ICEYE, the global leader in Synthetic Aperture Radar (SAR) satellite operations for high-fidelity Earth Observation (EO), and SATIM, a world-leading provider of AI-based solutions for Automatic Target Recognition (ATR) on SAR imagery, have signed a partnership agreement for joint product development.

The companies will combine ICEYE’s industry-leading satellite imagery with SATIM’s cutting-edge AI-powered imagery analytics solutions into new products enabling prompt, high-confidence detection and classification of vessels, aircraft, and land vehicles. After an initial pilot phase, the partners plan to release a series of generally-available products in 2025. 

ICEYE owns and operates the world’s largest SAR satellite constellation, providing customers unprecedented access to 25 cm high-resolution imagery of any location on Earth, regardless of the weather conditions or day/night conditions. ICEYE’s unique, innovative satellites provide imagery with the industry’s highest resolution and scene sizes up to 840 km2, and hourly revisit rates for points around the globe. ICEYE has launched 44 satellites for its own and its customers’ use since 2018 and plans to launch more than 20 new satellites annually in 2025, 2026, and beyond.

SATIM is a world-leading AI technology company specializing in Automatic Target Recognition (ATR) using Synthetic Aperture Radar (SAR) imagery.  Harnessing the power of AI and SAR imagery, SATIM offers three highly accurate AI-based solutions that enable fast, highly accurate detection, classification, and identification of targets —anywhere, anytime. These advanced solutions are data-agnostic, near real-time, and cover a wide catalog of objects.

Rafal Modrzewski, CEO and Co-founder of ICEYE, said, “Our partnership with SATIM is an important step on our journey towards becoming the global source of truth. By combining our world-leading SAR imagery and capabilities with SATIM’s powerful AI-driven SAR image analytics, we will be able to serve our customers with easy, direct access to actionable intelligence and insights. Improving situational awareness with satellite-based intelligence will enable informed and rapid decision-making where it is needed the most.”

Jacek Strzelczyk, CEO and Co-founder of SATIM, said, ”At SATIM, we continue to set the standards in AI-powered SAR analytics, and our collaboration with ICEYE, a leading SAR imagery provider, is an important milestone in our pursuit of excellence. This partnership marks a significant step in our commitment to advancing space-based solutions that provide critical insights for those on Earth. As we continue to explore new ways to advance the field, this partnership represents an exciting step ahead, and we look forward to what lies ahead in this evolving landscape.”

The UK Ministry of Defence has announced that the Oberon Earth Observation (EO) synthetic aperture radar (SAR) satellite mission has been awarded to Airbus Defence and Space, with Oxford Space Systems as a key supplier.

The program will be using the innovative Wrapped Rib Antenna developed by Oxford Space Systems, enabling the deployment of both a primary reflector and secondary surface from a uniquely compact launch configuration. The Wrapped Rib Antenna incorporates carbon fiber and knitted gold-plated metal mesh components built in house at Oxford Space Systems facilities in Harwell and Abingdon, UK, together with manufactured parts from a predominantly UK supply chain, to form a large parabolic dish on deployment.

For this application, the Wrapped Rib Antenna is being used to provide Synthetic Aperture Radar (SAR) capabilities and is part of a family of Wrapped Rib Antenna products which have both government and commercial use capabilities covering radar, communications and frequency monitoring applications over a range of radio frequencies, and with strong potential sales in selected export markets.

The Wrapped Rib Antenna development program has been supported over more than 7 years from inception by government programs including those from Innovate UK, National Security Strategic Investment Fund (NSSIF), DSTL, DASA, ESA and UKSA; through commercial collaboration including with Surrey Satellite Technology Limited (SSTL) and Airbus Defence and Space, and through Oxford Space Systems equity investment.

Sean Sutcliffe, Chief Executive at Oxford Space Systems, said, “We are delighted to be part of the consortium selected to deliver the next generation intelligence, surveillance and reconnaissance radar spacecraft for the UK. Oxford Space Systems is supplying the deployable antenna for this mission and is therefore a key enabler for this high performance capability at a competitive cost. The selection of Oxford Space Systems technology for this demanding and critical application is a testament to the many years of work that we and our partners have put into extensive development and testing of our innovative wrapped rib design, to be able to deliver and assure its performance and reliability. This success has been enabled by the support for the technology development and capability building given by our equity partners as well as by Government programs.”

SpaceX is targeting Monday, February 10 for a Falcon 9 launch of 23 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) at Vandenberg Space Force Base in California. Liftoff is targeted for 3:46 p.m. PT. If needed, additional launch opportunities are also available on Tuesday, February 11 starting at 3:19 p.m. PT.

A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch on X @SpaceX. You can also watch the webcast on the new X TV app.

This is the 23rd flight for the first stage booster supporting this mission, which previously launched NROL-153, NROL-87, NROL-85, SARah-1, SWOT, Transporter-8, Transporter-9, NROL-146, Bandwagon-2, and 13 Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.

There is the possibility that residents of 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.

SpaceX’s Starlink Group 11-10 to launch 22 smallsats from California on Sunday

Brightline, an eco-friendly commuter rail company with routes in South Florida became the first passenger train service in the world to adopt Starlink internet for its customers.

SpaceX’s Falcon 9 is scheduled to launch Starlink Group 11-10’s 22 smallsats from Vandenberg Space Force Base in California on Sunday, February 9 at 4:03 PM PST.

The Starlink 11-10 payload will transport the 22 v2-mini satellites for their second-generation high-speed low Earth orbit internet satellite constellation.

MEASAT has signed a Memorandum of Understanding (“MoU”) with Shanghai Spacesail Technologies Co. Ltd. (“SPACESAIL”), formerly Shanghai Spacecom Satellite Technology.

The MoU exchange ceremony, held recently in Shanghai, saw MEASAT represented by Chief Operating Officer Yau Chyong Lim and SPACESAIL represented by President Dr. Jason Zheng.

The MoU is aimed at facilitating potential collaboration between the two companies, including provision of SPACESAIL’s LEO broadband services and solutions with their Thousand Sails mega-constellation (also known as “Qianfan”), emerging technologies such as Direct-to-Device (D2D) communications, satellite-based IoT capabilities and EO services; in Malaysia and markets in Asia where MEASAT is present, and, additionally, a joint rain fade study on Q-/V-band high frequency transmission.

Commenting on the MoU, Communications Minister YB Fahmi Fadzil, said, “In 2024, Malaysia marked the 50th anniversary of our diplomatic relations with the People’s Republic of China, celebrating the many positive outcomes of this cordial friendship. Looking forward, there are abundant opportunities for deeper collaboration, especially in harnessing advanced technologies to enhance people’s lives. These innovations have the potential to drive a wide array of benefits, from improving the delivery of government services to fostering economic growth through industrial and commercial applications. Additionally, with Malaysia serving as Chairman of ASEAN this year, we hope to showcase the country’s technological capabilities and explore new opportunities across the region.”

Yau Chyong Lim, Chief Operating Officer of MEASAT, said, “MEASAT is excited to begin this partnership with SPACESAIL to advance LEO satellite services across our markets. We firmly believe in a multi-orbit satellite network to achieve progress in society and are pleased to have the opportunity to integrate the capabilities of SPACESAIL’s Thousand Sails megaconstellation with MEASAT’s fleet of Geostationary Orbit (“GSO”) satellites. In regions where MEASAT operates, satellites have immense potential in further bridging the digital divide and overcoming geographical challenges. We look forward to realising this multi-orbit potential – from expanding the reach of established use-cases like satellite broadband in remote areas to advancing cutting- edge satellite solutions such as D2D connectivity and satellite-based IoT.”

Dr. Jason Zheng, President of SPACESAIL, said, “For SPACESAIL, this partnership with MEASAT is another milestone in delivering global broadband connectivity and driving innovation in the satellite industry by synergising our respective strengths. China and Malaysia are two nations that value the role of technology in empowering businesses and improving lives, and I look forward to achieving technological progress by tapping on MEASAT’s local expertise while strengthening bilateral ties – including in upcoming fields like the integration of terrestrial and non-terrestrial network communications. I thank the Government of Malaysia, particularly the Malaysian Communications and Multimedia Commission for welcoming SPACESAIL’s interest to offer our services in the country in collaboration with local industry leaders such as MEASAT.”

SPACESAIL’s Thousand Sails mega-constellation, which has already launched 72 satellites to date, seeks to provide low-latency, high-speed and ultra-reliable satellite broadband internet services worldwide. The mega-constellation is targeted to consist of more than 15,000 satellites in the future.

Thales Alenia Space, the joint venture between Thales (67%) and Leonardo (33%), has signed a contract with NIBE Space (a subsidiary of NIBE Limited) concerning the supply of a high-resolution optical satellite, marking the first step in NIBE’s Earth Observation constellation project— this initial contract aims to establish the first operational Earth Observation’s (EO) capabilities for NIBE in India by 2025.

This achievement reinforces the partnership initiated in 2024 between Thales Alenia Space and NIBE for the deployment of India’s first private EO constellation.

The contract was recently signed during a ceremony with the Honorable Chief Minister of Maharashtra Shri Devendra Fadnavis present. BlackSky also signed a service agreement for subscription-based imagery and analytics to deliver space-based monitoring services supporting NIBE’s various Indian customers.

“I am extremely pleased that Thales Alenia Space will contribute to developing sovereign Earth Observation capabilities in India,” said Hervé Derrey, CEO of Thales Alenia Space. “Supporting the deployment of India’s first private Earth observation constellation means a lot to our company as this is Thales Alenia Space’s first cooperation on an Indian space program. I would like to thank NIBE for putting its trust in our company. We look forward to making available our long-standing expertise and industrial capabilities in optical and radar sensors and start a promising Space cooperation with India.”

“We are proud to see our partnership with Thales Alenia Space take another concrete step forward with the signing of the contract for a high-resolution optical satellite. This is part of our larger national endeavor, aligned with the Aatmanirbhar Bharat vision, to bolster India’s position as a leader in space technology and applications,” said Ganesh Nibe, Chairman & Managing Director of NIBE Limited. “With Thales Alenia Space’s vast global expertise and experience, we look forward to taking India’s space capabilities to newer heights.”

About NIBE Limited
Established in 2021 under the leadership of Mr. Ganesh Ramesh Nibe, the company and its subsidiaries specialise in manufacturing a wide spectrum of Critical Components catering to the Defence industry such as fabrication of structures and sub-assemblies for programmes such as Modular Bridge, Rudder blade assembly, Pinaka launcher and MRSAM launcher for tri-services of Indian defence, to components of Electronic systems, Small arms (such as assault rifles and LMGs), and Space projects for domestic as well as international applications. NIBE Limited along with its subsidiaries is committed towards continuously refining and adapting its approach, positioning itself as a leader in the defence industry. Moreover, in alignment with the vision of Atmanirbhar Bharat, NIBE Limited extends its commitment to fostering self-reliance in the defence sector.

About THALES ALENIA SPACE
Drawing on over 40 years of experience and a unique combination of skills, expertise and cultures, Thales Alenia Space delivers cost-effective solutions for telecommunications, navigation, Earth observation, environmental management, exploration, science and orbital infrastructures. Governments and private industry alike count on Thales Alenia Space to design satellite-based systems that provide anytime, anywhere connections and positioning, monitor our planet, enhance management of its resources, and explore our Solar System and beyond. Thales Alenia Space sees space as a new horizon, helping to build a better, more sustainable life on Earth. A joint venture between Thales (67%) and Leonardo (33%), Thales Alenia Space also teams up with Telespazio to form the parent companies’ Space Alliance, which offers a complete range of services. Thales Alenia Space posted consolidated revenues of approximately €2.2 billion in 2023 and has around 8,600 employees in 8 countries, with 16 sites in Europe.

On Saturday, February 8 at 2:18 p.m. ET, Falcon 9 launched 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.

This was the 17th flight for the first stage booster supporting this mission, which previously launched Crew-6, O3b mPOWER, Bluebird 1-5, USSF-124, and now 13 Starlink missions.

SpaceX’s Starlink Group 12-9 to launch smallsats on Friday

On Friday, February 7th, Falcon 9 will launch a batch of smallsats for the Starlink mega-constellation into low Earth orbit. SpaceX’s project for a space-based internet communication system will be launched from Space Launch Complex 40, Cape Canaveral, Florida. The launch costs $52 million.

The forecast calls for a temperature of 72°F, clear skies, 0% cloud cover and a wind speed of 4mph.

Rocket lab has rescheduled the IoT 4 you to Sunday, February 8/9 from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand on Saturday at 12:43 PM PST or Sunday, K09:43 am NZDT (20:43 UTC).

“IOT 4 You and Me” is Rocket Lab’s first scheduled launch of 2025, with the company expecting this year to exceed its record-breaking launch cadence of 16 launches across Electron and HASTE achieved in 2024.

The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024. K09:43 am NZDT (20:43 UTC) Kinéis is a satellite operator and global connectivity provider. The first three missions were successfully launched by Electron in June, September and November 2024.

Electron is a two-stage orbital expendable launch vehicle (with an optional third stage) developed by the American aerospace company Rocket Lab. Electron is a small-lift launch vehicle designed to launch small satellites and cubesats to sun-synchronous orbit and low earth orbit. The Electron is the first orbital class rocket to use electric-pump-fed engines, powered by the 9 Rutherford engines on the first stage. It is also used as a suborbital testbed (called HASTE) for hypersonics research.

Rocket Lab’s Tuesday launch of IoT 4 You and Me is scrubbed with concerns of collision with ISS and others

Rocket Lab’s Tuesday launch is also scrubbed with an explaination indicating that: Rocket Lab has delayed the launch of the IOT 4 You and Me mission in order to ensure the mission does not interfere with “space traffic from other satellites and the ISS,” according to a company statement on X see below. A new launch date has not yet been set.

What is COLA? Collision On Launch Avoidance/Assessment — a process that assesses space traffic from other satellites and the ISS to determine when a rocket can be launched safely. It essentially it tells us when it’s safe to merge onto the space highway. Because the position of spacecraft are always changing relative to each other and the Earth, COLA reports are most accurate a few hours out from launch, which is why sometimes they’ll cause a shift in launch date or time fairly close to the planned T-0.

Rocket Lab ready to launch IoT 4 You and Me Kinéis 16-20 on Tuesday but weather presents challenge

Rocket Lab is scheduled to launch its fourth batch of five satellites for the French Kinéis IoT constellation designed to operate with 25 nanosatellites of 30 kg each at a cost of $6 Million.

The launch will take place at 12:43 pm PST from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

Weather is a challenge with a forecast that calls for a temperature of 63°F, overcast clouds, 99% cloud cover and a wind speed of 7mph.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Kinéis’ space connectivity applications are used in a number of fields that represent major challenges for humankind: natural risk prevention (detection of forest fires, floods, pollution, etc.), monitoring of infrastructure and energy networks (detection of anomalies, predictive maintenance, etc.), transport and logistics monitoring agriculture, traceability of wild and farmed animals, and monitoring of agriculture activities.

The Kinéis constellation also integrates the AIS (Automatic Identification System), a maritime automatic identification system for ships operating on VHF (Very High Frequency) radio frequencies, which enables ship and surveillance systems to know the identity, position, direction and status of ships at sea.

Kinéis’ satellite-based AIS (S-AIS) is a high-performance system (requiring no ground infrastructure) that complements terrestrial AIS, enabling ships to be monitored worldwide, even in international waters not accessible by terrestrial AIS.

Rocket Lab’s launch of IoT 4 You and Me Kinéis 16-20 Monday

IOT 4 You and Me Rocket Lab is scheduled to launch Fourth batch of five satellites for the French Kinéis IoT constellation designed to operate with 25 nanosatellites of 30 kg each on Monday, February 3, at 12:43 pm PST.

The launch will take place from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The forecast calls for a temperature of 64°F, clear skies, 8% cloud cover and a wind speed of 16mph.

The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

“IOT 4 You and Me” is Rocket Lab’s first scheduled launch of 2025, with the company expecting this year to exceed its record-breaking launch cadence of 16 launches across Electron and HASTE achieved in 2024.

Created in 2018, Kinéis is a satellite operator and global connectivity provider. It inherited 40 years of expertise in the Argos system, founded by CNES (French space agency) and historically operated by CLS (Collecte Localisation Satellites). Its mission is to develop reliable technology that provides easy access to useful satellite data.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Rocket Lab’s launch of IoT 4 You and Me (Kinéis 16-20) scheduled February 4

The “IOT 4 You and Me” mission is scheduled to launch during window that opens on February 4th NZDT. Within the multi-day window, there is an instantaneous launch opportunity daily at 09:43 am NZDT (20:43 UTC).

The launch will take place from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

“IOT 4 You and Me” is Rocket Lab’s first scheduled launch of 2025, with the company expecting this year to exceed its record-breaking launch cadence of 16 launches across Electron and HASTE achieved in 2024.

Created in 2018, Kinéis is a satellite operator and global connectivity provider. It inherited 40 years of expertise in the Argos system, founded by CNES (French space agency) and historically operated by CLS (Collecte Localisation Satellites). Its mission is to develop reliable technology that provides easy access to useful satellite data.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Kinéis’ space connectivity applications are used in a number of fields that represent major challenges for mankind, its activities and its environment today: natural risk prevention (detection of forest fires, floods, pollution, etc.), monitoring of infrastructures and energy networks (detection of anomalies, predictive maintenance, etc.), transport and logistics monitoring, agriculture, traceability of wild and farmed animals, and monitoring of commercial and leisure maritime activities.

The Kinéis constellation also integrates the AIS (Automatic Identification System), a maritime automatic identification system for ships operating on VHF (Very High Frequency) radio frequencies, which enables ships and surveillance systems to know the identity, position, direction and status of ships at sea.

Kinéis’ satellite-based AIS (S-AIS) is a high-performance system (requiring no ground infrastructure) that complements terrestrial AIS, enabling ships to be monitored worldwide, even in international waters not accessible by terrestrial AIS.

Rocket Lab USA, Inc. (Nasdaq: RKLB) has signed a multi-launch deal with Institute for Q-shu Pioneers of Space, Inc. (iQPS), a Japan-based, Earth imaging company.

The multi-launch contract, signed in July of 2024, includes three dedicated missions for launch in 2025 from Rocket Lab Launch Complex 1 in New Zealand, with a fourth launch scheduled for 2026. Each mission will carry a single satellite to form part of iQPS’ planned constellation of 36 synthetic aperture radar (SAR) satellites that are capable of collecting images through cloud and at night with a high resolution of less than a meter.

This multi-launch contract follows Rocket Lab’s deployment of iQPS’ second commercial SAR satellite to space, QPS-SAR-5, during an Electron launch in December of 2023. The mission was an expedited launch for iQPS that took place within four months of the launch contract’s announcement, after their original launch provider could not meet iQPS’ mission requirements. In addition to launching on Electron, all iQPS satellites will use a Rocket Lab Motorized Lightband as its separation system for deployment to space.

Rocket Lab has emerged as a leading launch provider for Japanese and South Korean space users, having launched Electron missions for EO constellation operators in the region and technology demonstrations. These missions include the previously-launched iQPS mission in December 2023; a mission for the Korea Advanced Institute of Science and Technology (KAIST) in April 2024; a launch for Astroscale-Japan in February 2024 that successfully deployed a technology demonstrator for the first phase of Astroscale-Japan’s orbital debris removal program; and six out of 16 missions on Electron for Japan-based Synspective, for whom Rocket Lab is their sole launch provider to deploy their constellation.

Rocket Lab founder and CEO, Sir Peter Beck, said, “A constellation’s success relies on spacecraft being deployed to precise orbits on tailored timelines to maximize the data collection or service provision the customer needs for their end users. This is the unique and reliable service that dedicated launch on Electron delivers. It’s a privilege to be entrusted with the next batch of iQPS satellites and we look forward to helping them build out the next stage of their constellation.”

iQPS CEO, Dr. Shunsuke Onishi, said, “We are excited to announce our collaboration with Rocket Lab for four upcoming missions. Building on the successful launch of QPS-SAR-5 “TSUKUYOMI-I” in December 2023, this partnership marks another significant milestone in our project. We are deeply grateful to everyone involved in this project – our dedicated team and Rocket Lab – for their commitment and hard work to this contract. As we accelerate the manufacturing and launch of QPS-SAR satellites to build a constellation, we are confident that Rocket Lab is the trusted partner for this purpose and will make our plans even more solid.”

Rocket Lab’s Tuesday launch is also scrubbed with an explaination indicating that: Rocket Lab has delayed the launch of the IOT 4 You and Me mission in order to ensure the mission does not interfere with “space traffic from other satellites and the ISS,” according to a company statement on X see below. A new launch date has not yet been set.

What is COLA? Collision On Launch Avoidance/Assessment — a process that assesses space traffic from other satellites and the ISS to determine when a rocket can be launched safely. It essentially it tells us when it’s safe to merge onto the space highway. Because the position of spacecraft are always changing relative to each other and the Earth, COLA reports are most accurate a few hours out from launch, which is why sometimes they’ll cause a shift in launch date or time fairly close to the planned T-0.

Rocket Lab ready to launch IoT 4 You and Me Kinéis 16-20 on Tuesday but weather presents challenge

Rocket Lab is scheduled to launch its fourth batch of five satellites for the French Kinéis IoT constellation designed to operate with 25 nanosatellites of 30 kg each at a cost of $6 Million.

The launch will take place at 12:43 pm PST from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

Weather is a challenge with a forecast that calls for a temperature of 63°F, overcast clouds, 99% cloud cover and a wind speed of 7mph.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Kinéis’ space connectivity applications are used in a number of fields that represent major challenges for humankind: natural risk prevention (detection of forest fires, floods, pollution, etc.), monitoring of infrastructure and energy networks (detection of anomalies, predictive maintenance, etc.), transport and logistics monitoring agriculture, traceability of wild and farmed animals, and monitoring of agriculture activities.

The Kinéis constellation also integrates the AIS (Automatic Identification System), a maritime automatic identification system for ships operating on VHF (Very High Frequency) radio frequencies, which enables ship and surveillance systems to know the identity, position, direction and status of ships at sea.

Kinéis’ satellite-based AIS (S-AIS) is a high-performance system (requiring no ground infrastructure) that complements terrestrial AIS, enabling ships to be monitored worldwide, even in international waters not accessible by terrestrial AIS.

Rocket Lab’s launch of IoT 4 You and Me Kinéis 16-20 Monday

IOT 4 You and Me Rocket Lab is scheduled to launch Fourth batch of five satellites for the French Kinéis IoT constellation designed to operate with 25 nanosatellites of 30 kg each on Monday, February 3, at 12:43 pm PST.

The launch will take place from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The forecast calls for a temperature of 64°F, clear skies, 8% cloud cover and a wind speed of 16mph.

The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

“IOT 4 You and Me” is Rocket Lab’s first scheduled launch of 2025, with the company expecting this year to exceed its record-breaking launch cadence of 16 launches across Electron and HASTE achieved in 2024.

Created in 2018, Kinéis is a satellite operator and global connectivity provider. It inherited 40 years of expertise in the Argos system, founded by CNES (French space agency) and historically operated by CLS (Collecte Localisation Satellites). Its mission is to develop reliable technology that provides easy access to useful satellite data.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Rocket Lab’s launch of IoT 4 You and Me (Kinéis 16-20) scheduled February 4

The “IOT 4 You and Me” mission is scheduled to launch during window that opens on February 4th NZDT. Within the multi-day window, there is an instantaneous launch opportunity daily at 09:43 am NZDT (20:43 UTC).

The launch will take place from Rocket Lab’s private orbital launch site, Launch Complex 1, in New Zealand. The mission is the fourth of five dedicated Electron launches booked by Kinéis in a multi-launch contract that will see Rocket Lab deploy an entire constellation of 25 IoT satellites.  The first three missions were successfully launched by Electron in June, September and November 2024.

“IOT 4 You and Me” is Rocket Lab’s first scheduled launch of 2025, with the company expecting this year to exceed its record-breaking launch cadence of 16 launches across Electron and HASTE achieved in 2024.

Created in 2018, Kinéis is a satellite operator and global connectivity provider. It inherited 40 years of expertise in the Argos system, founded by CNES (French space agency) and historically operated by CLS (Collecte Localisation Satellites). Its mission is to develop reliable technology that provides easy access to useful satellite data.

Thanks to its constellation of 25 nanosatellites, Kinéis can connect any object from anywhere in the world and transmit useful data from these objects to users in near real time. This data is a decision-making tool that can be used to optimize activities while reducing risks, thanks to three essential functions: tracking, monitoring and alerting.

Kinéis’ space connectivity applications are used in a number of fields that represent major challenges for mankind, its activities and its environment today: natural risk prevention (detection of forest fires, floods, pollution, etc.), monitoring of infrastructures and energy networks (detection of anomalies, predictive maintenance, etc.), transport and logistics monitoring, agriculture, traceability of wild and farmed animals, and monitoring of commercial and leisure maritime activities.

The Kinéis constellation also integrates the AIS (Automatic Identification System), a maritime automatic identification system for ships operating on VHF (Very High Frequency) radio frequencies, which enables ships and surveillance systems to know the identity, position, direction and status of ships at sea.

Kinéis’ satellite-based AIS (S-AIS) is a high-performance system (requiring no ground infrastructure) that complements terrestrial AIS, enabling ships to be monitored worldwide, even in international waters not accessible by terrestrial AIS.

With a launch that was definately fogged in, on Tuesday, February 4 at 5:15 a.m. ET, Falcon 9 launched 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. All photos by Satnews.

SpaceX has now launched 15 Falcon 9 missions so far in 2025. Ten of them have been Starlink flights. This was the 21st flight for the first stage booster supporting this mission, which previously launched OneWeb 1, SES 18+19, Eutelsat HOTBIRD-F1, CRS-24, and now 17 Starlink missions.

Last year, SpaceX launched more than 130 Falcon 9 flights, with approximately two-thirds of them designated specifically for the Starlink network that is the largest satellite constellation to date. SpaceX currently operates nearly 7,000 Starlink satellites in LEO, according to astrophysicist and satellite tracker Jonathan McDowell.

SpaceX launch of Starlink Group 12-3 smallsats including 13 Direct to Cell now on Tuesday

SpaceX is targeting Tuesday, February 4 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 3:37 a.m. ET, with backup opportunities available until 6:24 a.m. ET. If needed, additional launch opportunities are also available Wednesday, February 5 starting at 2:59 a.m. ET.

A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch on X @SpaceX. You can also watch the webcast on the new X TV app.

According to weather officials, there’s a 95% chance of favorable weather conditions at the time of the launch. The forecast calls for a temperature of 68°F, broken clouds, 55% cloud cover and a wind speed of 7mph.

This is the 21st flight for the first stage booster supporting this mission, which previously launched OneWeb 1, SES 18+19, Eutelsat HOTBIRD-F1, CRS-24, and 16 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.

SpaceX to launch Starlink Group 12-3 smallsats including 13 Direct to Cell on Monday

SpaceX is targeting Monday, February 3 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 5:54 a.m. ET, with backup opportunities available until 7:42 a.m. ET. If needed, additional launch opportunities are also available Tuesday, February 4 starting at 3:36 a.m. ET.

According to weather officials, there’s a 95% chance of favorable weather conditions at the time of the launch. The forecast calls for a temperature of 65°F, few clouds, 14% cloud cover and a wind speed of 8mph.

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 21st flight for the first stage booster supporting this mission, which previously launched OneWeb 1, SES 18+19, Eutelsat HOTBIRD-F1, CRS-24, and 16 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.