Category Archives: Aerospace

Strategische uitbreiding met de officiële opening van het nieuwe Cyviz Experience Center in Benelux, Nederland

BENELUX, Nederland, 20-Sep-2023 — /EPR AEROSPACE NEWS/ — Cyviz, een toonaangevende leverancier van geavanceerde visualisatie- en samenwerkingsoplossingen met hoge prestaties, heeft in samenwerking met SPIE, een Europese leider op het gebied van multi technische diensten, een complete commando- en controlekameroplossing gebouwd die in staat is om informatie met meerdere classificaties te verwerken.

De opening toonde een totaaloplossing die volledig voldoet aan de Amerikaanse en NAVO Tempest Level B en zelfs een Level A-compliant videowall omvat. De volledig beveiligde oplossing bestaat uit de Cyviz Easy Controller voor het beheer van bronnen en lay-out, meerdere werkstations en een complete TEMPEST netwerkinfrastructuur die betrouwbare en veilige communicatie garandeert.

Espen Gylvik, CEO van Cyviz, zegt: “Cyviz is verheugd om samen te werken met onze partners bij SPIE om gebruik te maken van onze toonaangevende technologie voor dynamische commandocentra en controlekamers. In combinatie met de enorme marktpositie en reputatie van onze partners zal dit geweldige zakelijke mogelijkheden bieden.”

De oplossing is al geïnstalleerd in meerdere controlekamers om te voldoen aan de eisen van de klant. Het gecombineerde aanbod van Cyviz biedt optimaal situationeel bewustzijn voor controlekamers die te maken hebben met complexe en kritieke situaties.

Bij de officiële lancering zei Cyviz CCO, Anand Anupam: “Deze joint venture stelt Cyviz in staat om onze toonaangevende technologie te gebruiken om dynamische commando- en controlekamers van TEMPEST-kwaliteit te bouwen; dit is een geweldige aanvulling op ons productaanbod.

Deze verdere uitbreiding toont Cyviz betrokkenheid bij de regio en bij het helpen van organisaties om zich aan te passen aan het veranderende werklandschap.

SPIE Project Manager, Richard Jongejan, verklaarde: “Samen hebben SPIE en Cyviz hun krachten gebundeld om een hoge kwaliteit en eersteklas service te bieden, wat betekent dat we duurzame en toekomstbestendige oplossingen voor onze klanten hebben gecreëerd.”

Over Cyviz
Cyviz is een wereldwijde technologieleverancier voor uitgebreide conferentie- en controlekamers en commando- en experience centers. Sinds 1998 hebben we samenwerkingsruimten van een hoger niveau gecreëerd, die zorgen voor inclusieve vergaderervaringen voor zowel persoonlijke als externe deelnemers.

Cyviz bedient wereldwijde ondernemingen en overheden met de hoogste eisen voor bruikbaarheid, veiligheid en kwaliteit. De cross-platform ervaring die Cyviz biedt voor het beheren en controleren van systemen en middelen in de hele onderneming, maakt Cyviz de voorkeurskeuze voor klanten met complexe behoeften.

Ga voor meer informatie naar www.cyviz.com of bezoek een van onze Cyviz Experience Centers in Atlanta, Benelux, Dubai, Houston, Jakarta, Londen, Oslo, Riyad, Singapore, Stavanger of Washington DC.

Cyviz staat genoteerd op Euronext Growth op de beurs van Oslo (ticker: CYVIZ).

SOURCE: EuropaWire

Safeguarding Civil Airports: Advanced Anti-Drone Solutions by Bel Trading & Consulting Ltd.

WARSAW, Poland, 2023-Jul-21 — /EPR AEROSPACE NEWS/ — Bel Trading & Consulting Ltd has established itself as a highly successful enterprise specializing in the provision of top-notch drone security services for civil airports. In today’s aviation landscape, the vulnerability of civil aircraft during takeoff and landing is well-known, especially when facing potential collisions with small objects, particularly in the engine area. While aircraft are designed to withstand the impact of a few small birds, they are susceptible to significant damage from unauthorized launches of large birds or metallic electronic drones in close proximity to airports. Such incidents pose severe risks to flight safety, causing system failures, accidents, and endangering passengers. Larger cargo and agricultural drones present an even greater hazard, capable of inflicting substantial damage in the event of a collision with an aircraft. To counter these threats, Bel Trading & Consulting Ltd offers an array of methods to combat unauthorized drone flights in areas surrounding airports during critical phases of flight.

Bel Trading & Consulting Ltd deploys sophisticated drone suppression systems, acting as a crucial defense mechanism against unauthorized drones near airports. The company provides standalone solutions as well as cutting-edge technologies from global leaders in the field, ensuring comprehensive security for aircraft during takeoff and landing.

At the heart of Bel Trading & Consulting Ltd’s drone suppression systems are interference jammers, designed to disrupt communication between the drone operator and the drone itself. By severing this vital link, the drone’s effectiveness is nullified in areas close to takeoff and landing zones. Additionally, the company employs GPS positioning suppression systems, rendering the drones incapable of navigating within restricted airspace, further reducing the risks they pose to aircraft.

Bel Trading & Consulting Ltd goes beyond mere interference and offers diverse solutions for intercepting and neutralizing unauthorized drones. These measures enable the swift removal of drones from sensitive areas near airports, significantly reducing the likelihood of accidents and enhancing overall flight safety.

The company provides comprehensive design services, catering to the specific requirements of individual airports. With a strong focus on practical experience and expertise, Bel Trading & Consulting Ltd ensures seamless integration of the systems into existing airport infrastructure. The result is full automation with minimal operator intervention, maximizing equipment performance and reliability. Moreover, the company offers continued support for equipment procurement, installation, calibration, and maintenance, guaranteeing consistent and dependable functionality of the counter-drone systems.

Bel Trading & Consulting Ltd’s anti-drone solutions have undergone extensive testing, proving their efficacy and practicality in real-world situations. As a testament to their reliability, these systems are already operational in numerous airports across Asia and Europe. In today’s aviation landscape, the deployment of such protective counter-drone systems is indispensable for any large civil airport, serving as a critical preventive measure for ensuring the safety of aircraft during takeoff and landing.

In a constant pursuit of innovation, Bel Trading & Consulting Ltd is further enhancing its anti-drone system to address the emerging threat of low-flying civilian drones near airports and air bases. The company aims to develop a flexible and versatile system, combining multiple methods, including interference with drone radio and GPS signals, to effectively divert or block the movement of unauthorized drones.

Bel Trading & Consulting Ltd values collaborative efforts and is committed to meeting customer preferences. Whether it involves supplying or procuring equipment to counter unauthorized drone flights or engaging in joint development of automatic systems, the company welcomes various forms of cooperation. Customer requirements and preferences are given utmost priority during the design, installation, and configuration of the counter-drone system. Through seamless collaboration, Bel Trading & Consulting Ltd ensures efficient completion of tasks within the planned budgetary framework.

In conclusion, Bel Trading & Consulting Ltd is at the forefront of providing state-of-the-art drone security solutions for civil airports. With an extensive range of advanced technologies and comprehensive services, the company plays a pivotal role in safeguarding aircraft during critical phases of flight. By continuously innovating its systems and solutions, Bel Trading & Consulting Ltd remains a stalwart in the fight against unauthorized drone flights, making significant contributions to enhancing aviation safety and security.

Via EPR Network
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Cyber security firm BITSCore successfully tested software algorithms on a sub-orbital rocket launch

BRISBANE, Queensland, Australia, 17-Nov-2021 — /EPR AEROSPACE NEWS/ — Australian cyber security company BITSCore has successfully tested two sets of software algorithms on a sub-orbital rocket launched in Queensland, Australia, just a week after testing them on the International Space Station.

The software will help providers to upgrade onboard satellite cyber security as they join the 5G network, and allow satellite customers to request “ride-share” tasking from satellite operators.

BITSCore CEO Dr David Hyland-Wood said the advent of 5G had brought home to the satellite industry the need for new cybersecurity measures to help guarantee their security.

“5G has been a wake-up call for satellite operators everywhere, as they come to understand the need for making sure their satellites, some of which may have been in space for several years, need cyber security assurance,” Dr Hyland-Wood said.

“In recent weeks we did some preliminary tests on the International Space station (ISS), and now we have tested in the harsh environment of a rocket launch,” he said.

“We put the software on a board as physical payload and tested our communications, using internet protocols to exercise our authorisation system.”

This latest SONAR mission (‘Snakes on a Rocket’, named after its Python programming language) test confirms the technology has reached Technology Readiness Level 6 (TRL 6) – system prototype demonstration in a relevant environment.

Also tested in the Black Sky Aerospace rocket was an algorithm which will allow satellite customers to alert operators of task requirements, and operators to pick up those tasks in a ride-share arrangement.

The tasking might include earth observation, communications, navigation, surveillance or monitoring the weather.

The launch took place on one of Black Sky’s outback Queensland space launch sites. The flight reached speeds almost twice the speed of sound and altitude of almost 30,000 feet in about 10 seconds.

Dr Hyland-Wood said that following the successful ISS and rocket launch tests, the next step was to test them in a military exercise environment, followed by continued testing on the ISS.

BITSCore Pty Ltd (bits-core.com) is an Australian cybersecurity company providing unique and powerful distributed computing solutions utilising patented and patent-pending technologies. These include satellite command and control, provably secure data storage, and advanced command authorisation services. BITSCore is headquartered in Queensland and serves governments and corporations in countries allied with Australia.

SOURCE: EuropaWire

Neural Concept renews multiple-year collaboration and licence agreement with Airbus

LAUSANNE, 9-Sep-2021 — /EPR AEROSPACE NEWS/ — Neural Concept is pleased to have renewed a multiple-year collaboration and licence agreement with Airbus.

This collaboration aims at making the power of deep learning accessible to design engineers, for real-time simulation and interactive design optimization.

The two companies demonstrated an application of their technology to aircraft aerodynamics at the NeurIPS conference in 2019. The goal is now to increase the deployment of new design methodologies, based on Artificial Intelligence techniques. Airbus is aiming at accelerating and improving the engineering of next generation aircraft.

SOURCE: EuropaWire

Web app that monitors olive groves by relying on European satellite tech won the Farming by Satellite Prize 2020

LONDON, 17-Dec-2020 — /EPR AEROSPACE NEWS/ — The winners of the Farming by Satellite Prize 2020 were announced at the virtual Farming by Satellite Prize 2020 Awards Ceremony on Monday 30th November. The Prize promotes the use of Galileo, the European Global Navigation Satellite Systems, the European Geostationary Navigation Overlay Service (EGNOS), and Copernicus, the European Earth observation programme in European and African agriculture. The overall winner of €5,000 was team Graniot from Spain with their web application that uses European satellite technologies to help agronomists and farmers monitor their olive groves to reduce water waste and poor fertilisation practices.

Team Genuine received second prize for their web-based solution that identifies crop stress and the optimal tractor path for irrigation and fertilisation using Copernicus, EGNOS and Galileo, components of the European Space Programme. Third prize went to team AI4OceanFarming, who use satellite data to identify ocean farming threats such as harmful algal blooms (HABs), ocean acidification (OA), and invasive species. The Special Africa Prize went to GeoM&E for their solution that looks to monitor coffee diseases using European satellite technologies. The winners beat stiff competition from 40 other young people. Judges selected the best teams to take their ideas forward to the ‘Deep Dive’ phase, and then selected eight grand finalists to pitch their solutions during the final ‘live’ judging round.

The Farming by Satellite Prize is an initiative of the European GNSS Agency (GSA) and the European Environment Agency (EEA). It is supported by CLAAS, a leading manufacturer of agricultural engineering equipment. It aims to increase the usage of Galileo, EGNOS and Copernicus for European agriculture. The Prize also aims to grow awareness on the benefits the EU Space Programme provides toward fostering innovative and sustainable farming solutions. The objective of the Special Africa Prize is to encourage young Africans to develop satellite-based solutions that cater to the specific needs and resources of communities and lands in Africa.

Reviewing the winning entries this year, GSA judge Joaquín Reyes González said: “The innovation and wide variety of agriculture applications submitted by young innovators this year has been wonderful to see. It confirms the value of encouraging the next generation of farmers to explore the use of satellite technologies in agriculture to enable sustainable farming practices.”

Commenting on the environmental aspect of entries, Hans Dufourmont, judge for the European Environment Agency added: “The agricultural sector needs to continue developing sustainable food production activities and lessen their impact on the environment and climate. It’s great to see Galileo and Copernicus convincing young farmers to become tech savvy entrepreneurs and develop competitive yet sustainable agriculture.”

The last words go to the winners Pablo Romero Díaz and Manuel Castro Ruiz of Graniot, who stated: “We’re honoured to be chosen as winners for the Farming by Satellite Prize 2020. We will be putting the EUR 5,000 cash prize to good use developing our satellite crop monitoring web application further. The whole journey has been a great experience that would not have been possible without the support of UGREmprendedora and the Andalucia Agrotech DIH. We’ve learnt so much. We have been inspired by the feedback from the judges and have enjoyed seeing the entries from all the grand finalists during the awards ceremony.”

Contestants were tasked with creating a new sustainable and environmentally friendly agriculture solution using Galileo, EGNOS and/or Copernicus. Solutions had to demonstrate their novel approach to the use of satellite services for farming, while ensuring accurate technical feasibility and a maximal impact on the farming industry.

On behalf of the judging panel, Marcel Fölsch from CLAAS said about the winning idea: “Graniot have consistently presented a high-quality solution throughout all stages of this year’s competition. It is great to see their focus on olive farming in southern Europe, allowing them to narrow in on specific customer needs and present a compelling remote sensing solution to their users. We’re pleased to award the top prize to a team clearly driving the adoption of sustainable agriculture practises in Europe.”

Participation was open to young farmers, academics, and professionals between the ages of 18 and 32. They could take part as individuals or as a team of up to four. For the Special Africa Prize, at least one applicant was required to be a citizen of or resident in an African country.

Full details on the competition are available at www.farmingbysatellite.eu.

SOURCE: EuropaWire

LSPT to offer laser peening research & app development at ZAL Center of Applied Aeronautical Research in Hamburg

Dublin, OH, Aug-01-2017 — /EuropaWire/ — LSP Technologies (LSPT) is now filling its schedule for laser peening application development in Europe. This landmark opportunity coincides with the impending delivery of LSPT’s Procudo® 200 Laser Peening System to the ZAL Center of Applied Aeronautical Research (ZAL Zentrum für Angewandte Luftfahrtforschung) in Hamburg, Germany. Beginning in 2018, LSPT is making the Procudo® System available to European manufacturers for laser peening research and application development.

Key features of the Procudo® 200 Laser Peening System:

• Production-quality system engineered for high-volume laser peening
• Diode-pumped, pulsed YLF laser delivers high beam quality for consistent processing
• Fastest (20 Hz) and most powerful (200 W) pulsed laser peening equipment available in the world
• Real-time diagnostics and selectable beam parameters for comprehensive process control

“This is the first opportunity for many European manufacturers to access an industrial laser peening system for application and product development research,” said David Lahrman, VP of Business Development for LSPT. “We’re introducing a superior fatigue enhancement solution to the European market, and we’re excited to form new partnerships in pursuit of stronger, more reliable components.”

Laser shock peening (LSP) is a powerful metal improvement process that produces a 10X fatigue life enhancement over shot peening. LSP utilizes a high-energy pulsed laser to generate controlled stress waves that impart compressive residual stresses up to 12 mm beneath the material surface. Laser peening has been proven to significantly extend the service life of metal parts by providing enhanced resistance to common failure mechanisms:

• Fatigue Cracking
• Stress Corrosion Cracking
• Foreign Object Damage
• Fretting Fatigue
• Creep Deformation
• Erosion

Laser peening improves the performance and reliability of metal components, adding value to critical parts across a broad range of industries:

• Aviation and Aerospace – Engine components, turbine blades, bulkheads, wing attachments, landing gear, helicopter components
• Automotive – Axles, drive shafts, valve stems, connecting rods, pistons, impellers
• Medical – Orthopedic implants, replacement joints, spinal fixation devices
• Power Generation – Land-based turbine blades and components, nuclear containment vessels, wind turbine gears
• Manufacturing – Metal forming dies, machine tools

LSP Technologies’ newest laser peening facility will reside in the heart of the Hamburg Aviation Cluster at the ZAL Center of Applied Aeronautical Research. The ZAL TechCenter is one of the largest and most advanced aeronautical research facilities in the world, offering an innovative research space for collaborative development of emerging technologies.

Companies looking to improve the fatigue strength and performance capabilities of their parts should contact LSP Technologies regarding access to the Hamburg laser peening facility. Highly trained technicians will work alongside OEM researchers to develop custom applications addressing specific material performance issues.

LSP Technologies is the world’s premier laser peening services, technology and equipment provider, delivering proven metal enhancement solutions for more than twenty years. LSPT is the only company in the world selling, installing, and integrating laser peening systems into manufacturing and research facilities, and the company has been awarded more than fifty patents for innovations in laser peening equipment and technology.

SOURCE: EuropaWire

ZAL Zentrum für Angewandte Luftfahrtforschung to use laser peening system to study metal fatigue enhancement applications for the civil aviation

Dublin, Ohio, USA, Jun-14-2017 — /EuropaWire/ — LSP Technologies announces the sale of its state-of-the-art Procudo® 200 Laser Peening System to the ZAL Zentrum für Angewandte Luftfahrtforschung in Hamburg, Germany. The equipment is being delivered to the ZAL TechCenter in Hamburg during the 3rd quarter of 2017, and being used to study metal fatigue enhancement applications for the civil aviation industry.

“We are very excited to introduce the first production-quality commercial laser peening system into Europe,” said Dr. Jeff Dulaney, President and CEO of LSP Technologies, Inc. “Laser peening is becoming the aviation industry standard for increasing fatigue strength in titanium and steels, and LSPT’s Procudo® Laser Peening System is the most powerful and versatile machine available for component service life extension.”

Laser peening is a proven method for significantly increasing the fatigue life and fatigue strength of metals. The mechanical surface enhancement process utilizes a high-energy pulsed laser beam to impart compressive residual stresses up to twenty times deeper than shot peening. The compressive stresses introduced by laser peening add strength and robustness to metal parts by improving their resistance to damage, fatigue, crack initiation and crack propagation. Benefits of the process include: extended component service life, reduced maintenance and repair costs, improved part performance, and enhanced resistance to failure. The process has been employed for years by major aerospace OEMs including GE Aviation and Rolls Royce.

LSP Technologies’ Procudo® 200 Laser Peening System is the only commercially available laser designed exclusively for laser peening. It employs a diode-pumped, pulsed YLF laser that produces a flat-top beam for smooth energy distribution and consistent processing. The flexible system offers selectable laser parameters, along with custom controls and diagnostics developed from LSPT’s 20 years of laser peening experience. Engineered for high-volume production processing, the Procudo® Laser Peening System can deliver 20 pulses per second, making it the fastest laser peening system ever built.

The Hamburg Center of Applied Aeronautical Research was established in 2009 as a technological research and development hub for the Hamburg Aviation Network. It is a public-private partnership that not only includes collaboration from some of the aviation industry’s largest organizations, such as Lufthansa and Airbus, but also from suppliers, SME, universities, research institutions, start-ups and many more. The ZAL TechCenter opened in Hamburg in 2016, and the 95-million-euro facility immediately became one of the largest and most advanced aeronautical research facilities in the world.

LSP Technologies is the world’s premier laser peening services, technology and equipment provider. It is the only company in the world selling, installing, and integrating state-of-the-art laser peening systems into manufacturing and research facilities. The company has been providing laser peening production services for clients in the aviation and power generation industries for over twenty years, and has been awarded more than fifty patents for innovations in laser peening equipment and technology.

SOURCE: EuropaWire

Leading International Entrepreneur moves into Royal Circles

Toronto, Canada, 2016-Nov-19 — /EPR AEROSPACE NEWS/ — In January of 2016, and in Amman, Jordan, Edward Bayanoti, an international businessman with interests in Property, Real Estate and Defence married Her Royal Highness Princess Aisha bint Hussein, sister of King Abdullah II of Jordan and daughter of Princess Muna al-Hussein and King Hussein. The couple had been married in Canada since December 2015.

Her Royal Highness Princess Aisha bint Hussein is the sister in law of Sheikh Mohammed Bin Rashid Al Maktoum, ruler of Dubai.

Although dated for a while prior to the marriage, unfortunately the marriage did not work and so in July 2016, according to the Royal Hashemite Court, the couple divorced, while the divorce proceedings are still on going in Canada, but expected to be finalized sometime in 2017.

Edward Banayoti currently resides in Europe, mainly between the United Kingdom, France, and Switzerland. Edward Banayoti is known to be a trusted voice by so many heads of states, and many royal families.

Contact-Details: Mailbox@defenceunlimited.com

 

Via EPR Network
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QET Tech Aerospace Heavy Maintenance Facility Construction Well Under Way in CD Obregon, Sonora, Mexico

QET Tech Aerospace’s heavy maintenance facility construction is well underway. Construction material is arriving and the offices and warehouse in the city is being moved to the airport’s industrial park.

QET Tech Aerospace has just signed a lease agreement with the state of Sonora for a 5300 square foot building in the CEN airport industrial park.
The office will be used for engineering, planning and training for the new MRO. An office in CD Obregon is being kept to handle recruitment and other administration activities including the mailing address.

QET Tech Aerospace has just completed moving its warehouse from the city to the CEN airport industrial park. The New 12,400 square feet warehouse is being provided by the State run industrial park. It is used presently store inventory but will soon be transformed into a highly efficient shipping and receiving center which will include dedicated areas like, drop off, receiving inspection, storage, quarantine, picking and kitting, packing, create building and wood treatment area and shipping area.

Guadalajara based construction company Lonas Lorenzo has started to deliver the first construction material for the 52,500 sq ft wide body hangar in CD Obregon international airport which is scheduled to be completed this December. It is being pre-assembled in Guadalajara and then trucked to CEN airport where it will be erected. The hangar is a unique design where the completely enclosed wide body hangar can be moved to another site if necessary. “We plan to move the hangar into the industrial park off the airport. It is planned that the industrial park will become a duty free zone and the goal is to have the complete heavy maintenance facility located in the park” says Julio Cesar Alvarez, CEO of QET Tech Aerospace.

“The Sonora State government was very generous in offering their facilities to QET Tech Aerospace and is very much appreciated” says Mike Dornenburg, V.P Technical & Commercial Operations of QET Tech Aerospace.

QET Tech Aerospace is a Mexican company based in CD Obregon, Sonora Mexico. It provides services and products to the international aviation industry. For more information, please visit our web site.

Via EPR Network
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QET Tech Aerospace Newly Based Mexican MRO Goes to ILA Berlin Air Show 2012

At the invitation of ProMexico QET Tech Aerospace will be sharing a booth at the ILA Berlin Air Show starting September 11th.

“As a new start up heavy maintenance facility in Sonora Mexico, we are starting as a clean sheet and looking to the best experience that exist for equipment and processes that we can use to build on. To that end, we think the timing and calibre of the exhibitors at this show will help in our success. We strongly believe in engaging with other aviation professionals and keeping up with best practices and cutting-edge ideas in the aerospace industry. The ILA brings all of this together for us.

Anyone interested is partnering with a company in Mexico, has Boeing or Airbus tooling for sale, innovated service processes or software, setting up a component shop in Mexico, come visit me at booth 6220 in Hall 6” says Mike Dornenburg, V.P. Technical and Commercial Operations.

QET Tech Aerospace is a Mexican company based in CD Obregon, Sonora Mexico. It provides services and products to the international aviation industry. For more information, please visit our web site.

Via EPR Network
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QET Tech Aerospace to Launch New Heavy Maintenance MRO in Mexico

On 28-August 2012, during a corner stone ceremony to launch the hangar project, Guillermo Padrés Elías, governor of Sonora Mexico, expressed his support with $75.7 million pesos (aprox $5.8 MM USD) to locate QET Tech Aerospace in Obregon.

For the last four years QET Tech Aerospace S.A de C.V. has been involved in many different aviation opportunities and re-investing all the profits in growing the business. “We are very pleased to locate in Sonora which is part of our business plan we a carefully following from SH&E” says Mike Dornenburg V.P. Technical and Commercial Operations. Presently, the company operating certificate is for national aircraft. It is also the only company in Mexico which has DGAC (Mexican Aviation Authority) delegated authority to do third party for both maintenance and operation audits.

“In the medium term, we will increase our capacity by building more hangars for aircraft maintenance, component repair and painting. In addition to national certifications, these hangars will also be certified by the Civil Aviation Agencies in the United States of America and Europe.” says Julio Alvarez, CEO of QET Tech Aerospace. The first hangar is scheduled to be completed December 2012.

QET Tech Aerospace is a Mexican company based in CD Obregon, Sonora Mexico. It provides services and products to the international aviation industry. For more information, please visit our web site.

Via EPR Network
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Spaceflight and ISILaunch Team to Provide Global Spaceflight Services for Small Payloads

Spaceflight Services (Spaceflight) and Innovative Space Logistics BV (ISILaunch) announced today that they have teamed to create a global spaceflight services provider for small and secondary payloads.

Spaceflight and ISILaunch currently offer spaceflight services on a variety of orbital and suborbital vehicles for small and secondary payloads, with operations centered in the United States (US) and Europe respectively. Under this joint marketing agreement Spaceflight and ISILaunch will provide a global spaceflight service for the launch of small and secondary payloads by jointly marketing a combined set of products and services to prospective customers.

Spaceflight will be the lead organization for integrating prospective orbital and suborbital payloads flying on US launch vehicles and suborbital platforms. In addition, Spaceflight will be the primary interface for US companies that want to fly on non-US launch vehicles.

ISILaunch will be the lead organization for integrating prospective orbital and suborbital payloads flying on non-US launch vehicles and suborbital platforms, as well as be the primary interface for non-US customers that want to fly on US vehicles.

Jason Andrews, President and CEO of Spaceflight Services, said, “We are very pleased to team with ISILaunch Services and provide a global service offering. They are a demonstrated leader having contracted more than ten payloads in the past years and successfully launched four satellites in 2009.”

Abe Bonnema, Managing Director of ISILaunch Services, said, “By joining forces with SpaceFlight Spaceflight Services we have created the unique opportunity to connect the dots between the different customers and flight opportunities worldwide.”

Continued Andrews, “The commercial rideshare approach Spaceflight and ISILaunch offer provides truly revolutionary global space access at significant savings compared to purchasing a dedicated vehicle. For certain payload sizes this is an entirely new capability at a compelling price point.”

Spaceflight and ISILaunch are currently offering orbital flight opportunities to Low Earth Orbit starting in 2011 and flight opportunities to Geosynchronous Transfer Orbit and Low Lunar Orbit in 2014. For a full list of pricing for CubeSats, NanoSats, MicroSats and ESPA spacecraft, please visit Spaceflight Services at www.spaceflightservices.com or ISILaunch at www.isilaunch.com.

Via EPR Network
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International Astronautical Congress

The 61st International Astronautical Congress has been celebrated in Prague, CZ. In this congress, new advances in Aeronautics and Astronautics have been exposed. Doctor Gabriel Barceló´s paper has had special relevance in this congress. This paper: ON THE EQUIVALENCE PRINCIPLE relates to his investigation on field theory of Rotational Dynamics, which specifically applies to rigid rotating physical systems and which has numerous and significant scientific and technological applications. The achieved results allow us to obtain a new perspective in dynamics, unknown up to date, making it possible to turn given trajectories which, until now, have been considered as chaotic, into deterministic terms. After a deep analysis of the Equivalence Principle, the Spanish investigator, Doctor Barceló has come to the conclusion that there still exists an unstructured scientific area in the present general assumptions and, specifically, in the area of rigid bodies exposed to simultaneous non-coaxial rotations.

For this purpose, it is necessary to analyze the velocity and acceleration fields that are generated in the body, and assess new criteria in these speeds coupling. In this context, reactions and inertial fields take place, which cannot be justified by means of the classical mechanics.

Doctor Barceló briefly informed to assistants of the surprising results obtained, and expressed the interest towards the investigation of this new area of knowledge in rotational non-inertial dynamics, and of its multiple and remarkable scientific and technological applications.

Quite a number of examples can be thought of for checking the dynamic hypotheses proposed by Doctor Barceló, which would allow us to interpret many, still unexplained assumptions in nature, using the interactions which result from rotating the space of events.

An example of the theory is the feared roll coupling of the planes. It happens when a plane, which is flying a screw or any other kind of air acrobatics which implies, for example, a turn around its main inertia axe, starts a new steering manoeuvre with curved trajectory. According to the supported dynamic hypotheses, the non-homogeneous distribution of speeds, generated by the new non-coaxial rotation of the plane mass, couples to the field of translation speed, causing an unintentional deviation of the trajectory as well as a possible loss of the plane control.

Via EPR Network
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Physics Can Explain The Behaviour Of The South Africa World Cup Ball

The World Cup Ball And Its Astonishing Effects Can Be Easily Explained Through TheTheory Of Dynamic Interactions, Which Also Applies To The Flight Of The Boomerang.

The official World Cup ball, the so called “Jabulani”, which has been object of a lot of criticism due to its unpredictable path, will be studied by the FIFA and experts after the World Cup.

The “strange effects” in the behaviour of the official World Cup ball can be easily described through the physical theory proposed by the Spaniard Gabriel Barceló. For more than twenty years this Spanish PhD in Engineering has been explaining the deviation of a ball, the effect of tennis or ping-pong balls or the curved paths of golf balls through the Theory of Dynamic Interactions (TID). This physical theory describes the behaviour of bodies exposed to acceleration through rotation, from soccer balls to rotating heavenly bodies.

This theory enables an easy understanding of the path of the “Jabulani” and gives the reason for its possible changes, in the same way as this theory explains the typical flight of the boomerang or the rotation of galaxies in space.

Another Spanish engineer, Arturo Rodriguez, who cooperates with PhD Barceló on this investigation project, was the initial observer of the effects of the “Jabulani” and confirmed that it behaved according to the TID , based on the following reasoning: According to official or orthodox Physics, the reason for the effects which occur to the soccer ball (and which cause the change from rectilinear to circular path) is of aerodynamic origin, i.e. they arise from the interaction of the surface of a body (ball) with the environment (draughts). Usually this deviation of the ball is, erroneously, attributed to the so called “Magnus Effect”, without quantification and with insufficient scientific rigor.

But in fact the surface of the “Jabulani” is identical to that of any other soccer ball (shape, size, weight, material, roughness, etc …). What makes this ball different from others is only the internal structure, which in this case is made up of a layer of spherical rubber sectors instead of the homogeneous and continuous structure of traditional balls. Therefore there is every indication that it is this difference which causes a differentiated dynamic behaviour.

Summarizing, according to the analysis which derives from the “Magnus” effect this internal structure of the ball is of none importance, as orthodox Physics only takes into account the aerodynamic effects which are originated between the surface of the ball and the environment (air).

This clear contradiction proves that the physical-mathematical model which has been generally accepted up to date would not be correct. I have been analyzing this topic and have come to the conclusion that this phenomenon confirms the correctness of the Theory of Dynamic Interactions.

Already in 2005 PhD. Barceló published the book “El vuelo del Bumerán” (The flight of the Boomerang), where he explained the TID, later reiterating his arguments in the text “Un mundo en rotación” (A rotating World), published in 2008. In both books he analyzes rotating bodies and repeatedly insists on looking for new solutions to existing rotational questions related to the paths of spinning balls, as well as other similar astrophysical phenomena, or even its possible use in astronautics. This theory has been presented in various Physics and Mathematics Conferences and has been published in several journals.

After so many years, this ball could be the proof of the theory, because, at it is not homogeneous, internal torques will be originated due to the uneven effect of the weight of each sector of the ball, so that gravity will favour the existence of curved paths of the “Jabulani” ball. This theory could be used in the design of spinning or non spinning balls.

The theory of Dynamic Interactions (TID) can be looked up in Internet on:http://www.advanceddynamics.net/

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International Aircraft Sales Website Goes Mobile

International Aircraft Sales, Inc. (IAS), today announced that its website, ias.com, has been optimized for mobile devices.

Designed specifically for mobile platform, the IAS Mobile Website, ias.mobi, enables easy and intuitive navigation of pertinent IAS information, such as Aircraft for Sale Database, Dealers/Brokers Directory, Aircraft Finance Listing, Aircraft Insurance Listing and other relevant features.

“IAS customers will now be able to access our content on the move quickly and easily,” said Iannick Legare, Corporate Vice President at IAS. “To better serve our customers, we want to continually evolve our company by integrating to our website all new web technologies as they emerge. This new initiative further demonstrates our commitment to being a major reference in the online aircraft sales industry.”

The Gartner Group estimated that there will be three billion mobile subscribers in the world by 2010. This indicates that there will soon be more people around the world with access to mobilized content, than people with standard PC-based Web browsers.

The new site can be viewed from an XHTML browser at: http://ias.mobi or http://mobile.ias.com

More information about IAS mobile Website can be found at:
http://www.ias.com/en/mobile.aspx

About International Aircraft Sales, Inc.
International Aircraft Sales (IAS) is a complete online solution designed to connect worldwide aircraft buyers, sellers, dealers and brokers. Through its website, www.ias.com, IAS provides new and used aircraft for sale, lease, charter, and fractional ownership to companies and private individuals.

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Earth’s Magnetic Field Is Produced By An External Dynamo System, Not An Internal Dynamo

Researcher finds that Earth’s magnetic field is not produced by an internal dynamo. Nor is it produced by ocean current. The dynamo is outside the Planet! New findings by independent researcher, Dennis Brooks, show that Earth’s magnetic field and the planet itself are components of a complex dynamo system, which surrounds the planet. The planet and its magnetic field are part of the dynamo. According to this new theory, no internal dynamo or ocean current helps in producing or maintaining the magnetic field because other planets with magnetic fields do not have ocean currents or iron cores.

Image by NASA

Each planet does not have a unique way of producing its magnetic field. The magnetic field of each planet is produced by a planetary dynamo system and its ring current.

For many years researchers thought that a similar dynamo system was within the planet and that this internal dynamo generated the magnetic field. However, we know now that it is too hot inside the planet to produce and maintain a magnetic field there.

The planetary dynamo system is composed of a magnetosphere, the planet, the magnetic field, radiation belts, ring current, and charged particles from the solar wind. The planet is the central component of the system and its rotation plays an important part in operating the dynamo and generating ring current. The magnetic field is generated by the system’s ring current, which is made up of charged particles. The magnetic field captures even more charged particles and brings them into the dynamo system as fuel. Everything works together.

Earth’s inner and outer core simply cannot provide the fuel a dynamo system needs. If earth’s dynamo had to depend on energy from the planet for fuel, the entire planet would have been completely consumed many years ago.

To learn more about Earth’s magnetic field, Visit
http://sites.google.com/site/earthsmagneticfield/

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A2 Technologies Receives Research Contract From The Federal Aviation Administration (FAA)

A2 Technologies announces today that it has received a three year research contract from the Federal Aviation Administration to study the effectiveness of Fourier Transform Infrared Spectroscopy (FTIR) for determining damage to composite materials used in civilian aircraft applications.

The project will focus on three main tasks. A2 Technologies’ hand-held Exoscan FTIR system will be used to develop the methodology for determining, thermal, UV and chemical damage to composites. Once this is developed, it will be used to detect the full extent of damage in composite panels and to monitor and aid in bonding and repair processes. These methods will then be implemented to enable the Exoscan system to be used by qualified non-destructive evaluation personnel in field trials. Collaborating on this project with A2 Technologies is The Center for Composite Materials at the University of Delaware.

Jon Frattaroli, CEO of A2 Technologies states “We developed Exoscan as an easy-to-use, high performance, hand-held FTIR spectrometer in order to expand the use of this widely used analytical technique to non-laboratory applications. We are delighted that the FAA has seen the potential value of FTIR spectroscopy as a non-destructive analysis technology for use in aircraft manufacturing and maintenance. We are excited to work with our outstanding collaborators to prove the value of this technology.”

For more information, please contact Dr. Alan Rein, Vice President Business Development, A2 Technologies at 201-909-8824 or arein@a2technologies.com or visit www.a2technologies.com

About A2 Technologies
Headquartered in Danbury, Connecticut, A2 Technologies is taking FTIR spectroscopy out of the lab and into the field. A2 Technologies manufactures and develops portable FTIR spectrometers designed for the analytical needs of the petrochemical, environmental, transportation, mining and other general environments where there is a need for analysis. The portable FTIR analyzers extend the proven capabilities of Fourier Transform Infrared technology by rendering sample preparation obsolete and ensuring real time results. For further press information or images please contact Marketing Director Valerie Lopez at the A2 Technologies headquarters in Danbury Connecticut 203.312.1106 or e-mail vlopez@a2technologies.com

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A2 Technologies Have Entered Into A Patent License Agreement With The Boeing Company To Utilize The Patents In The Application Of A2’s Portable Exoscan FTIR Spectrometer

A2 Technologies today announced they have entered into a patent license with the Boeing Company allowing the use of Boeing patents in association with the development, manufacture and sale ofA2 Technologies’ FTIR Spectrometers. The license will permit A2 Technologiesto utilize the patents in the application of A2’s portable Exoscan FTIR spectrometer for non destructive testing of aerospace composite and metal materials. Examples of the applications include the use of the Exoscan for measuring the affect of excessive heat on the chemical structure and strength of composite material, and the ability to non-destructively analyze the effectiveness of certain surface treatments in composite and metal materials.

Exoscan is a high performance FTIR that puts a laboratory quality spectrometer, literally in the palm of one’s hand. With the addition of the Boeing patent licenses, A2 Technologies can now provide proven FTIR based analytical methods that will significantly increase the types of materials that can be analyzed in a variety of applications that are critical to aircraft manufacturing and maintenance.

Jon Frattaroli, CEO of A2 Technologies stated “we are excited to have entered into this licensing agreement with the Boeing Corporation. Boeing is clearly the leading US aircraft manufacturing company. They are also leaders in using FTIR spectroscopy in a wide range of aerospace applications, particularly related to composites and surface analysis. But it is the combination of A2’s Exoscan spectrometer and the Boeing patents that will finally enable methods traditionally carried out in laboratories to be deployed into aerospace manufacturing facilities and maintenance hangers.”

Headquartered in Danbury, Connecticut, A2 Technologies is taking FT-IR spectroscopy out of the lab and into the field. A2 Technologies manufacture and develops portable FT-IR spectrometers designed for the analysis requirements of the aerospace, petrochemical, environmental, metals and mining and other industries where there is a need for at-site, out-of-laboratory analysis.

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VEGA and Salamander to deliver a unified message of best practice to support the implementation of Through Life Capability Management (TLCM) for the UK MoD

 

VEGA Group PLC (VEGA), the specialist Professional Services Company, together with The Salamander Organisation (TSO), has delivered a unified message of best practice to support the implementation of Through Life Capability Management (TLCM) for the UK MoD at last year’s RUSI C4ISTAR Conference.

The conference concept, “Operational Requirements for the Next 5 Years” examines the issues facing the successful delivery UK C4ISTAR capability. The challenges include austere operational requirements, a finite defence budget and the implementation of Through Life Capability Management (TLCM) within the UK’s Defence Acquisition Change Programme. In such an environment, the ability to make the informed acquisition decisions is paramount if the most effective military capability is to be acquired for the frontline commands.

VEGA Government & Defence Director, Peter Armstrong and TSO Chief Technology Officer, Dick Whittington will jointly present to the main conference. They will deliver a presentation proposing how the two companies, in conjunction with Defence Prime BAE Systems, can enable the MoD’s C4ISTAR acquisition stakeholders to understand and visualise the true value of the future C4ISTAR capability portfolio, across all Defence Lines of Development. VEGA and TSO are confident that their solution will reduce the workload of those charged with making difficult procurement decisions and instill confidence that that these decisions will deliver the comprehensive C4ISTAR capability as demanded by the Front Line Commands.

VEGA supports the C4ISTAR community in the specification, acquisition, security, integration and deployment of through-life, network-enabled capability, to ensure that it delivers the operational benefits for which it is intended. The company is a main sponsor of the RUSI C4ISTAR conference which takes place at the Five Lakes Resort, Maldon, Essex, on 17 and 18 October (held in 2007). VEGA and TSO will be speaking on the conference alongside C4ISTAR stakeholders including: Deputy Chief of Defence Staff, Lt Gen Andrew Figgures CBE; Capability Manager (Information Superiority), AVM Stu Butler; Director Equipment Capability (Command, Control, and Information Infrastructure), Brig Simon Shadbolt; and Director Equipment Capability (Intelligence, Surveillance, Target Acquisition and Reconnaissance), Air Cmdre ‘Flash’ Gordon.

About VEGA Group:
VEGA is a specialist professional services company. It provides independent consulting, technology and managed solutions, based on 30 years experience of specialist market and technological domains. This enables VEGA to offer independent expert advice and pragmatic support services in the effective implementation of business strategy. In doing so, VEGA helps its clients to identify business value, manage risk and realise higher levels of success from their programmes and projects.

VEGA’s principal markets are Aerospace, Defence and Government. Its key geographies are the UK, Germany, Holland, France and Spain.

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Qspeed Semiconductor is introducing its Q-Series family of low Qrr, high softness factor, boost converter rectifier diodes

Qspeed Semiconductor, a designer and manufacturer of innovative, energy-saving power semiconductor devices, today introduced its Q-Series rectifier family. The new family of devices was designed specifically for use in power factor correction (PFC) circuits that deliver from 200 to 1000 W of power. Replacing anultrafast diode with a Q-Series device typically realizes efficiency improvements of 0.5 to 1.5% in the boost converter stage, which are similar to those obtained by using exotic Silicon Carbide diodes. Developed using Qspeed’s proprietary technology, the Q-Series family of devices has the lowest reverse-recovery-charge (QRR) and the best softness factor of any high-speed silicon rectifiers currently available on the market.

“Power supply designers no longer have to work around inferior diodes or use expensive Silicon Carbide devices,” said Michael T. Robinson, CEO of Qspeed Semiconductor. “Our Q-Series rectifiers make it easy to improve the efficiency of PFC boost converters and lower MOSFET operating temperatures while minimizing EMI generation, all without the use of snubbers and clamps.”

The Q-Series product family consists of three devices, which are rated to deliver continuous forward current values of 3, 5 and 8 A respectively. The 3 A device (LQA03TC600) would typically be used in boost converter stages that deliver from 200 to 400 W of continuous output power. The 5 A device (LQA05TC600) would find its home in converters that deliver from 400 to 700 W, while the zone for the 8 A device (LQA08TC600) is from about 700 to 1000 W.

“Until now, engineers looking to improve the operating efficiency of their AC-DC power supplies had to resort to using costly, Silicon Carbide diodes,” said Richard Francis, Qspeed’s Chief Technology Officer. “With the lowest reverse recovery charge and the best turn-off softness factor of any commercially available silicon rectifier, the Q-Series parts are being adopted faster than any new power semiconductor I have ever seen.”

Pricing and Availability:
All three members of the Q-series family are currently available in high-volume production quantities. The 3 A LQA03TC600 sells for 78 cents each, in fifty-thousand-piece quantities. The 5 A LQA05TC600 is going for 88 cents each, in 50,000 piece lots. The 8 A LQA08TC600 is selling for only 1.08 U.S. dollars each, in 50 k piece orders.

About Qspeed Semiconductor:
Qspeed Semiconductor designs, manufactures and sells innovative, highly-efficient, energy-saving, power semiconductor devices. Presently, the company is focused on the active components currently used in offline power conversion equipment. Headquartered in Santa Clara, California, the company has manufacturing, testing, sales and logistics facilities located in Japan, Taiwan and Manila.

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