My Mom was finally laid to rest today. May she forever be at peace.

A video slideshow that I created to celebrate the life of my wonderful Mom is at the bottom of this entry.

Up Next: The Los Angeles Summer Olympics!

Earlier today, the closing ceremony was held for the Milano Cortina Games at the historic Verona Arena in Italy. This event capped off two weeks of sporting competitions that saw Team USA win a total of 33 medals—12 of them gold, and 8 of those 12 gold medals being won by women! Among these women were stellar figure skater Alysa Liu and veteran alpine skier Mikaela Shiffrin, who earned Olympic gold in women's slalom...her first since she won the giant slalom at the Pyeongchang Winter Games in 2018.

Other Team USA heroes that emerged from the 2026 Games were Alysa Liu's fellow figure skaters Amber Glenn, Ilia Malinin, Madsion Chock, Evan Bates, Ellie Kam and Danny O'Shea; alpine skier Breezy Johnson; freestyle skiers Elizabeth Lemley, Alex Ferreira, Connor Curran, Kaila Kuhn and Christopher Lillis; speed skater Jordan Stolz and monobob pilot Elana Meyers Taylor. And to top things off, the members of the men and women's hockey teams who both bested Canada in their respective gold medal games to take home the hardware. In the case of the men's hockey team, today's win was America's first victory since the "Miracle on Ice" team defeated the Soviets at the 1980 Winter Games in Lake Placid, New York.

With the 2026 Games now in the books, all eyes turn to the LA28 Olympics in Southern California! The Los Angeles Summer Games will actually have events (the majority of them soccer matches) that take place in Northern California as well as other states like Oklahoma, New York, Ohio, Tennessee and Missouri. But the main events such as track and field, gymnastics, swimming, basketball, baseball and flag football will occur in downtown Los Angeles and Los Angeles County, respectively.

The closest competitions to where I reside, in Pomona, will be held in the city of Industry (for mountain biking) and the Pomona Fairgrounds (for cricket)! For personal reasons, I don't wanna think too far ahead (even though 2028 is only two years away), but I'm excited about the prospect of attending Olympic events only 4 to 10 miles from where I live. Hope you guys had a nice weekend!

ULA's Newest Launch Vehicle Has Another SRB Anomaly While Completing Its Fourth Flight to Earth Orbit...

United Launch Alliance

U.S. Space Force’s Space Systems Command and United Launch Alliance Successfully Launch USSF-87 Mission Aboard a Vulcan Rocket (News Release - February 12)

EL SEGUNDO, Calif. – U.S. Space Force’s (USSF) Space Systems Command (SSC) System Delta 80 (SYD 80) and its mission partners successfully completed a National Security Space Launch (NSSL) after a pre-dawn liftoff at 4:22 a.m. EST (1:22 a.m. PST) today aboard a United Launch Alliance (ULA) Vulcan Centaur rocket from Space Launch Complex (SLC)-41 at Cape Canaveral Space Force Station, Florida. This was the second NSSL mission for ULA’s Vulcan rocket.

“We’re proud of everyone and the work they’ve done to make today’s launch a success and increase America’s warfighting capability.” said Mr. Stephen Burke, Vulcan System Program Director.

The Vulcan rocket successfully delivered the mission to the designated orbits despite an observed anomaly early in flight on one of the four solid rocket motors. The USSF SYD 80 team will work closely with ULA per our mission assurance space flightworthiness process before the next Vulcan national security space mission.

The USSF-87 mission included a variety of payloads that will not only advance space technology but also benefit current and future programs of record. The Geosynchronous Space Situational Awareness Program (GSSAP) space system is a capability supporting the U.S. Space Command’s space surveillance operations as a high-performance, dedicated Space Surveillance Network sensor. Built by Northrop-Grumman, it was deployed approximately 6.5 hours after liftoff.

The system was delivered to orbit by ULA’s Vulcan in the “VC4S” configuration, featuring a Centaur V upper stage, four solid rocket motors and a standard payload fairing. It capitalizes on ULA’s industrial base to deliver highly-capable solutions that achieve space dominance for our national security.

In addition to GSSAP, USSF-87 included additional research, development and training systems, which Guardians will use to refine tactics, techniques and procedures for precision on-orbit maneuvers. These systems will also enhance and validate resiliency and protection in geosynchronous orbit.

Systems Delta 80 (SYD 80) -- who directed today’s mission -- executes the U.S. Space Force's core function of Space Access, performing space lift and range control missions in close partnership with the 30th and 45th Space Launch Deltas (SLD 30, SLD 45). Additionally, the Delta develops resilient and ready launch and test infrastructure to expand U.S. economic, technological and scientific leadership. Furthermore, SYD 80 delivers servicing, mobility and logistics capabilities that operate in, from and to the space domain.

Source: Space Systems Command

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United Launch Alliance's Vulcan rocket today successfully launched national security spacecraft into geosynchronous orbit, including a "neighborhood watch" mission to patrol the strategic high ground of space.

Despite the solid rocket motor performance anomaly, the Vulcan… pic.twitter.com/HQCOquvofZ

— ULA (@ulalaunch) February 12, 2026

The Vulcan vehicle rolls during its wild ride to orbit in this tracking video captured south of the launch site by Max Q Productions @CarstensPete pic.twitter.com/FvmkrvJYnz

— Spaceflight Now (@SpaceflightNow) February 12, 2026

Europe's Newest Rocket Takes Flight in its Most Powerful Configuration...

Arianespace Successfully Launches 32 Amazon Leo Satellites with the First Ariane 64 (Press Release)

On February 12, 2026 at 1:45 p.m. local time (4:45 p.m. UTC, 5:45 p.m. CET), Arianespace successfully launched 32 Amazon Leo satellites with Ariane 64 from Europe's Spaceport in French Guiana. The satellites were delivered to a low-Earth orbit, at an altitude of approximately 465 km. The mission lasted 1 hour and 54 minutes, from lift-off to separation of all the satellites.

The mission, called VA267 (LE-01 for Amazon Leo), initiated the first of 18 Ariane 6 launches booked to support the deployment of the Amazon Leo constellation. It also marked the first launch for the constellation performed by a European launcher.

David Cavaillolès, Arianespace's CEO said “Today's successful flight marks a major milestone for Arianespace, for our customer Amazon Leo and for the whole European space sector. With the first flight of Ariane 64, Europe's heavy-lift launcher has demonstrated its ability to deliver the most demanding large-scale constellation missions. We are proud to support Amazon Leo with a reliable, high-performance European launch solution as we begin a series of 18 missions enabling the deployment of their constellation. We thank Amazon Leo for their confidence and are proud to support them as a trusted launch partner.”

Martin Sion, ArianeGroup's CEO announced “This new success is a major milestone for the development of Ariane 6 as it was the first flight in the four-booster version. This successful entry into service once again highlights the quality of the teams at ArianeGroup and its European partners. Now, Europe has two versions of Ariane 6 heavy launcher to meet all of its needs. Our teams are already working to improve the launcher's competitiveness through the development of evolutions that will increase its payload capacity. In 2026, we will therefore accelerate production and integrate major improvements so that Ariane 6 will be even better.”

For this new range of constellation-type missions, Ariane 6 incorporates various adaptations to accommodate the increased payload mass.

Flight VA267, the first launch of Ariane 6 in its four-booster configuration, carried the heaviest payload ever placed into orbit by the European launcher. During this mission, Ariane 6 delivered around 20 metric tons into orbit – about twice the payload capacity of the two-booster Ariane 62 variant. It demonstrates the full-power capability of Ariane 6 and its ability to meet the requirements of large-scale constellation deployments.

Ariane 6 also flew for the first time with its long fairing configuration. During this mission, the 32 Amazon Leo satellites were accommodated under a 20-meter-high fairing, giving the launcher a height of 62 meters.

This flight VA267 is a major milestone for the development of Ariane 6 under the European Space Agency's oversight.

Source: Arianespace

The Winter Games Are Here While the NFL Has Revealed Its 2025 Regular Season MVP...

Mike Segar / REUTERS

Earlier today, the opening ceremony for the Milano Cortina Winter Olympic Games was held at San Siro Stadium in Northern Italy, while yesterday, Los Angeles Rams quarterback Matthew Stafford was named as the Most Valuable Player of the National Football League's 2025 regular season.

While it would've been awesome if Stafford could utilize his newly-crowned MVP skills against the New England Patriots (and fellow MVP candidate Drake Maye) in Super Bowl LX two days from now, this was not meant to be as Stafford will have to wait till next season to try to bring the Rams to the Big Game for the second time since 2022. And interestingly, Super Bowl XLI will be played at Inglewood's SoFi Stadium—where Stafford won his first NFL championship almost four years ago.

In regards to the Olympics, the Games will last through February 22...and feature such Team USA favorites as figure skaters Madison Chock and Evan Bates, alpine skier Ryan Cochran-Siegle and snowboarder Chloe Kim vying for another gold or silver medal, respectively. Carry on!

The Latest Update on the Mars 2020 Mission...

NASA / JPL - Caltech

NASA’s Perseverance Rover Completes First AI-Planned Drive on Mars (News Release - January 30)

The team for the six-wheeled scientist used a vision-capable AI to create a safe route over the Red Planet’s surface without the input of human route planners.

NASA’s Perseverance Mars rover has completed the first drives on another world that were planned by artificial intelligence. Executed on December 8 and 10, and led by the agency’s Jet Propulsion Laboratory in Southern California, the demonstration used generative AI to create waypoints for Perseverance, a complex decision-making task typically performed manually by the mission’s human rover planners.

“This demonstration shows how far our capabilities have advanced and broadens how we will explore other worlds,” said NASA Administrator Jared Isaacman. “Autonomous technologies like this can help missions to operate more efficiently, respond to challenging terrain, and increase science return as distance from Earth grows. It’s a strong example of teams applying new technology carefully and responsibly in real operations.”

During the demonstration, the team leveraged a type of generative AI called vision-language models to analyze existing data from JPL’s surface mission dataset. The AI used the same imagery and data that human planners rely on to generate waypoints — fixed locations where the rover takes up a new set of instructions — so that Perseverance could safely navigate the challenging Martian terrain.

The initiative was led out of JPL’s Rover Operations Center (ROC) in collaboration with Anthropic, using the company’s Claude AI models.

Progress for Mars, beyond

Mars is on average about 140 million miles (225 million kilometers) away from Earth. This vast distance creates a significant communication lag, making real-time remote operation — or “joy-sticking” — of a rover impossible. Instead, for the past 28 years, over several missions, rover routes have been planned and executed by human “drivers,” who analyze the terrain and status data to sketch a route using waypoints, which are usually spaced no more than 330 feet (100 meters) apart to avoid any potential hazards. Then they send the plans via NASA’s Deep Space Network to the rover, which executes them.

But for Perseverance’s drives on the 1,707th and 1,709th Martian days, or sols, of the mission, the team did something different: Generative AI provided the analysis of the high-resolution orbital imagery from the HiRISE (High Resolution Imaging Science Experiment) camera aboard NASA’s Mars Reconnaissance Orbiter and terrain-slope data from digital elevation models. After identifying critical terrain features — bedrock, outcrops, hazardous boulder fields, sand ripples and the like — it generated a continuous path complete with waypoints.

To ensure that the AI’s instructions were fully compatible with the rover’s flight software, the engineering team also processed the drive commands through JPL’s “digital twin” (virtual replica of the rover), verifying over 500,000 telemetry variables before sending commands to Mars.

On December 8, with generative AI waypoints in its memory, Perseverance drove 689 feet (210 meters). Two days later, it drove 807 feet (246 meters).

“The fundamental elements of generative AI are showing a lot of promise in streamlining the pillars of autonomous navigation for off-planet driving: perception (seeing the rocks and ripples), localization (knowing where we are), and planning and control (deciding and executing the safest path),” said Vandi Verma, a space roboticist at JPL and a member of the Perseverance engineering team. “We are moving towards a day where generative AI and other smart tools will help our surface rovers handle kilometer-scale drives while minimizing operator workload, and flag interesting surface features for our science team by scouring huge volumes of rover images.”

“Imagine intelligent systems not only on the ground at Earth, but also in edge applications in our rovers, helicopters, drones and other surface elements trained with the collective wisdom of our NASA engineers, scientists and astronauts,” said Matt Wallace, manager of JPL’s Exploration Systems Office. “That is the game-changing technology we need to establish the infrastructure and systems required for a permanent human presence on the Moon and take the U.S. to Mars and beyond."

Source: Jet Propulsion Laboratory

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