in flight, scenario-based training demonstrates typical high-performance piston and turbine-engine aircraft operations, providing an opportunity to see the G1000 NXi system in full effect. For your specific or similar aircraft, the Garmin G1000 NXi PC Trainer software is available for purchase online, and provides the opportunity to take what you learned throughout the course and apply it. In addition to the core training topics, the G1000 NXi Essentials eLearning Course includes additional instruction on:
Vertical Navigation
Automatic Flight Control System
Advanced Features
User Waypoints
Managing Databases
Multiple Operational Flight Scenarios with different performance profiles
Build helicopter-specific system knowledge
The G1000H NXi Fundamentals course is designed for VFR helicopter pilots who are new to Garmin avionics, transitioning to advanced avionics, or perhaps want a refresher on the G1000H NXi. This allows the pilot to be comfortable with the avionics and maximize learning during valuable flight time. Learn how to take full advantage of the capabilities of the G1000H NXi system while gaining experience with operational use best practices. This virtual course allows pilots to learn at their own pace, details system features and provides a VFR flight scenario to show how these features are used in various phases of flight. Those that sign up for this course receive an additional scripted scenario for more practice through the Bell 407GXi G1000H NXi PC Trainer software, available for purchase online. The core training topics in the G1000H NXi Fundamentals eLearning Course have been tailored to helicopter-specific features and functionality, including differences for:
PFD and MFD function
Audio Panel Features
Hazard Avoidance Features
Operational Flight Scenario
Scenario-Based Exercise
Enhance IFR helicopter skills with G1000H NXi
The G1000H Advanced-IFR course provides a detailed look at the G1000H NXi system and illustrates best practices for operational use of the flight deck, with a focus on Instrument Flight Rules (IFR). The course uses phase of flight scenarios to demonstrate typical IFR helicopter operation, and depicts common practices to maximize the benefits of system features and capabilities. For helicopter pilots who fly search-and-rescue missions, emphasis on user waypoints are included in the course scenarios. Pilots can further practice what they learned throughout the course with one of the additional scripted scenarios provided for use with the purchase of the Bell 407GXi G1000H NXi PC Trainer software. Some helicopter-tailored training topics covered in the Advanced IFR eLearning Course include:
PFD and MFD function
Automatic Flight Control System
Hazard Avoidance Features
Advanced Features
User waypoints
Operational Flight Scenarios
Proceed through the course at a pace that works best
Available immediately after purchase using a computer or tablet device with internet access, pilots can navigate through the virtual course at their own pace. Assessments throughout the course validate knowledge obtained of critical items while documenting the learning process. With the ability to pause lessons as needed to return to the lesson later, this is a convenient option for any pilot. Also, pilots can retake specific lessons or even the entire course during the subscription period.
The G1000 NXi Fundamentals eLearning course is available now for $94.95 USD, and the G1000 NXi Essentials eLearning Course is now available for $145.95 USD. Also available is the G1000H NXi Fundamentals eLearning Course for $74.95 USD, as well as the G1000H NXi Advanced IFR eLearning Course is available for $94.95 USD. For aviation training needs, including purchasing one of these eLearning courses, please visit www.fly.garmin.com/training.
SpaceX’s Dragon capsule arrived at the International Space Station on March 9, 2020 and was docked at 3:25 a.m. PDT while flying over 262 statute miles over the Pacific Northwest. The spacecraft was then installed on the Harmony module for the duration of its four-week stay at the orbiting laboratory.
Filled with approximately 4,500 pounds of supplies and payloads, Dragon launched aboard a Falcon 9 rocket on March 6, 2020 from Cape Canaveral Air Force Station in Florida. The Dragon spacecraft that supported the CRS-20 mission previously supported the CRS-10 mission in February 2017 and the CRS-16 mission in December 2018. Dragon is the only spacecraft currently flying that’s capable of returning significant amounts of cargo to Earth.
Significant increase in reliability and ride comfort
The introduction of the new “FV-Dosto” double-deck long-distance train on the Swiss Federal Railways (SBB) route network is making significant and measurable progress. As the manufacturer Bombardier Transportation explained at its Swiss headquarters in Zurich, the reliability of the 25 trains available to the SBB has been increased by a factor of seven, and ride comfort has been substantially improved thanks to newly installed software. This and the train’s highly energy-efficient drive concept, also led to a significant improvement in punctuality on the routes operated with the FV-Dosto. With the help of software developed and adapted by Bombardier, it has been possible to reduce the previously noticeable vibrations, particularly in the upper decks of trains by up to 75 per cent, thereby substantially increasing ride comfort.
As Stéphane Wettstein, the Swiss Managing Director of Bombardier Transportation, explained, the technical reliability of the FV-Dosto trains used, once again significantly increased to 6,914 km of trouble-free operation in October. This corresponds to an improvement by a factor of seven over the last 11 months. Approximately 34 per cent of service disruptions are caused by operational and passenger-triggered incidents and accordingly affect the overall reliability of operations. Wettstein put the increase in the technical reliability of the trains down to the effectiveness of the agreed actions and the increasing mileage of the Dosto fleet, which has now covered a total of around 2.27 million kilometres. He is therefore confident that technical and operational reliability will continue to improve steadily. Since the timetable change in December 2018, around 75 per cent of the technical causes of disruptions have been eliminated.
Reliability and drive concept have a positive effect on punctuality
The greater reliability and increasing trouble-free availability of the trains also have a positive effect on the punctuality of the IR and IC services operated by the FV-Dosto. According to the surveys on the statistics website pünktlichkeit.ch, it is better in eastern Switzerland than in other parts of the country. This is not only due to higher reliability of the FV-Dosto trains, but also to their drive concept: unlike conventional trains, the FV-Dosto is not pulled or pushed by a locomotive, but driven by high energy-efficient and permanent magnet motors on the axles of the individual carriages. This allows long-distance trains to accelerate much faster, which positively contributes to timetable adherence.
Substantial improvement of ride comfort
In recent weeks, great progress has also been made in terms of ride comfort. With the new software installed in September 2019, it has been possible to eliminate the vibrations that used to be felt, mainly in the upper deck, to such an extent that some of them are now lower than in conventional double-deck trains. However, Stéphane Wettstein pointed out that, although Bombardier’s mechatronic bogies had been able to improve ride comfort, railway infrastructure, which also influences passengers’ level of comfort, has not gotten any better.
The technologically complex system for eliminating vibrations is based on stabilizing the carriage body in every driving situation, in such a way that the passenger feels less of the centrifugal forces in curves and changes of direction when passing over points than in conventional double-deck or tilting trains. While the ICN tilting train, which was also built by Bombardier as the consortium leader, tilts inwards in curves up to 7°, the FV-Dosto stays perpendicular to the track level. Together with the drive system and the pressure-tight carriage body, which prevents unpleasant pressure on the ears, especially when travelling through tunnels, this system is one of the major innovations of what is currently the world’s most modern long-distance train.
SBB already has 25 new trains
“The FV-Dosto is technologically a leading product in the industry in terms of its energy efficiency and the wide range of comfort it offers its passengers, even on a global scale – something Switzerland can be proud of, especially since important systems such as the traction or the bogies were developed in Switzerland and are largely manufactured in Switzerland,” says Swiss Managing Director of Bombardier Transportation Stéphane Wettstein.
Bombardier has now delivered a total of 25 of the FV-Dosto trains, which corresponds to SBB’s planning for the timetable change in 2019. By summer 2021, the entire fleet of (62) trains will have been delivered. The great public interest in the FV-Dosto has also prompted Bombardier to intensify communication regarding this high-tech train. The company has launched a website at swissdosto.ch which provides continually updated information on the introduction and operation of the train on the Swiss rail network.
Bombardier creates considerable value in Switzerland
Bombardier Transportation is one of the world’s largest manufacturers of public transport vehicles, mainly rail vehicles. The company is headquartered in Montreal, Canada and employs around 40,000 people around the world. More than 100,000 Bombardier vehicles are in service worldwide, carrying some 500 million passengers every day. In Switzerland, Bombardier’s roots go back some 120 years; many of the famous Swiss railway manufacturers from Secheron and MFO to BBC, ABB and Schindler Waggonbau to SLM have been combined under Bombardier over the decades. Today, around 870 employees work for Bombardier in Switzerland, 340 of them at the headquarters and global development centre in Zurich and 530 at the Villeneuve (VD) plant. Numerous Swiss suppliers are also involved in the development and production of the FV-Dosto, and their order volume accounts for around 50 per cent of the total external investment volume of CHF 600 million for the (62) ordered trains. After all, Bombardier is not only the supplier of FV-Dosto for SBB, but also of locomotives, technical services and the BOMBARDIERFLEXITYtram, which is already being used successfully in Geneva and Basel and the first of which will also be handed over to the Zurich public transport operator VBZ on November 15, 2019.
