Live 4K video from space! See 24/7 views of Earth from the ISS via Sen cameras
Click play, go full-screen, lean back and enjoy. That's how easy it is now to get lost in the absolutely stunning scape that is our planet Earth from space as it streams live before your eyes.
Sen, a company based in London, provides views of Earth from orbit, with the hopes of making an experience usually reserved for astronauts a little more accessible to the rest of humanity. It's live video of Earth from space, 24 hours a day and seven days a week.
The overview effect is a phenomenon known to occur for those lucky enough to travel beyond the bounds of our gravity well, in which the view of our planet from space changes one's perception of his or home planet and humanity. Apollo 14 astronaut Ed Mitchell described it as "an instant global consciousness," accompanied with "an intense dissatisfaction with the state of the world and a compulsion to do something about it."
Sen launched three Ultra High Definition 4k cameras to the ISS on SpaceX's CRS-30 cargo mission to the space station in March 2024. The trio, collectively called SpaceTV-1, are mounted to the Bartolomeo platform on the European Space Agency's (ESA) Columbus module to create three unique views of Earth and the space station.
One camera is oriented to capture the long curve of Earth's horizon, and the repeatedly rising and setting sun is visible as the ISS completes another orbit every 90 minutes. Another focuses directly on Earth below, showing a stretch about 155 miles (250 kilometers) across. The third camera looks at the space station's forward docking port, connected to the the Harmony module, and any visiting spacecraft that are docked there.
Sen's vision is to democratize space using video to inform, educate, inspire and benefit all humanity.
To do this, the company is streaming real-time videos from space to billions of people, gathering news and information about Earth and space and making it universally accessible and useful.
Sen is a data business using its own micro satellites and hosted cameras to stream real-time videos and information about Earth direct to individuals, creating a unique dataset for all humanity, empowering people and inspiring global change.
Sen's vision is a humanitarian one — to help raise awareness about planetary changes and to support those directly affected by events on Earth, and to help inform people about the reality of our existence in space. Sen will give people videos of Earth, other worlds and space. Augmented Reality will be used to overlay the story-telling power of video with additional information, providing multi-world data and unique new perspectives for humanity.
Sen provides its streams from space for free. You can download Sen's mobile app or watch the company's stream directly on Sen.com or its YouTube channel.
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
an hour ago
- Yahoo
Castelion raises $350M Series B to scale hypersonic missile business
Hypersonic weapons startup Castelion has raised a $350 million Series B led by Lightspeed Venture Partners and Altimeter Capital, according to sources and documents viewed by TechCrunch. The round, which values the company in the billions, is anticipated to close in a matter of weeks. The new round comes on the heels of $100 million in Series A funding that closed in January. That round was composed of about $70 million in equity and $30 million of debt. Lightspeed also led that round. Castelion declined to comment. It is notoriously difficult for non-traditional players to break into the sizable government defense market, but Castelion has made notable strides since it emerged from stealth in late 2023. The company, which was founded by former SpaceX executives, wants to transform the production of hypersonic missile systems, a critical national security technology. Despite the U.S. Department of Defense's massive budget, military leaders are sounding the alarm on China's ability to rapidly develop and field hypersonics. These weapons travel above Mach 5 — and China's capabilities are starting to outpace the United States. Castelion is proposing a solution. The business takes a similar approach to SpaceX: build quickly, test frequently, and vertically integrate to drive down costs. It has already won grants and awards from a suite of DoD offices, including the Air Force Research Laboratory and the Naval Air System Command. The company tested its hypersonic vehicle for the first time in the Mojave Desert in March as it looks to prove to the government that it can field low-cost hypersonic missiles at scale. Castelion appeared in the U.S. Army's fiscal year 2026 budget request published in June. In the budget, the military branch has requested $25 million under an initiative called Project HX3 to support the development and testing of an 'affordable, mass-produced hypersonic weapon' called Blackbeard Ground Launch (GL). As the document explains, Blackbeard GL will have around 80% of the capability of a long-range hypersonic weapon variant currently being developed by aerospace primes. But through the contract, the Army is saying it is willing to trade a little bit of speed and range for a lower-cost product. The forthcoming contract, which is essentially a done deal once President Trump signs the budget into law, has two phases: the first will see Castelion deliver a 'prototype proof-of-concept' that it will demonstrate in early 2026. If that is successful, the second phase will include the delivery of 10 prototype missiles in 2027 for additional testing using a standard launcher platform called High Mobility Artillery Rocket System. Blackbeard is also being designed to be compatible with a new launcher system that will have autonomous capabilities. All of Castelion's previous wins with the DoD are a pittance compared to the possibilities afforded by the lucrative hypersonic-weapons market. If the Army field testing goes well, Castelion could ink a larger contract and begin delivering Blackbeard missiles in early 2028. Lockheed Martin, Raytheon, and Northrop Grumman may want to watch their backs. Sign in to access your portfolio
Yahoo
an hour ago
- Yahoo
Intel might axe the 18A process node for foundry customers, essentially leaving TSMC with no rival — Intel reportedly to focus on 14A (Updated)
When you buy through links on our articles, Future and its syndication partners may earn a commission. Lip-Bu Tan, the chief executive of Intel, is considering stopping the promotion of the company's 18A fabrication technology (1.8nm-class) to foundry customers, instead shifting the company's efforts to its next-generation 14A manufacturing process (1.4nm-class) in a bid to secure orders from large customers like Apple or Nvidia, reports Reuters. If this shift in focus occurs, it would be the second node in a row that Intel has deprioritized. The proposed adjustment could result in major financial consequences and alter the trajectory of Intel's foundry operations, as it will effectively withdraw the company from the foundry market for several years. Intel informs us that the information is based on market speculation. However, the spokesperson provided some additional insight on the company's roadmap, which we've added further below.'We are not going to comment on market rumors and speculation," an Intel spokesperson said to Tom's Hardware. "As we have said previously, we are committed to strengthening our roadmap, delivering for our customers and improving our financial position for the future." After taking the helm in March, Lip-Bu Tan announced intentions to cut costs in April, which is expected to involve layoffs and the cancellation of certain projects. According to the new report, by June, he began sharing with colleagues that the 18A manufacturing process — a technology designed to showcase Intel's manufacturing prowess — was losing appeal to outside customers, which is why he believed it made sense for the company to shift away from offering 18A and its performance-enhanced 18A-P version to foundry customers. Instead, Lip-Bu Tan proposed directing more resources to the completion and promotion of 14A, the company's next-generation node, which will be ready for risk production in 2027 and for volume production in 2028. Given the timing of 14A, it is now time to start promoting it among potential third-party Intel Foundry clients. Intel's 18A fabrication technology is the company's first node to utilize its 2nd-generation RibbonFET gate-all-around (GAA) transistors, along with a PowerVia backside power delivery network (BSPDN). By contrast, 14A utilizes RibbonFET 2 transistors, PowerDirect BSPDN, which delivers power directly to each transistor's source and drain through specialized contacts, and features Turbo Cells for critical paths. In addition, 18A is Intel's first leading-edge technology that is compatible with third-party design tools and can be used by its foundry customers. Dropping external sales of 18A and 18A-P would require Intel to account for a substantial write-off reflecting the billions it spent developing the manufacturing technologies, according to individuals familiar with internal deliberations cited by Reuters. Depending on how you count development costs, the resulting charge could total hundreds of millions or even billions of dollars. Both RibbonFET and PowerVia were initially developed for 20A, but that technology was cancelled for internal products last August in a bid to focus on 18A for both internal and external products. Intel's rationale behind the move may be rather simple. By limiting the number of potential customers for 18A, the company may potentially cut its operating costs. The majority of tools required for 20A, 18A, and 14A (except for High-NA EUV equipment) are already in place at its Fab D1D in Oregon, as well as at Fabs 52 and 62 in Arizona. However, once these tools are formally put into operation, the company will have to report their depreciation as a cost. Not putting them online potentially enables Intel to cut its costs amid uncertainties with orders from third-party clients. In addition, by not offering 18A and 18A-P to external customers, Intel may save money on engineers dedicated to supporting the sampling, ramp, and mass production of third-party circuits at Intel fabs. Obviously, this is speculation on our side. However, by ceasing to offer 18A and 18A-P to external clients, Intel will be unable to demonstrate advantages of its fabrication nodes to a broad range of customers with various designs, which would leave them with a single choice for next two or three years: go with TSMC and use N2, N2P, or even A16. Although Samsung is set to formally start making chips on its SF2 (also known as SF3P) node later this year, that node is expected to be behind Intel 18A and TSMC's N2 and A16 in terms of power, performance, and area. Essentially, Intel would not be showing up to its fight against TSMC's N2 and A16, which will certainly not help to gain the confidence of potential clients towards other Intel offerings, namely 14A, 3-T/3-E, Intel/UMC 12nm, and others. Reuters' sources familiar with the matter explained that Lip-Bu Tan had asked Intel's specialists to prepare proposals for discussion with Intel's board this fall. Options could include ceasing efforts to sign up new clients for 18A, though given the scale and complexity of the issue, the decision might not be finalized until the board meets again later this year. Intel itself reportedly declined to discuss hypothetical scenarios but confirmed that the main customer for 18A has always been its own Products division, which plans to begin producing codenamed Panther Lake CPUs for laptops in 2025 using this technology. Eventually, 18A and 18A-P will be adopted by Clearwater Forest, Diamond Rapids, and Jaguar Shores products. Intel's push to attract large-scale external clients to its Intel Foundry fabs remains critical to its turnaround, as only with high volumes the company will be able to pay off for its process technologies that cost billions to develop. However, in addition to Intel itself, only Amazon, Microsoft, and the U.S. Department of Defence have formally confirmed plans to use 18A. While Broadcom and Nvidia are also reportedly testing Intel's latest process technology, they have yet to commit to using it for actual products. Intel's 18A has one key advantage over TSMC's N2: it features backside power delivery, which is particularly useful for power-hungry processors aimed at AI and HPC applications. TSMC's A16 with Super Power Rail (SPR) will only enter mass production in late 2026, so 18A will maintain the advantage of offering backside power delivery for Amazon, Microsoft, and potentially other customers for a while. However, N2 is expected to offer higher transistor density, which is beneficial for the vast majority of chip designs. Furthermore, while Intel has been running Panther Lake silicon at its D1D fab for quarters (so, currently Intel is still in risk production using 18A), the company's high-volume Fab 52 and Fab 62 started to run 18A test silicon this March, so they will start producing commercial chips only late in 2025, or rather in early 2025. Intel's external customers are, of course, interested in producing their designs at high-volume fabs in Arizona rather than at development fabs in Oregon. Intel CEO Lip-Bu Tan is reportedly considering halting the promotion of the company's 18A fabrication process to external clients and instead focusing on the next-generation 14A production node, aiming to attract large customers such as Apple and Nvidia. The move could trigger massive write-offs, as Intel has spent billions developing 18A and 18A-P process technologies. Shifting focus to 14A could help cut costs and better prepare the node and operations for third-party clients, but the move risks undermining customer confidence in Intel's foundry capabilities ahead of 14A's planned production in 2027–2028. While the 18A node remains critical for Intel's own products, such as Panther Lake CPUs, limited demand from third parties — so far, only Amazon, Microsoft, and the U.S. Department of Defense have confirmed plans to use it — has raised concerns about its viability. The potential decision — which will essentially withdraw Intel from the broad foundry market until 14A comes to market — will be reviewed by Intel's board later this year. Even if Intel eventually chooses to remove 18A from its foundry offerings, aimed at a broad range of applications and clients, the company will still manufacture chips using 18A for its own products, which are already designed for the process. It also intends to fulfill limited orders it has already committed to, including supplying chips for the aforementioned clients. Follow Tom's Hardware on Google News to get our up-to-date news, analysis, and reviews in your feeds. Make sure to click the Follow button.
TechCrunch
2 hours ago
- TechCrunch
Castelion raises $350M Series B to scale hypersonic missile business
Hypersonic weapons startup Castelion has raised a $350 million Series B led by Lightspeed Venture Partners and Altimeter Capital, according to sources and documents viewed by TechCrunch. The round, which values the company in the billions, is anticipated to close in a matter of weeks. The new round comes on the heels of $100 million in Series A funding that closed in January. That round was composed of about $70 million in equity and $30 million of debt. Lightspeed also led that round. Castelion declined to comment. It is notoriously difficult for non-traditional players to break into the sizable government defense market, but Castelion has made notable strides since it emerged from stealth in late 2023. The company, which was founded by former SpaceX executives, wants to transform the production of hypersonic missile systems, a critical national security technology. Despite the U.S. Department of Defense's massive budget, military leaders are sounding the alarm on China's ability to rapidly develop and field hypersonics. These weapons travel above Mach 5 — and China's capabilities are starting to outpace the United States. Castelion is proposing a solution. The business takes a similar approach to SpaceX: build quickly, test frequently, and vertically integrate to drive down costs. It has already won grants and awards from a suite of DoD offices, including the Air Force Research Laboratory and the Naval Air System Command. The company tested its hypersonic vehicle for the first time in the Mojave Desert in March as it looks to prove to the government that it can field low-cost hypersonic missiles at scale. Castelion appeared in the U.S. Army's fiscal year 2026 budget request published in June. In the budget, the military branch has requested $25 million under an initiative called Project HX3 to support the development and testing of an 'affordable, mass-produced hypersonic weapon' called Blackbeard Ground Launch (GL). As the document explains, Blackbeard GL will have around 80% of the capability of a long-range hypersonic weapon variant currently being developed by aerospace primes. But through the contract, the Army is saying it is willing to trade a little bit of speed and range for a lower-cost product. Techcrunch event Save $450 on your TechCrunch All Stage pass Build smarter. Scale faster. Connect deeper. Join visionaries from Precursor Ventures, NEA, Index Ventures, Underscore VC, and beyond for a day packed with strategies, workshops, and meaningful connections. Save $450 on your TechCrunch All Stage pass Build smarter. Scale faster. Connect deeper. Join visionaries from Precursor Ventures, NEA, Index Ventures, Underscore VC, and beyond for a day packed with strategies, workshops, and meaningful connections. Boston, MA | REGISTER NOW The forthcoming contract, which is essentially a done deal once President Trump signs the budget into law, has two phases: the first will see Castelion deliver a 'prototype proof-of-concept' that it will demonstrate in early 2026. If that is successful, the second phase will include the delivery of 10 prototype missiles in 2027 for additional testing using a standard launcher platform called High Mobility Artillery Rocket System. Blackbeard is also being designed to be compatible with a new launcher system that will have autonomous capabilities. All of Castelion's previous wins with the DoD are a pittance compared to the possibilities afforded by the lucrative hypersonic-weapons market. If the Army field testing goes well, Castelion could ink a larger contract and begin delivering Blackbeard missiles in early 2028. Lockheed Martin, Raytheon, and Northrop Grumman may want to watch their backs.
