South Korea selects the Embraer C-390 Millennium

On the same subject

• 

  September 18, 2020 | International, C4ISR

  Space Force issues $298M contract for new anti-jamming satellite design

  Nathan Strout Northrop Grumman was awarded a $298 million rapid-prototyping contract to design a new anti-jamming communications satellite payload for the U.S. Space Force, the Space and Missile Systems Center announced Sept. 16. Under the contract, Northrop Grumman will build a payload for the Evolved Strategic SATCOM (ESS) program, a next generation constellation that will provide secure, jam-resistant, survivable communications for military leadership all over the world. The new system will be interoperable with the Advanced Extremely High Frequency satellites currently on orbit. The Space Force wants ESS to have enhanced resilience and cybersecurity capabilities. And unlike AEHF, the new satellites will have polar components to provide communications over the Arctic. Currently, the Enhanced Polar System satellites are used to extend the AEHF network to the polar regions. The Space and Missile Systems Center could award up to three rapid-prototyping contracts in 2020, according to the Space Force's fiscal 2021 budget request, before selecting a final contractor to build out the constellation. It's not immediately clear how many ESS payloads would be in the constellation, or what satellites they'll be hosted on. “Northrop Grumman looks forward to building on more than 40 years of successfully delivering protected satellite communications solutions to our customers,” said Cyrus Dhalla, vice president, communications systems, Northrop Grumman. “ESS is critical to extending our nation's secure satellite communications infrastructure, as it will provide strategic users with assured, uninterruptable connectivity without fear of discovery anywhere on the globe.” Work is expected to be completed May 2025. https://www.c4isrnet.com/battlefield-tech/c2-comms/2020/09/17/space-force-issues-298-million-contract-for-new-anti-jamming-satellite-design/

• 

  February 28, 2020 | International, Aerospace, Land

  Robots Autonomously Navigate Underground in DARPA Challenge

  Whether robots are exploring caves on other planets or disaster areas here on Earth, autonomy enables them to navigate extreme environments without human guidance or access to GPS. The Subterranean Challenge, or SubT, is testing this kind of cutting-edge technology. Sponsored by the Defense Advanced Research Projects Agency (DARPA), the contest concluded its second circuit on Wednesday, Feb. 27. Taking first in the competition was CoSTAR, a 12-robot, 60-person team led by NASA's Jet Propulsion Laboratory (there were also winners declared for a separate, virtual competition). SubT is divided into four circuits spread over three years. With each, teams program their robots to navigate a complex underground course. The first contest, held last August, took place in a mine. For the most recent, called the Urban Circuit, teams raced against one another in an unfinished power plant in Elma, Washington. Each team's robots searched for a set of 20 predetermined objects, earning a point for each find. For the Urban Circuit, CoSTAR earned 16 points; the No. 2 team, with 11 points, was Explorer, led by Carnegie Mellon University. "The goal is to develop software for our robots that lets them decide how to proceed as they face new surprises," said CoSTAR's team lead Ali Agha of JPL. "These robots are highly autonomous and for the most part make decisions without human intervention." CoSTAR, which stands for Collaborative SubTerranean Autonomous Robots, brought machines that can roll, walk or fly, depending on what they encounter. Along the way, the bots have to map the environment and find objects like a warm mannequin that simulates a disaster survivor or a lost cellphone with a Wi-Fi signal. This particular course, which aims to simulate an urban environment, also included a carbon dioxide leak and a warm air vent. Joining the team for the Urban Circuit was a four-legged robot called Spot, which was provided by Boston Dynamics. "One of the two courses we had to run had multiple levels, so it was great that the Boston Dynamics robots were fantastic on stairs," says Joel Burdick, a Caltech professor and JPL research scientist. He is the leader of the Caltech campus section of the CoSTAR team. As the bots explore, they send back video and digital maps to a single human supervisor, who they remained in radio contact with for the first 100 feet (30 meters) or so of the course. They can extend that range by dropping communications nodes, a kind of wireless repeater. Once out of contact, it's up to each robot to decide whether to proceed or backtrack in order to update the team. Each must also rely on fellow robots to access different levels of the course. For example, a wheeled robot might request a quadrupedal one to climb or descend a flight of stairs. "These courses are very, very challenging, and most of the difficulty lies in communicating with the robots after they've gone out of range," Agha said. "That's critical for NASA: We want to send robots into caves on the Moon or Mars, where they have to explore on their own." Mapping caves on the Moon or Mars could identify good shelters for future astronauts. Moreover, if it exists at all, microbial life has a better chance of survival under the surface of Mars or within the icy seas of planetary moons, like Europa, Enceladus and Titan. NASA wants to search for life in these regions, where robots would be frequently out of contact. The next circuit in the Subterranean Challenge will be set in an undisclosed natural cave network this August. A final circuit that blends tunnels, urban environments and natural caves will take place in August of 2021. Teams competing in that final event have the opportunity to win up to $2 million in funding from DARPA. CoSTAR, includes JPL; Caltech, which manages JPL for NASA; MIT; KAIST (Korea Advanced Institute of Science and Technology); Sweden's Lulea University of Technology; and industry partners. News Media Contact Andrew Good Jet Propulsion Laboratory, Pasadena, Calif. 818-393-2433 andrew.c.good@jpl.nasa.gov 2020-041 https://www.jpl.nasa.gov/news/news.php?release=2020-041&rn=news.xml&rst=7607

• 

  September 4, 2019 | International, Aerospace

  Nouvelle version du Black Eagle 50

  Steadicopter présente une nouvelle version de son drone Black Eagle 50. A l'occasion du salon DSEI, l'entreprise israélienne Steadicopter présentera une version modernisée du Black Eagle 50. Cet aéronef correspond à un drone VTOL (à décollage et atterrissage vertical), capable de mener des missions civiles et militaires. Il a principalement été mis au point pour la conduite d'opérations ISTAR (renseignement, surveillance, acquisition de cible, reconnaissance). La nouvelle version du Black Eagle 50 repose sur deux nouveautés majeures. D'une part, l'aéronef a été équipé d'un système de navigation inertielle, lui permettant de se déplacer sans accès au signal GPS et de calculer les coordonnées de l'appareil en permanence. Deuxième grosse amélioration apportée au Black Eagle 50, l'appareil a été modifié afin de pouvoir conduire des missions en environnement naval, voire même d'être embarqué à bord d'un b'timent. Le Black Eagle 50 peut ainsi désormais conduire des missions sur terre et en mer. Son endurance, comprise entre 3 et 4 heures, et sa portée, pouvant atteindre les 150 km, lui permettent ainsi de couvrir de large périmètre à chaque mission. Equipé de capteurs permettant de conduire des missions en environnement diurne et nocturne, le Black Eagle 50 peut emporter une charge utile allant jusqu'à 5 kilos, pour une masse à vide de 27 kilos. Sa masse maximale au décollage est de 35 kilos. Par Justine BOQUET http://www.apps-drones.com/nouvelle-version-du-black-eagle-50-126255