Lebanon’s Air Force to arm newly refurbished AB 212 helicopters

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  June 17, 2020 | International, Naval

  thyssenkrupp Marine Systems presents new modular underwater vehicle: MUM project to set new standard for unmanned underwater operations

  Kiel, Germany – June 15, 2020 - thyssenkrupp Marine Systems, Germany's number three defence company and world market leader in conventional submarines, today presented the results of a pioneering research project on the feasibility, usability, construction and operation of large modular underwater vehicles. The focus was on the MUM project "Modifiable Underwater Mothership", which is funded by the Federal Ministry for Economic Affairs and Energy and, designed in collaboration by industry and science since 2017, is intended to achieve market readiness in the upcoming years. The presentation was part of the "Maritime Research Programme" whereby the Federal Ministry for Economic Affairs and Energy supports the development of innovative maritime technologies. Norbert Brackmann, German government coordinator for the maritime industry, was on the shipyard site of thyssenkrupp Marine Systems to experience the progress of the project and the technological innovations already available for further implementation. Norbert Brackmann: "The MUM project fits in very well with our aspiration to technological leadership. The project results show that individual commitment, teamwork, creativity and German engineering skills are an excellent combination for maintaining our technological lead in future markets. Given the challenging economic situation triggered by the Covid-19 pandemic, innovations and the further development of high-tech will pave the way to a successful future. Therefore, we have included provisions in the recently adopted economic stimulus package to provide additional funds for supporting innovation and the Maritime Research Programme." MUM is a modular unmanned underwater system for various applications in the civil maritime industry. Examples include the transport and deployment of payloads, applications in the offshore wind and oil & gas industries as well as the exploration of sea areas with difficult access, such as the Arctic ice regions. In order to meet these requirements, a modular structure is envisaged. The system will use electrical power as the main energy source, by implementing a state-of-the-art, emission-free fuel cell. Where necessary, the power supply system is supported by a safe and reliable Li-ion battery module. Independent of wind and weather, MUM can operate 24/7, 365 days a year. Dr. Rolf Wirtz, CEO of thyssenkrupp Marine Systems: "We are the only systems supplier in Germany to offer high-tech solutions for the future. The MUM project will benefit from our many years of expertise in fuel cell and battery technology, underwater vehicles as well as maritime sensors and autonomy software. Our project partners from science and industry complement us to an extraordinary degree!" MUM is to set the new standard for unmanned underwater operations by 2024. Together with the project partners ATLAS ELEKTRONIK, EvoLogics, University of Rostock, TU Berlin, Fraunhofer Institute, German Aerospace Center the Institute for the Protection of Maritime Structures, thyssenkrupp Marine Systems will apply for funding for a MUM large-scale demonstrator as part of the Economic Ministry's Maritime Research Programme. About thyssenkrupp Marine Systems With around 6,000 employees, thyssenkrupp Marine Systems is one of the world's leading marine companies and a systems provider in submarine and surface shipbuilding as well as maritime electronics and security technology. Over 180 years of history and the constant pursuit of improvements are the basis for the company's success in constantly setting new standards. thyssenkrupp Marine Systems offers customized solutions for highly complex challenges in a changing world. The driving forces behind this are the employees of the company, who shape the future of thyssenkrupp Marine Systems with passion and commitment every day. More information at www.thyssenkrupp-marinesystems.com View source version on TKMS: https://www.thyssenkrupp-marinesystems.com/en/press-releases/d/uid-83d2fdf9-2be9-ff94-f057-680ff2ecf365.html

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  May 5, 2020 | International, Aerospace

  Top Royal Air Force representative to present at UAV Technology 2020

  SMi Reports: Royal Air Force's Wing Commander Judith Graham to brief on RPAS Capabilities at UAV Technology, this September. 05/04/20, 05:43 AM | Unmanned & Other Topics In recent news, the UK Royal Air Force is set to integrate the new Protector UAS, replacing the current Reaper models in service. As armed forces continue to invest in UAV developments, where remote combat UAS and ISR capabilities have solidified their importance to modern military operations, the RAF plans to acquire 16 Protectors by 2024.*With that said, SMi Group's 5th annual UAV Technology conference, reconvening on 28th and 29th September 2020 in London, UK and will further investigate RPAS capabilities. The 2020 event promises to provide a comprehensive overview of the latest wingmen programmes, long range ISR capabilities, regulation, counter-UAS technology and more. For Interested parties, there is an early bird saving of £300 for bookings made by 29th May. Register at http://www.uav-technology.org/robtomPR2 The Royal Air Force's Remotely Piloted Air Systems Programme Manager, Wing Commander Judith Graham will be providing an exclusive keynote presentation on ‘Transforming the Royal Air Force's RPAS Capabilities' covering: • Progress in delivering the Protector Remotely Piloted Air System to the Royal Air Force and testing the limits of the platform. • Advancing towards Airspace Integration and Certification. • Operational advantage of the Protector and how this will be leveraged in future operational planning, including Brimstone missiles, and upgraded sensor packages. • Looking further ahead: what part will the Protector play in future conflict both against near-peer and irregular adversaries. Delegates attending Europe's leading conference dedicated to UAV development will learn from high profile UK and international military speakers as they meet and share their insight and experiences with UAV technologies. For the full speakers and the programme, visit: http://www.uav-technology.org/robtomPR2 UAV Technology 28th - 29th September 2020 London, UK Sponsored by: AeroVironment, Fizoptika, Leonardo and Mynaric For sponsorship and exhibition queries please contact Justin Predescu jpredescu@smi-online.co.uk or call +44 (0) 20 7827 6130 For delegate queries please contact James Hitchen jhitchen@smi-online.co.uk or call +44(0)207 827 6054 For media queries please contact Carina Gozo at CGozo@smi-online.co.uk. *‘ RAF unveils deadly new Protector drone armed with ‘game-changing technology' (Express: August, 2019) https://www.express.co.uk/news/uk/1169075/raf-news-drone-protector-drone-high-tech-armed-surveillance-aircraft --END— About SMi Group: Established since 1993, the SMi Group is a global event-production company that specializes in Business-to-Business Conferences, Workshops, Masterclasses and online Communities. We create and deliver events in the Defence, Security, Energy, Utilities, Finance and Pharmaceutical industries. We pride ourselves on having access to the world's most forward thinking opinion leaders and visionaries, allowing us to bring our communities together to Learn, Engage, Share and Network. More information can be found at http://www.smi-online.co.uk https://www.roboticstomorrow.com/news/2020/05/04/top-royal-air-force-representative-to-present-at-uav-technology-2020/15214/

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  September 4, 2020 | International, C4ISR

  Harnessing Quantum Technologies at Room Temperature

  Quantum research in both information science and sensing shows great promise for enabling a host of new defense applications. A major hindrance to transitioning breakthroughs from the laboratory to practical use, however, is the extensive equipment needed to cool and trap atoms to exploit their quantum features. To address this challenge, DARPA has announced its Science of Atomic Vapors for New Technologies (SAVaNT) program. SAVaNT seeks to advance the performance of room-temperature atomic vapors to enable future opportunities for unprecedented combinations of low size, weight, and power (SWaP) with performance across multiple Department of Defense domains. “The SAVaNT program will explore a new suite of technologies based on room-temperature atomic vapors to address important gaps for military-relevant applications,” said Tatjana Curcic, program manager in DARPA's Defense Sciences Office. “We're interested in innovative research proposals that significantly advance the performance of atomic vapors for electric field sensing and imaging, magnetic field sensing, and quantum information science.” The program is focused on warm atomic vapors as opposed to cold-atom technology, which requires cooling atoms to very low temperatures with lasers to reduce thermal noise. This process has enabled the world's most accurate atomic clocks with unprecedented levels of timing precision. But the apparatuses needed to cool the atoms can fill up a laboratory, making laboratory atomic clocks impractical for field use. The warm atomic vapors approach, on the other hand, doesn't require complex laser-cooling and allows for a larger number of atoms, boosting the signal. The challenge, however, is that thermal environment effects – even at room temperature – significantly mitigate how long the quantum effects, or coherence, can last. SaVaNT researchers will demonstrate novel methods in three technical areas to overcome limitations due to thermal effects: Technical Area 1 seeks to develop a Rydberg sensor – which uses atoms to sense electric fields – that would provide ultra-narrow bandwidth, high-sensitivity electric field detection for millimeter waves. Technical Area 2 focuses on Vector Magnetometry to enable low-SWaP, room-temperature, quasi-DC magnetic field sensors. The third technical area will address vapor quantum electrodynamics to enable critical components for quantum networks at room temperature. Current methods require either cryogenics or laser cooling and trapping. A Proposers Day for interested proposers will be held virtually via webinar on Sept. 3. The Broad Agency Announcement (BAA) solicitation with full details is available here: https://go.usa.gov/xGr4C https://www.darpa.mil/news-events/2020-09-01a