U.S. Treasury Sanctions 12 Kaspersky Executives Amid Software Ban

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  October 28, 2024 | International, C4ISR, Security

  Chinese Hackers Use CloudScout Toolset to Steal Session Cookies from Cloud Services

  Evasive Panda targets Taiwan with CloudScout malware, enabling data theft from cloud services.

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  September 10, 2020 | International, Aerospace, C4ISR

  Pentagon to pit AI against human pilots in live fighter trials

  Aaron Mehta and Andrew Eversden WASHINGTON — U.S. Defense Secretary Mark Esper announced Wednesday that the Pentagon intends to conduct live trials pitting tactical aircraft controlled by artificial intelligence against human pilots in 2024. The announcement comes three weeks after an AI algorithm defeated a human pilot in a simulated dogfight between F-16s, something Esper described as an example of the “tectonic impact of machine learning” for the Defense Department's future. “The AI agent's resounding victory demonstrated the ability of advanced algorithms to outperform humans in virtual dogfights. These simulations will culminate in a real-world competition involving full-scale tactical aircraft in 2024,” Esper said in prepared remarks delivered to the department's Artificial Intelligence Symposium. The Aug. 20 test was the finale of the Pentagon research agency's AI air combat competition. The algorithm, developed by Heron Systems, easily defeated the fighter pilot in all five rounds that capped off a yearlong competition hosted by the Defense Advanced Research Projects Agency. Heron's AI system gained notoriety throughout the competition for its aggressiveness and the accuracy of its shot. But the system wasn't perfect. Heron often made an error in basic fighter maneuvers by turning away from enemy aircraft to where the AI thought the other aircraft would go. It was then unable to recover throughout the fights. “There are a lot caveats and disclaimers to add in here,” Col. Dan Javorsek, program manager in DARPA's Strategic Technology Office, said after the test, including that the AI had significant information that might not be available in an actual combat scenario. Military officials have long eyed the potential for AI to control aircraft, whether as part of a “loyal wingman” setup where a number of systems are controlled by one pilot, or through taking existing systems and making them optionally manned. https://www.c4isrnet.com/artificial-intelligence/2020/09/09/dod-to-pit-ai-vs-human-pilots-in-live-fighter-trials-by-2024/

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  September 8, 2020 | International, Aerospace

  GA-ASI and SENER Aeroespacial Team to Develop New NATO Pod for MQ-9

  Since General Atomics Aeronautical Systems, Inc. (GA-ASI) and the engineering and technology firm SENER began collaborating in 2008, the international partnership has resulted in significant agreements regarding the MQ-9A Remotely Piloted Aircraft (RPA) for Spain and its adaptation to the requirements of the Spanish Armed Forces. The latest joint development effort is a NATO Pod, designed and built by SENER Aeroespacial, part of the SENER Group. GA-ASI will integrate the NATO Pod onto the MQ-9 aircraft line to increase its configuration and payload options. NATO Pod development is driven by GA-ASI's initiative to provide customers with a customizable pod for carriage of sovereign, cross-domain Intelligence, Surveillance and Reconnaissance (ISR) sensors that can be integrated onto GA-ASI-built MQ-9A and MQ-9B RPA Systems. GA-ASI is working with European suppliers to add sensor capabilities to the new European-built payload pod that meets NATO airworthiness standards. The NATO Pod is a flexible, scalable, certifiable, aerodynamic and low-cost enclosure that enables customers to add sovereign sensor capabilities developed in their respective countries using a common set of interfaces to the aircraft system. This approach reduces integration time and cost. “With the NATO Pod, European sensor suppliers will be provided a standard Size, Weight and Power (SWAP) and Interface Control Document (ICD) to the aircraft system to efficiently integrate their payloads. This offers our customers a broader range of ISR capabilities and makes ISR-system upgrades faster,” said Linden Blue, CEO, GA-ASI. “Interface standardization also allows sovereign containment of payload hardware and data by customers, when required.” Andrés Sendagorta, president of the SENER Group, said: “Since the beginning in 2008, the relationship between GA-ASI and SENER has been based on the existence of a common corporate philosophy where the technological component represents a fundamental link. This has led to an alliance in which the development of value-added products and technology by SENER has been applied to meet the demanding needs of GA-ASI over the years and, particularly, now with the NATO Pod that will be integrated onto the MQ-9 line. As we have stated on previous occasions, and once the first system of this type has come into operation in Spain, SENER reiterates its commitment to make available to the Spanish Ministry of Defense its capabilities and strengths in support of national industry through alliances, industrial cooperation and the development of an increasingly wide range of products.” Having successfully completed the system definition and specification phase, the conceptual and preliminary design phases, as well as the Critical Design Review at the beginning of the summer, SENER Aeroespacial is currently working for GA-ASI on the detailed design phase of the NATO Pod. SENER Aeroespacial is designing the NATO Pod from the ground up to be certifiable having established a wide set of certification base requirements that will fulfill the vast majority of demands from European certification agencies. Source: General Atomics Date: Sep 7, 2020 https://www.asdnews.com/news/defense/2020/09/07/gaasi-sener-aeroespacial-team-develop-new-nato-pod-mq9