Videos Share on Facebook Share on Twitter Share on LinkedIn Youtube RSS Print Add this page to My Favorites Search Search Filter by Category Campus Academic programs Institute International Diversity program Research Companies Sustainable Development Innovation DEOS Alumni Doctorat DCAS Ingénieur DMSM Mastère Spécialisé DISC LACS Apprentissage Evénement DAEP Publication date 7 past days 30 past days 3 past months Past year Research 2:05 min 28 February 2023 Discover... ISAE-SUPAERO’s the “Autonomous Systems” Platform! 2:05 min Share on Facebook Share on Twitter Research 28 February 2023 Discover... ISAE-SUPAERO’s the “Autonomous Systems” Platform! ISAE-SUPAERO / SapienSapienS The “Autonomous Systems” Platform gathers the various tools and means, both software and robotics, provided by the DISC technical team to the researchers of ISAE-SUPAERO. This platform is composed of an evolution area of 10 × 10 × 4 m equipped with a motion capture system, where various mobile ground or air robots can move, as well as a dozen of development and control stations. This evolution area has a modular semi-urban environment that can be modified according to the different projects or tests to be carried out. The platform is used for the development of demonstrators allowing to highlight the various research projects of the ISAE-SUPAERO researchers, as well as for teaching through practical works which are carried out initially in simulation, then on the real robots. Research 2:03 min 27 February 2023 Discover... ISAE-SUPAERO’s land mobile robots! 2:03 min Share on Facebook Share on Twitter Research 27 February 2023 Discover... ISAE-SUPAERO’s land mobile robots! ISAE-SUPAERO / SapienSapienS ISAE-SUPAERO - as a center for training through #research, research training and innovation - has many research equipments used within its 6 research departments. Today, we present the land mobile robots! Whether robots, planes, cars, or even telephones, all of these technologies are equipped with perception systems. Depending on the application, these sources of information make it possible to perceive the environment in which a system evolves but also to measure its own characteristics, such as for example its velocity or its acceleration. This multitude of data must then be used, cross-referenced and interpreted within what is called the navigation system to obtain the positioning of the vehicle but also, in the case of mapping applications, that of the objects which surround it. Within the NAVIRRES (Navigation, Radar, and Remote Sensing) team of the DEOS, researchers are interested in navigation systems and their application in complex environments where sensor information can be degraded, erroneous or even unavailable. Thus, mobile acquisition platforms are developed, equipped with cameras, lidars, GNSS (Global Navigation Satellite System) receivers, radars and inertial measurement units, with the aim of obtaining the most efficient navigation system possible, according to the intended application. One of the research topics of the team concerns the analysis of the degradation of information from sensors, which leads to the development of new robust and adaptive algorithms, making it possible to overcome environmental constraints. The ultimate goal is to make navigation systems more precise and safer, for critical applications requiring strong reliability, such as autonomous cars or exploration robotics. Research 1:45 min 27 February 2023 Discover... ISAE-SUPAERO’S PRISE project! 1:45 min Share on Facebook Share on Twitter Research 27 February 2023 Discover... ISAE-SUPAERO’S PRISE project! ISAE-SUPAERO / SapienSapienS The PRISE project (Platform for Research and Engineering for Embedded Systems) was born in 2007 from an internal initiative at ISAE-SUPAERO to build a platform for research and engineering in the field of embedded systems. The PRISE room has been created to (1) provide a support environment for teaching on software-intensive embedded systems and (2) a test bench platform for research activities combining modeling, analysis and design of complex embedded systems as well as the integration of new functionalities (such as artificial intelligence algorithm embeddability). The PRISE platform integrates several prototypes and demonstrators such as the SMARTIES flight simulator combining an advanced simulation architecture (flight dynamics, sensors, motors, etc.) and a reproduction of an avionics system for flight control (auto-pilot, data fusion, ...) or FACTORING the prototype of a ring Ethernet network (as opposed to a classic star-type Ethernet network) allowing optimizations and implementations for new network architectures. Research 1:59 min 17 February 2023 Discover... ISAE-SUPAERO’s CMOS Image Sensors! 1:59 min Share on Facebook Share on Twitter Research 17 February 2023 Discover... ISAE-SUPAERO’s CMOS Image Sensors! ISAE-SUPAERO / SapienSapienS Nowadays, CMOS Image Sensors occupy an increasingly important place. Thus, our ISAE-SUPAERO team has been developing CMOS image sensors for several years with many players in the field, and innovates by proposing new architectures and conditions of use requiring studies relating to elementary components but also on more complex structures. Measurements are then performed on transistors, diodes with the help of a probe tester and a parametric analyzer, allowing very low current measurements (10 aA). Similarly, simple structures containing innovative pixels can be operated with the tester by means of probe cards coupled with a data generator specially designed for image sensors. All these studies make it possible to better understand the physics of photo-detection, but also to constitute models for our simulators. They are also used to follow the manufacturing processes during the various productions. Research 2:24 min 14 February 2023 Discover... ISAE-SUPAERO’s cryogenic electrical tests facilities! 2:24 min Share on Facebook Share on Twitter Research 14 February 2023 Discover... ISAE-SUPAERO’s cryogenic electrical tests facilities! ISAE-SUPAERO / SapienSapienS ISAE-SUPAERO - as a center for training through #research, research training and innovation - has many research equipments used within its 6 research departments. Today, we present the cryogenic electrical tests facilities! The ISAE-SUPAERO Image Sensor Research Group (CIMI) is studying sensors in the field of visible wavelengths but also for different spectral domains such as InfraRed (IR). The detection of these longer wavelengths (SWIR to LWIR) requires materials other than silicon for detection, associated with a silicon readout circuit for information processing, all operating at cryogenic temperature. In this context, ISAE-SUPAERO has developed electrical and electro-optical characterization setups operating at low temperature for microelectronic circuits in order to extract and model the behaviours and performances of these circuits. These characterization setups allow to address both very simple devices, such as transistors, as complex components (complete image sensor) up to 120 inputs/ outputs. Mastère Spécialisé 53 min 4 January 2023 Nouvelle traduction : Replay du webinaire du MS MGPIE 53 min Share on Facebook Share on Twitter Mastère Spécialisé 4 January 2023 Nouvelle traduction : Replay du webinaire du MS MGPIE ISAE-SUPAERO Présentation de l’ISAE-SUPAERO - Présentation du MS MGPIE - Partage d’expériences de 2 diplômées 2022, fondatrices de start-up - Session de questions/réponses Research 16 December 2022 Discover... ISAE-SUPAERO’s P68! Share on Facebook Share on Twitter Research 16 December 2022 Discover... ISAE-SUPAERO’s P68! ISAE-SUPAERO - as a center for training through #research, research training and innovation - has many research equipments used within its 6 research departments. Today, we present the P68 research aircraft! Since 2018, the ISAE-SUPAERO Air Operations Center has been equipped with a twin-engine Vulcanair P68 Observer 2 dedicated to teaching ISAE students flight mechanics, flight test techniques, and performing research projects. This aircraft has a telemetry system to track flight parameters in real-time from the campus’ classrooms. Multipurpose with a large payload, it can embark various sensors thanks to a hatch under the fuselage. It also has unique instrumentation for research activities and sensors for pilot monitoring (remote eye trackers, scene camera etc.) synchronized with the flight parameters. It allows to estimate pilots’ attentional and cognitive states (fatigue, distraction, inattention, engagement, etc.) in real time during the flight. International 16 December 2022 ISAE-SUPAERO & the Indian Institute of Space Science & Technology work on student space exploration projects Share on Facebook Share on Twitter International 16 December 2022 ISAE-SUPAERO & the Indian Institute of Space Science & Technology work on student space exploration projects We received the visit of Professor Shine S R from the Indian Institute of Space Science and Technology (IIST) on December 7 and 8. ISAE-SUPAERO signed in 2020 a co #cooperation agreement with the Indian Institute of Space Science and Technology, and this visit was a perfect opportunity to discuss the deepening of collaborations in #training and #research between our two institutions. ISAE-SUPAERO and IIST have already been cooperating for 4 years in the framework of Franco-Indian collaborative academic projects, involving ISAE-SUPAERO and IIST students on subjects related to space exploration missions and with the participation of experts from CNES, IRAP and the Indian space agency (ISRO)! Research 00:28 min 15 December 2022 SuperCam’s Microphone Records a Martian Dust Devil 00:28 min Share on Facebook Share on Twitter Research 15 December 2022 SuperCam’s Microphone Records a Martian Dust Devil NASA This video and audio show the results of NASA’s Perseverance Mars rover using its SuperCam microphone to record the sounds of a Martian dust devil – the first time any such recording has been made. The dust devil passed by on Sept. 27, 2021, the 215th Martian day, or sol, of the mission. The dust devil was estimated to be 82 feet (25 meters) wide, at least 387 feet (118 meters) tall, and moving at about 12 miles per hour (19 kilometers per hour). At the same time that SuperCam’s microphone recorded the dust devil, Perseverance’s weather sensors (measuring wind, pressure, temperature, and dust) and the Navigation camera (Navcam) were on. This allowed scientists to combine sound, image, and atmospheric data. The unique combination of these data, along with atmospheric modeling, allowed the researchers to estimate the dust devil’s dimensions. Capturing a passing dust devil takes some luck. Scientists can’t predict when they’ll pass by, so rovers like Perseverance and Curiosity routinely monitor in all directions for them. As scientists see them occur more frequently at a certain time of day, or approaching from a certain direction, they’ll focus their monitoring to try and catch a dust devil. The video included here shows three rows. The top row is a raw image taken by Navcam of the Martian surface; while the camera is capable of color, it takes black-and-white images when searching for dust devils to reduce the amount of data sent back to Earth (most of the images come back without a dust devil detected). The middle row shows the same image processed with change detection software to indicate where movement occurred as time passed by; color is used to show density of dust, going from blue (noise to low density dust) through purple to yellow. The last row is a graph showing a sudden drop in air pressure recorded by Perseverance’s weather sensor suite, called Mars Environmental Dynamics Analyzer, provided by Centro de Astrobiología (CAB) at the Instituto Nacional de Tecnica Aeroespacial in Madrid and the sound amplitude from SuperCam’s microphone. 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | ... | 15