Starlink G12-4 Pre-LaunchDerived from a pre-launch Starlink-G12-4 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2025-01-13 15:08:40 UTC. Deploy: 2025-01-13 16:13:56.640 UTC.Launch window: 2025-01-13 15:08:40 UTC to 2025-01-13 15:09:29 UTC. Backup Launch Opportunity #1 Launch: 2025-01-13 15:50:40 UTC. Deploy: 2025-01-13 16:55:56.640 UTC.Launch window: 2025-01-13 15:50:40 UTC to 2025-01-13 15:53:29 UTC. Backup Launch Opportunity #2 Launch: 2025-01-13 15:59:00 UTC. Deploy: 2025-01-13 17:04:16.640 UTC.Launch window: 2025-01-13 15:59:00 UTC to 2025-01-13 16:00:59 UTC. Backup Launch Opportunity #3 Launch: 2025-01-13 16:43:10 UTC. Deploy: 2025-01-13 17:48:26.640 UTC.Launch window: 2025-01-13 16:43:10 UTC to 2025-01-13 16:47:09 UTC. Backup Launch Opportunity #4 Launch: 2025-01-13 18:42:00 UTC. Deploy: 2025-01-13 19:47:16.640 UTC.Launch window: 2025-01-13 18:42:00 UTC to 2025-01-13 18:45:59 UTC.
SpaceX is targeting Monday, January 13 for a Falcon 9 launch of 21 Starlink satellites, including 13 with Direct to Cell capabilities, to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida. Liftoff is targeted for 10:08 a.m. ET, with backup opportunities available until 1:45 p.m. ET. If needed, additional launch opportunities are also available on Tuesday, January 14 starting at 9:32 a.m. ET.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the new X TV app.This is the 15th flight for the first stage booster supporting this mission, which previously launched Ax-2, Ax-3, CRS-30, SES 24, NG-21, Euclid, and eight Starlink missions. Following stage separation, the first stage will land on the A Shortfall of Gravitas droneship, which will be stationed in the Atlantic Ocean.
Long Beach, California. January 9, 2025. Rocket Lab USA, Inc. (Nasdaq: RKLB) (“Rocket Lab” or “the Company”), a global leader in launch services and space systems, today announced a mutual agreement with NASA has been reached to include Neutron launch services to the agency through Rocket Lab’s existing VADR (Venture-Class Acquisition of Dedicated and Rideshare) contract.Rocket Lab’s new medium-lift reusable rocket Neutron allows the opportunity for Rocket Lab to continue broadening access to space to deliver multiple missions across a range of orbits, including CubeSats, Class D missions, and other payloads. With its small orbital launch vehicle Electron already on-ramped for NASA’s VADR missions, Rocket Lab has demonstrated time-sensitive back-to-back launches within two weeks for the VADR PREFIRE missions and completed a similar fast turnaround of two launches in May 2023 for the VADR TROPICS missions.Neutron is designed to provide both commercial and government customers with an alternative reliable launch service capable of deploying 13,000 kg to low Earth orbit. Neutron is tailored to deploy constellations and national security missions as well as science and exploration payloads. In addition to serving customers, Neutron is key to Rocket Lab’s strategy as an end-to-end space company capable of building, launching and operating its own constellations and delivering services from space in the future.Rocket Lab founder and CEO, Sir Peter Beck, says: “Neutron brings choice and value to the launch industry and is the ideal rocket to support NASA’s goals with VADR to provide new opportunities for science and technology payloads through commercial best practice. Rocket Lab has been a long trusted and reliable launch partner for NASA missions with Electron, and we’re proud to have been selected to expand on this with Neutron.”Neutron is strongly positioned to capitalize on the medium-lift launch requirements for future government and commercial missions. The selection of Neutron for the VADR contract builds on previous awards for the new launch vehicle, including an on-ramp to the United States Space Force’s OSP-4 program, a separate $986m IDIQ contract. Neutron is also ideally placed to be on-ramped on to the U.S. Government’s National Security Space Launch (NSSL) Lane 1 program, an IDIQ contract valued at $5.6 billion over a five-year period.Significant progress continues to be made on the rocket’s launch site on Wallops Island, Virginia, with the site’s completion expected in the coming months. Production, infrastructure scaling, and both Archimedes engine and full-scale components testing is continuing at pace across Rocket Lab’s various production and test facilities throughout the United States. Neutron is scheduled for its debut launch from Rocket Lab Launch Complex 3 in Virginia from mid-2025.
WASHINGTON — Northrop Grumman’s SpaceLogistics subsidiary is eyeing a 2026 launch for its next-generation satellite servicing vehicle, the Mission Robotic Vehicle (MRV). Equipped with robotic arms developed by the U.S. Naval Research Laboratory (NRL), the MRV aims to extend the lifespan of satellites in geostationary orbit more than 22,500 miles above Earth. ...SpaceLogistics is using the robotic arms for the MRV under a partnership with DARPA. The company has already secured three customers for its MRV services — two satellites from Intelsat and one from Optus. These clients will receive Mission Extension Pods (MEPs), propulsion jet packs that can add approximately six years of operational life to aging satellites.
Blue Origin @blueoriginWe’re standing down on today’s launch attempt to troubleshoot a vehicle subsystem issue that will take us beyond our launch window. We’re reviewing opportunities for our next launch attempt.
Transporter-12 Pre-LaunchDerived from individual Pre-Launch Transporter-12 state vectors for each object in the initial deployment, provided by SpaceX.Launch: 2025-01-14 18:48:59.990 UTC.Deployments: 2025-01-14 19:43:06.150 UTC to 2025-01-14 21:12:17.030 UTC.
PRIME-1 (IM-2)Launch TimeThu Feb 27, 2025 00:02 GMT
ACES (Atomic Clock Ensemble in Space) is a payload on this launch. [Sep 25]QuoteThe Atomic Clock Ensemble in Space (ACES) is a European facility that will test fundamental physics from the outside of ESA’s Columbus module on the International Space Station. By creating a “network of clocks”, ACES will link its own highly precise timepieces with the most accurate clocks on Earth and compare them to measure the flow of time. According to Einstein’s theory of general relativity, gravity affects the passing of time. Experiments on Earth have shown that time flies faster at higher altitudes, such as the tops of mountains, than at sea level. ACES will take this experiment to the next level, making precise measurements on the Space Station as it flies 400 km above Earth. The data gathered by ACES will offer scientists new insights into the relationship between gravity and time, advancing our understanding of fundamental laws of physics.QuoteTargeted SpaceX-32, Feb 2025
The Atomic Clock Ensemble in Space (ACES) is a European facility that will test fundamental physics from the outside of ESA’s Columbus module on the International Space Station. By creating a “network of clocks”, ACES will link its own highly precise timepieces with the most accurate clocks on Earth and compare them to measure the flow of time. According to Einstein’s theory of general relativity, gravity affects the passing of time. Experiments on Earth have shown that time flies faster at higher altitudes, such as the tops of mountains, than at sea level. ACES will take this experiment to the next level, making precise measurements on the Space Station as it flies 400 km above Earth. The data gathered by ACES will offer scientists new insights into the relationship between gravity and time, advancing our understanding of fundamental laws of physics.
Targeted SpaceX-32, Feb 2025
SpaceX is targeting Monday, January 13 for a Falcon 9 launch of 21 Starlink satellites, including 13 with Direct to Cell capabilities, to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida. Liftoff is targeted for 11:47 a.m. ET, with backup opportunities available until 1:45 p.m. ET. If needed, additional launch opportunities are available on Tuesday, January 14 starting at 9:32 a.m. ET.
Starlink G12-4 Pre-LaunchDerived from a pre-launch Starlink-G12-4 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite. Launch: 2025-01-13 16:47:09 UTC.Deploy: 2025-01-13 17:52:25.640 UTC.
Transporter 12Launch TimeTue Jan 14, 2025 18:49 GMT...Landing Zone 4
Blue Ghost Mission 1 & HAKUTO-R M2 “Resilience”Launch TimeWed Jan 15, 2025 06:11 GMT...Just Read the Instructions
UPDATED JANUARY 13, 2025...FALCON 9The next SpaceX Falcon 9 rocket will launch the first Firefly Blue Ghost & second Japanese iSpace HAKUTO-R lunar landers to the moon from pad 39A on January 15 at 1:11 a.m. EST. Upcoming launches include more Starlink batches. A Falcon 9 will launch the Spainsat NG-1 communication satellite on January 28 around 11 p.m. EST. A Falcon 9 will launch the Worldview Legion 5 & 6 satellites for Maxar on early February. A Falcon 9 will launch the IM-2 lunar lander for NASA & Intuitive Machines from pad 39A on February 26....NEW GLENNThe maiden flight of Blue Origin's New Glenn rocket is scheduled for January 16 earliest at 1:00-4:00 a.m. EST.
Blue Origin @blueoriginWe’re moving our NG-1 launch to no earlier than Thursday, January 16. The three-hour launch window opens at 1 a.m. EST (0600 UTC).
Transporter-12 Pre-LaunchDerived from individual Pre-Launch Transporter-12 state vectors for each object in the initial deployment, provided by SpaceX.Launch: 2025-01-14 19:08:59.990 UTC.Deployments: 2025-01-14 20:03:06.150 UTC to 2025-01-14 21:32:17.030 UTC.
SpaceX is targeting Tuesday, January 14 for Falcon 9’s launch of the Transporter-12 mission to low-Earth orbit from Space Launch Complex 4E (SLC-4E) at Vandenberg Space Force Base in California. Liftoff is targeted for 11:09 a.m. PT. If needed, there is a backup opportunity on Wednesday, January 15 during a 27-minute window that opens at 10:49 a.m. PT.Transporter-12 is a dedicated smallsat rideshare mission with 131 payloads, including CubeSats, MicroSats, and orbital transfer vehicles carrying 30 of those payloads, 14 of which will be deployed at a later time. To date, SpaceX has launched more than 1,100 payloads to orbit for 130+ customers across our entire Rideshare program.A live webcast of this mission will begin about 10 minutes prior to liftoff, which you can watch here and on X @SpaceX.This will be the second flight for the first stage booster supporting this mission, which previously launched NROL-126. Following stage separation, Falcon 9 will land on Landing Zone 4 (LZ-4) at Vandenberg Space Force Base.There is the possibility that residents of and visitors to Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
LAUNCH, LANDING, AND DEPLOYMENTAll Times ApproximateHr/Min/Sec Event00:01:04 Max Q (moment of peak mechanical stress on the rocket)00:02:13 1st stage main engine cutoff (MECO)00:02:17 1st and 2nd stages separate00:02:21 Stage 1 flip00:02:25 2nd stage engine starts (SES-1)00:02:30 1st stage boostback burn begins00:03:03 Fairing separation00:03:25 1st stage boostback burn ends00:06:12 1st stage entry burn begins00:06:41 1st stage entry burn ends00:07:15 1st stage landing burn begins00:07:32 1st stage landing00:08:15 2nd stage engine cutoff (SECO-1)00:50:52 2nd stage engine starts (SES-2)00:50:56 2nd stage engine cutoff (SECO-2)00:54:07 GESat GEN1 deploys, manifested by Exolaunch00:54:12 EDISON-1 deploys, manifested by Exolaunch00:54:18 BRO-16 deploys, manifested by Exolaunch00:54:25 OTTER deploys, manifested by SEOPS00:54:41 BUZZZER-1 deploys, manifested by Exolaunch00:54:51 HCT-SAT1 deploys, manifested by Exolaunch00:54:57 Flock 4G 19 deploys, manifested by Planet Labs00:55:02 SCOT - Digantara deploys, manifested by Exolaunch00:55:08 NOVI Low-Latency Intelligence and Monitoring Experiment (LIME) deploys, manifested by Maverick Space Systems00:55:19 Balkan-1 deploys, manifested by Exolaunch00:55:25 TechEdSat-22 via NASA's CubeSat Launch Initiative deploys, manifested by Maverick Space Systems00:55:37 Flock 4G 31 deploys, manifested by Planet Labs00:55:48 PAUSAT1 deploys, manifested by D-Orbit00:55:58 Undisclosed deploys, manifested by D-Orbit00:56:09 InnoCube deploys, manifested by Exolaunch00:56:14 Flock 4G 25 deploys, manifested by Planet Labs00:56:20 Elevation-1 deploys, manifested by D-Orbit00:56:30 Flock 4G 9 deploys, manifested by Planet Labs00:56:37 Flock 4G 23 deploys, manifested by Planet Labs00:56:54 Fledgling Veery “Barb” deploys, manifested by Exolaunch00:57:04 TROLL deploys, manifested by Exolaunch00:57:10 Flock 4G 21 deploys, manifested by Planet Labs00:57:15 Flock 4G 35 deploys, manifested by Planet Labs00:57:25 PARUS-T1 deploys, manifested by D-Orbit00:57:43 NCKU-IRIS-F3 deploys, manifested by Exolaunch00:58:01 Flock 4G 33 deploys, manifested by Planet Labs00:58:11 AE1c deploys, manifested by D-Orbit00:58:22 ANSER-L-S deploys, manifested by D-Orbit00:58:29 NewSat45 deploys, manifested by Satellogic00:58:35 Flock 4G 15 deploys, manifested by Planet Labs00:58:54 Flock 4G 13 deploys, manifested by Planet Labs00:59:00 NCKU-IRIS-F2 deploys, manifested by Exolaunch00:59:05 Flock 4G 3 deploys, manifested by Planet Labs00:59:24 Flock 4G 34 deploys, manifested by Planet Labs00:59:46 FOSSASAT (FO018) deploys, manifested by D-Orbit01:00:06 FOSSASAT (FO019) deploys, manifested by D-Orbit01:00:25 OroraTech FOREST-3 deploys, manifested by Exolaunch01:00:32 Flock 4G 16 deploys, manifested by Planet Labs01:00:41 LEO Express-2 deploys, manifested by Impulse Space01:00:47 GARAI-A deploys, manifested by Exolaunch01:00:57 Flock 4G 10 deploys, manifested by Planet Labs01:01:03 Flock 4G 36 deploys, manifested by Planet Labs01:01:25 Flock 4G 22 deploys, manifested by Planet Labs01:01:31 AlainSat-1 deploys, manifested by Exolaunch01:01:37 Flock 4G 24 deploys, manifested by Planet Labs01:01:53 constellr SkyBee 1 deploys, manifested by Exolaunch01:02:11 FGN-100-d1 deploys, manifested by Fergani Uzay Teknolojileri ("Fergani")01:02:18 Pelican-2 deploys, manifested by Planet Labs01:02:23 Flock 4G 14 deploys, manifested by Planet Labs01:02:37 JAY-D1 deploys, manifested by UTIAS Space Flight Laboratory01:03:14 Flock 4G 32 deploys, manifested by Planet Labs01:03:34 Flock 4G 17 deploys, manifested by Planet Labs01:03:58 AE1d deploys, manifested by D-Orbit01:04:15 Flock 4G 29 deploys, manifested by Planet Labs01:04:24 Flock 4G 20 deploys, manifested by Planet Labs01:04:32 Flock 4G 26 deploys, manifested by Planet Labs01:05:27 FUSION-1 deploys, manifested by D-Orbit01:05:40 SIGI deploys, manifested by Reflex Aerospace01:06:15 Flock 4G 30 deploys, manifested by Planet Labs01:06:31 Flock 4G 18 deploys, manifested by Planet Labs01:07:16 Flock 4G 27 deploys, manifested by Planet Labs01:07:32 JAY-C deploys, manifested by UTIAS Space Flight Laboratory01:07:42 Flock 4G 1 deploys, manifested by Planet Labs01:07:49 JAY-D2 deploys, manifested by UTIAS Space Flight Laboratory01:08:33 Flock 4G 28 deploys, manifested by Planet Labs01:08:39 ION SCV Amazing Antonius deploys, manifested by D-Orbit01:08:53 Lyra-1 deploys, manifested by EchoStar01:09:30 Flock 4G 11 deploys, manifested by Planet Labs01:09:35 W-2 deploys, manifested by Varda Space Industries, Inc.01:09:51 Ray deploys, manifested by Inversion Space Company01:10:25 ION SCV Eminent Emmanuel deploys, manifested by D-Orbit01:11:09 Flock 4G 12 deploys, manifested by Planet Labs01:11:32 Flock 4G 5 deploys, manifested by Planet Labs01:13:17 Flock 4G 6 deploys, manifested by Planet Labs01:13:31 Flock 4G 7 deploys, manifested by Planet Labs01:15:18 Flock 4G 8 deploys, manifested by Planet Labs01:15:35 Flock 4G 2 deploys, manifested by Planet Labs01:17:25 Flock 4G 4 deploys, manifested by Planet Labs01:22:07 MBZ-Sat deploys, manifested by Mohammed Bin Rashid Space Centre01:41:22 2nd stage engine starts (SES-3)01:41:23 2nd stage engine cutoff (SECO-3)02:15:24 2nd stage engine starts (SES-4)02:15:25 2nd stage engine cutoff (SECO-4)02:17:22 Plan - S / Connecta IOT-7 deploys, manifested by D-Orbit02:17:36 LEMUR 2 MYNAMEISJEFF deploys, manifested by Exolaunch02:17:44 SatGus deploys, manifested by SEOPS02:17:49 Firefly-3 by Pixxel deploys, manifested by Exolaunch02:18:01 Fleet Space Technologies’ CENTAURI-8 deploys, manifested by Tyvak International02:18:06 HEO-01 deploys, manifested by Argotec Srl02:18:21 LEMUR 2 WILSON deploys, manifested by Exolaunch02:18:30 Plan - S / Connecta IOT-8 deploys, manifested by D-Orbit02:18:42 LEMUR 2 STAR-FOX deploys, manifested by D-Orbit02:18:49 NorSat-4 deploys, manifested by Space Flight Laboratory02:19:13 LEMUR 2 ROUNDTRIPPER deploys, manifested by Exolaunch02:19:21 Fleet Space Technologies’ CENTAURI-7 deploys, manifested by Tyvak International02:19:30 ICEYE 1 deploys, manifested by Exolaunch02:19:36 ICEYE 2 deploys, manifested by Exolaunch02:19:43 ICEYE 3 deploys, manifested by Exolaunch02:19:57 LEMUR 2 ARIANNA deploys, manifested by D-Orbit02:20:06 ICEYE 4 deploys, manifested by Exolaunch02:20:19 Firefly-1 by Pixxel deploys, manifested by Exolaunch02:20:25 Plan - S / Connecta IOT-5 deploys, manifested by D-Orbit02:20:58 Plan - S / Connecta IOT-6 deploys, manifested by D-Orbit02:21:05 LEMUR 2 ALISIA deploys, manifested by Exolaunch02:22:02 Firefly-2 by Pixxel deploys, manifested by Exolaunch
SpaceX is targeting Wednesday, January 15 for Falcon 9’s launch of Firefly Aerospace’s Blue Ghost Mission 1 to the Moon from Launch Complex 39A (LC-39A) in Florida. Also on board this mission is ispace’s RESILIENCE lunar lander. Liftoff is targeted for 1:11 a.m. ET. If needed, a backup opportunity is available on Thursday, January 16 at 1:09 a.m. ET.A live webcast of this mission will begin about one hour prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the new X TV app.This will be the fifth flight for the first stage booster supporting this mission, which previously launched Crew-9, RRT-1, and two Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.Once deployed into a highly elliptical Earth orbit, the Blue Ghost lander will begin its approximate 45-day journey to the Moon, where it will land in Mare Crisium for NASA’s payloads to perform numerous science and technology demonstrations, including lunar subsurface drilling, sample collection, and X-ray imaging of Earth’s magnetic field to advance research for future human missions on the Moon and provide insights into how space weather impacts the planet.After its deployment, the ispace RESILIENCE lander will begin its 4-5 month journey to the Moon. During their mission, ispace aims to achieve a soft landing on the lunar surface, deploy its TENACIOUS Micro Rover, explore the Moon’s surface, and collect regolith.
On Wednesday, January 15 at 1:11 a.m. ET, Falcon 9 launched Firefly Aerospace’s Blue Ghost Mission 1 from Launch Complex 39A (LC-39A) at NASA’s Kennedy Space Center in Florida. Also on board this mission was ispace’s RESILIENCE lunar lander.This was the fifth flight for the first stage booster supporting this mission, which previously launched Crew-9, RRT-1 and two Starlink missions.
Transporter-12 Post-DeploymentDerived from individual Post-Deployment Transporter-12 state vectors for each object in the initial deployment, provided by SpaceX. Launch: 2025-01-14 19:09:00.098 UTC.Deployments: 2025-01-14 20:02:10.158 UTC to 2025-01-14 21:30:40.518 UTC.
Discussion thread for SpaceX's Transporter 12 dedicated rideshare flight.Discussion thread for SpaceX Rideshare ProgramLaunched 14 January 2025 at 19:09:00 UTC (11:09 am PST) on Falcon 9 (booster 1088.2) to SSO. Booster 1088.2 landed at LZ-4. Deployments at 520km and 590km.Payloads: SpaceX said 131 total, 16 of those may be hosted payloads on OTVs?Exolaunch: (handle integration for 28, separation systems for 7 more) AlAinSat-1 (3U, , UAE) Balkan-1 (16U, Endurosat) Connecta IoT (4x 6U, Plan-S, Turkey) EDISON IOD (8U, Space Inventor, Denmark) Forest-3 (8U, OroraTech, Germany) + GESat GEN1 (16U, Absolut Sensing) (bus Nanoavionics) + INNOCube (3U, TU Berlin, Germany) IRIS-F2 (3U, SATORO Space, Japan) IRIS-F3 (3U, SATORO Space, Japan) ORB-6? (6U, Orbital Astronautics/Digantara, UK/India) (has Digantara SCOT sensor) SkyBee-1 (HiVE constellation) (?kg, Constellr, Germany) (bus Nanoavionics) + TROLL (6UXL, TRL Space, Czech Republic) (ISISpace bus) + Veery-0F (1U, Care Weather)Impulse-2 (Impulse Space, Mira tug, Exolaunch deployer) + Bluebon (6U XL, TelePIX, South Korea) FOSSASat TAT-O (3U, FOSSA Systems, Spain) (hosted) Triclops (Starfish Space) (hosted) Holmes (HEO Robotics)ISILaunch ANSER Leader-S (3U, ESA) (ANSER (Advanced Nanosatellite Systems for Earth observation Research)) SuperDove Flock 4G (36x 3U, Planet) +AE1C (shipping permit for batteries in AE1c, AE1d, FUSION satellites from Space BD, Japan)AE1DFUSION-1PARUS-T1 (3U, TASA, Taiwan)Maverick LIME (3U, NOVI) TechEdSat-22 (1U, NASA)D-Orbit ION SCV-014D-Orbit ION SCV-016 Alba Orbital HADES-R (1.5P, HYDRA SPACE SYSTEMS, SPAIN) HYDRA-T (1.5P, HYDRA SPACE SYSTEMS, SPAIN) HYPE AGH (1P, AGH UNIVERSITY, POLAND) POQUITO (1P, SNT UNIVERSITY OF LUXEMBOURG) SKYLINK-1 & -2 (2x 3P, HELLO SPACE, TÜRKIYE) PROMETHEUS-1 (1P, U. DO MINHO & INSTITUTO SUPERIOR TÉCNICO (PORTUGAL), CARNEGIE MELLON (USA)) + Sedna-2 (4U, AAC Clyde Space) AIS PoSat-2 (3?U, LusoSpace, Portugal) AIS, AAC Clyde Space busSEOPS SAT GUS (12U, CrunchLabs) OTTER (?U, Naval Postgraduate School/New Zealand Defence Science & Technology)MBZSat (750kg)BUZZZER-1FGN-100-D1 (?kg, Fergani Space, Turkey)IRIDE-MS2-HEO-1 (Argotec for Italy's IRIDE)JAY-C/-D1/-D2 (3x 30kg, UTIAS SFL, Canada) Gray Jay constellationNORSAT-4 (microsatellite, AIS and low-light/low-resolution imager to detect ships > 30m in Arctic , Norwegian Space Agency, Norway, bus UTIAS SFL)PAUSAT1 (16U, Pakistan Air University, built in Turkey (ITU SSDTL (Istanbul Technical University), hyperspectral imager, Pakistan)SATURNIN-1 (ISL-46A-CS1)BRO-16 (8?U, Unseenlabs, France)Centauri 7/8 (2x 12U, Fleet Space)Elevation-1 (6U, XDLINX Space Labs, India) +FFLY (3x 52kg, Pixxel) (deployed at 590km)GARAI A (115kg, Satlantis, Spain) +HCT-Sat 1 (1U, HCT/MBRSC, UAE)X-? (4x 90kg, ICEYE)K2?LEMUR 3 (2x ?U, Spire with Myriota IoT payload)LEMUR 2 (3x 3U, Spire with RO and AIS payloads)LEMUR (?U, Spire)Lyra Block 1 (2x 74kg, EchoStar Global)Pelican-2 (?kg, Planet) +Ray (63kg, Inversion Space, has reentry capsule)SIGI (109kg, Reflex Aerospace, Germany) +UzmaSAT-1 (Newsat-45) (50kg, Satellogic/Uzma (Malaysia)) +Winnebago-2 (?kg, Varda)Possible Payloads:Kestrel-0A (8U, Hawkeye 360)Phobos (?U, Skyline Celestial/Aetheros)VISORS (2x 6U) could be on later flightWISeKey cubesat could just be the FOSSA sat?Removed Payloads: Acadia-6 (160kg, microsat, Capella)Centauri 9 (35kg, Fleet Space)HORIS-1 (1U, MyRadar) (Exolaunch)FINCH (U. of Toronto)NAOS (645kg, , Luxembourg)Otter Pup 2 (40kg, Starfish Space) -> T13SAMWISE (2U, Stanford SSI) -> T15ThinkOrbital Flight-2 (1288-EX-ST-2024) -> BW-2YAC-1-2...-10? (9x ~216kg, Loft/EarthDaily) (first launch NET Feb 2025, license not granted as of Dec. 28)YAM-8 (license not yet granted as of Dec. 28, 2024)Momentus Vigoride DISCO-II (3U, Aarhus University, Denmark) https://www.facebook.com/DanishStudentCubeSatProgram/
Kineis IoT @KineisIoTDrumroll Please!Discover our next mission “IoT 4 You and Me”, which emphasizes our mission to help you "Heal the World" 🌍 by bringing Global IoT Connectivity everywhere! 🚀✨We’re ready to take the Internet of Things to the next level, making sure you are covered, everywhere on earth. 🌐💡Just like Michael Jackson’s iconic lyrics, with Kinéis leading the way, let’s make this world a better place, 4 you, 4 me, and 4 all living beings. 🌟🛰️Stay tuned—this launch is gonna be a Thriller! ⚡#IoT4YouAndMe #IoTInnovation #Kineislaunch #Satelliteconnectivity #InternetfThings