Atomos Space’s Post

"Zero-instrumentation observability based on eBPF" ⏰ Date & Time: May 9th, 5 PM GMT 🎙️ Speaker: Nikolay Sivko, Founder at Coroot 🔗 Registration link: https://lnkd.in/eK8z7Gkx This talk covers: ⚙️ gathering telemetry data like metrics, logs, and traces using eBPF. ⚙️ tracking container activities such as network calls and filesystem operations. ⚙️ using this telemetry data for effective troubleshooting.

test link without https theverge.com and one with bit.ly/3B9rKxG

Check out this video for our latest activity report on the Chinese satellite TJS-10 and its similarity to TJS-3. This video shows approximately two weeks of the on-orbit behavior of the Chinese satellite TJS-10 in May 2024. TJS-10 was launched to GEO in November 2023, but the official mission has not been disclosed. Since reaching GEO, TJS-10 has been parked in the vicinity of another Chinese satellite, TJS-3, and in the same plane. Initially TJS-10 was east of TJS-3 by 200-400 km. During May TJS-10 maneuvered to the west of TJS-3, where it has remained, approximately 100 km away. This behavior is very similar to the early operations of TJS-3 with the TJS-3 apogee kick motor (AKM), during the five months of on-orbit testing that followed its launch. Both TJS-3 and TJS-10 are reported to have some sort of communications mission. It was clear from the original TJS-3 on-orbit testing that the AKM was involved. This recent relationship with TJS-10 and TJS-3 implies that TJS-10 may be performing a similar checkout. Note that in the case of TJS-3, the AKM was always to the east of TJS-3. In this recent example, we see TJS-10 operate both east and west of TJS-3. #Space #Satellites

In our commitment to providing a seamless user experience, even when bugs or errors occur, we've focused on equipping our users with a robust knowledge base. This enables easy resolution or reporting of issues, which is crucial for maintaining smooth operations. Additionally, our recent launch of compatible and useful custom fields for Jira Service Management is a step further in enhancing ITSM practices. We’re curious to hear from you: What custom field is missing in your JSM portal that would optimize your customer service? Your feedback is crucial as we innovate and continue to develop solutions that precisely meet your needs. Let’s innovate together and enhance our ITSM capabilities. #JiraServiceManagement #CustomerSupport #InnovationInITSM

Is your documentation up-to-date? Discover some of the most critical aspects of API documentation in SignalWire’s blog: https://lnkd.in/eXXt8abb

Wavefront Systems' Simultaneous In-band Active and Passive Sonar (SInAPS) takes the existing active system and combines it with a new passive tracking capability. This tracks the target by listening to the noise it is emitting, a highly innovative technique using the same array for both active and passive processing at the same time. 🌊 Wavefront has released an article outlining the details and capabilities of SInAPS, which evolved during development of the latest generation of the company’s Sentinel Intruder Detection Sonar, as Wavefront realized something more than incremental upgrade of the previous versions of Sentinel was required. The company goes on to discuss: ⚡️ What is SInAPS, and why is it so powerful? ⚓️ Sentinel IDS: The Sonar Solution for Mobile and Fixed Use 🚢 Mobile Sonar Installation Options Find out more >> https://hubs.la/Q02rDB8G0 The company emphasizes the key takeaway from this article has to be that the development of unique and highly advanced SInAPS sonar technology allows IDS to identify and track threats faster and more effectively than ever before. This is a really interesting move towards truly efficient and effective sonar 👏 Read more on the Ocean Science & Technology website. #ocean #sonar #technology #tracking #maritime

Regulation Engines, while conceptually simple, rely on a complex interplay of technologies to function effectively. Let's delve into the technical aspects that power these systems:

My KubeConNA presentation with Dr. Stefan Schimanski is out! Thanks to all, who attended. Normally deep-dive sessions are not so popular, so we were a bit skeptical: "Maybe we will get 30-40 people" we said. So how surprised we were when we got around 400 registered and ~300 in the room :D It's always a challenge to fit a deep dive into 35 minutes slot as you end up spending half-time setting the baseline, and the rest of the time "deep diving". But we are happy with the result! Amazing questions and encouraging comments. There is a need for Kubernetes-like control plane technology out there! And now we have 2: generic control plane and kcp! We heard the feedback: 1. Make it easier to consume, easier to deploy 2. We need to refine (for the third time) the compute story with generic control planes (maybe it's time for some diagrams?). 3. Tenancy management is complicated and unclear—point taken! Way to provision your own tenancy forests instead of a single tree! 4. Better documentation. (Anybody wants to help us? please get in touch!) 5. And finally - you liked the "mount concept" - it is a clear signal we need to move out of the experimental phase to something part of the core! All and all - Thanks for being part of this! Every talk like this requires an enormous amount of time and effort and seeing all of you there - motivates us more. Thanks #CastAI #Upbound #Kubermatics #CNCF (and a few others which I not gonna tag because you want to stay stealth :) ) for the support! Democratize control planes! https://lnkd.in/dRQADcCs https://lnkd.in/d2W7PnVN

ROS2 control and navigation : new achievement

https://lnkd.in/dXK-Kp2p wow but whatta bout solving in da house problems? cmon lets evolve once 4 all