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The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (N","id":1204,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"ames","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (N","id":1203,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/centers-and-facilities/ames/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1197,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"news_releases","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1189,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","source_name":"recently_published_content","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1205,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"ames","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1194,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"aeronautics","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1192,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"news_releases","item_type_label":"News Releases","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"news_releases","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Suzanne Cisneros","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2023/04/heic1006a-jpg.webp"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=982771|https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research ","id":1188,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"recently_published_content","item_type_label":"Recently Published Content","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:21:53","published_at_display":"9 Apr 2026, 21:21 GMT","source_name":"recently_published_content","source_type":"rss","summary":"WindShaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Ames Research Center","url":"https://www.nasa.gov/image-article/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/10/cropped-cropped-cisneros-portrait-10-25-23-smaller-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=982802|https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/|Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)|Thu, 09 Ap","id":1193,"image_url":"https://www.nasa.gov/wp-content/uploads/2023/07/windshaper-pic-2.png","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-04-09T21:54:19","published_at_display":"9 Apr 2026, 21:54 GMT","sequence_count":11,"sequence_count_label":"11 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames","news_releases","recently_published_content"],"source_name":"aeronautics","source_type":"rss","summary":"Windshaper A large WindShaper fan array is available for dynamic low-speed and hovering flight research. The WindShaper is ideal for generating arbitrary wind gradients and wind gusts via a simple Python API. A companion WindProbe is also available for quick surveys of flows. The WindProbe utilizes the lab\u2019s OptiTrack motion capture system to extract the","title":"Indoor Testing Facilities available at the NASA Unmanned Autonomy Research Complex (NUARC)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/indoor-testing-facilities-available-at-the-nasa-unmanned-autonomy-research-complex-nuarc/","video_url":null},{"author":"Dede Dinius","bundle_variants":[{"author":"Dede Dinius","downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/missions/tess/news/2026/exoplanets-by-stellar-eclipses/circumbinary_planet_AC.png?w=1024"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":424,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"aeronautics","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Dede Dinius","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":791,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"glenn","item_type_label":"Glenn","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"glenn","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Dede Dinius","downloadable_assets":["https://science.nasa.gov/wp-content/uploads/2026/05/zwan-wolf-mars-v4.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":782,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"armstrong","item_type_label":"Armstrong","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","source_name":"armstrong","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null}],"downloadable_assets":["https://assets.science.nasa.gov/dynamicimage/assets/science/missions/tess/news/2026/exoplanets-by-stellar-eclipses/circumbinary_planet_AC.png?w=1024"],"embed_url":null,"external_id":"https://www.nasa.gov/?post_type=image-article&p=977203|https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/|NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency|Tue, 24 Mar 2026 21:","id":424,"image_url":"https://images-assets.nasa.gov/image/AFRC2026-0025-18/AFRC2026-0025-18~large.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T21:49:35","published_at_display":"24 Mar 2026, 21:49 GMT","sequence_count":3,"sequence_count_label":"3 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","armstrong","glenn"],"source_name":"aeronautics","source_type":"rss","summary":"A NASA Pilatus PC-12 aircraft will now be based at NASA\u2019s Armstrong Flight Research Center in Edwards, California, in order to support flight research efforts across the agency. The PC-12 was acquired in 2022 by NASA\u2019s Glenn Research Center in Cleveland for use in advanced technology development. The PC-12 will continue to support research at","title":"NASA PC-12 Aircraft Makes Move to Support Flight Research Across Agency","topic":"Aeronautics","url":"https://www.nasa.gov/image-article/nasa-pc-12-aircraft-makes-move-to-support-flight-research-across-agency/","video_url":null},{"author":"Bailey G. Light","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/12/nasainsigniargb150px.png"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=973602|https://www.nasa.gov/aeronautics/nasa-selects-finalists-in-student-aircraft-maintenance-competition/|NASA Selects Finalists in Student Aircraft Maintenance Competition|Tue, 24 Mar 2026 20:30:00 +0000","id":425,"image_url":"https://www.nasa.gov/wp-content/uploads/2020/05/afrc2018-0287-158.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-24T20:30:00","published_at_display":"24 Mar 2026, 20:30 GMT","source_name":"aeronautics","source_type":"rss","summary":"Editor\u2019s note: This advisory was updated on March 31, 2026, to update the finalists list. NASA has selected eight student teams as finalists in the 2026 Gateways to Blue Skies Competition, giving them the resources to help address a critical challenge for U.S. aviation: aircraft maintenance. Challenges facing the commercial aviation industry include a shortage of qualified maintenance workers and increasing demands to keep complicated aircraft running","title":"NASA Selects Finalists in Student Aircraft Maintenance Competition","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/nasa-selects-finalists-in-student-aircraft-maintenance-competition/","video_url":null},{"author":"Lillian Gipson","bundle_variants":[{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":427,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","source_name":"aeronautics","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Lillian Gipson","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":776,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"ames","item_type_label":"Ames","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","source_name":"ames","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"}],"downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.jpg?w=1024","https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=975372|https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/|NASA Simulations Improve Artemis II Launch Environment|Fri, 20 Mar 2026 14:00:00 +0000","id":427,"image_url":"https://www.nasa.gov/wp-content/uploads/2026/03/sls-artemis-sim-frame-copy.jpg","is_active":true,"item_type":"story_bundle","item_type_label":"Story bundle","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-20T14:00:00","published_at_display":"20 Mar 2026, 14:00 GMT","sequence_count":2,"sequence_count_label":"2 variants","sequence_kind":"story_bundle","sequence_sources":["aeronautics","ames"],"source_name":"aeronautics","source_type":"rss","summary":"Airflow around rockets as they travel from Earth into space can have a dramatic impact on a mission, which is why NASA used advanced simulations to provide the best possible launch conditions for the Artemis II test flight around the Moon. To better understand the Artemis Space Launch System (SLS) rocket\u2019s flight environment, engineers turned to a NASA-developed tool called the Launch, Ascent, and Vehicle Aerodynamics","title":"NASA Simulations Improve Artemis II Launch Environment","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/artemis-sls-launch-sim/","video_url":"https://www.nasa.gov/wp-content/uploads/2024/11/08-degrendele-exh-liq-v04-4k-h265.mp4"},{"author":"Jim Banke","downloadable_assets":["https://www.nasa.gov/wp-content/uploads/2023/06/cropped-banke-press-300x300.jpg"],"embed_url":null,"external_id":"https://www.nasa.gov/?p=198369|https://www.nasa.gov/aeronautics/armd-solicitations/|ARMD Research Solicitations (Updated April 10)|Fri, 06 Mar 2026 22:00:00 +0000","id":1207,"image_url":"https://www.nasa.gov/wp-content/uploads/2024/06/aero-research-opp-072024.jpg","is_active":true,"item_type":"aeronautics","item_type_label":"Aeronautics","live_now":false,"live_status":null,"media_credit":null,"published_at":"2026-03-06T22:00:00","published_at_display":"6 Mar 2026, 22:00 GMT","source_name":"aeronautics","source_type":"rss","summary":"THIS PAGE WAS UPDATED ON APRIL 10, 2026 This Aeronautics Research Mission Directorate (ARMD) solicitations page compiles the opportunities to collaborate with NASA\u2019s aeronautical innovators and/or contribute to their research to enable new and improved air transportation systems. Most opportunities to participate in research are officially announced through the Web-based NASA Solicitation and Proposal Integrated","title":"ARMD Research Solicitations (Updated April 10)","topic":"Aeronautics","url":"https://www.nasa.gov/aeronautics/armd-solicitations/","video_url":null}],"next_num":null,"page":1,"pages":1,"per_page":20,"prev_num":null,"total":10}