We’re currently in the early stages of Solar Cycle 25, a significant increase of activity on the sun’s surface which can result in solar flares that can impact everything from radio communications to the GNSS signals. Learn how EGNOS helps us during these anomalies:
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More Relevant Posts
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The Catastrophic Threat of a Solar Storm: Is Our World on the Brink of Technological Blackout? Discover the terrifying potential of a solar storm like the Carrington event and its impact on our modern society. Explore how electrical currents could fry power grids, leaving millions without electricity for weeks or even months. Learn about the potential disruption to communication systems, satellites, and navigation, which could plunge our world into darkness. #SolarStormThreat #TechnologicalBlackout #CarringtonEvent #PowerGridDisruption #CommunicationBreakdown #SatelliteFailure #NavigationDisarray #ElectricalCurrents #ModernSociety #SolarEmission
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Ionospheric activity and scintillation effects will continue to increase throughout Solar Cycle 25. Learn how to plan ahead and protect your vessel’s GNSS positioning against ionospheric scintillation errors >> https://hxgn.biz/3tDXTdi #Scintillation #IonosphericEffects #SpaceWeather #SolarCycle #GNSSCorrections
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Solar flares have the potential to significantly impact communication channels including satellites. What planning have you done or could do to prepare for a communications black out? How will you continue to deliver your services? Are you prepared? Or do you need support to prepare for, respond to and recover from emergency events? https://lnkd.in/dnUCtset
The sun has hit peak solar energy. Things will get chaotic
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🚀 Exciting news from ION GNSS+! Today, our experts will be presenting on how to maintain high RTK availability and accuracy during Solar Cycle 25. Join us for insights into the atmospheric effects on GNSS and learn strategies to navigate these challenges. Don’t miss it! 🌞 #IONGNSS #RTK #SolarCycle25 #GNSSInsights #ionavigation
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Ionospheric activity and scintillation effects will continue to increase throughout Solar Cycle 25. Learn how to plan ahead and protect your vessel’s GNSS positioning against ionospheric scintillation errors >> https://hxgn.biz/3tDXTdi #Scintillation #IonosphericEffects #SpaceWeather #SolarCycle #GNSSCorrections
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Ionospheric activity and scintillation effects will continue to increase throughout Solar Cycle 25. Learn how to plan ahead and protect your vessel’s GNSS positioning against ionospheric scintillation errors >> https://hxgn.biz/3tDXTdi #Scintillation #IonosphericEffects #SpaceWeather #SolarCycle #GNSSCorrections
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Watch 12 Hours of Solar Fireworks in Just 20 Seconds! The Solar Dynamic Observatory (SDO) has captured one of the longest solar flares ever recorded. In this newly released time-lapse, you can witness a powerful solar flare that lasts around 12 hours—while typical solar flares usually fade out after about an hour. The growth of solar flare loops, which carry immense amounts of energy, is clearly visible. During this event, a massive stream of charged particles is released into space. #SolarFlare #Space
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The Carrington Event: Protecting Our Modern Technology from Solar Catastrophe Discover the shocking story of the Carrington event, a massive geomagnetic storm that almost brought down our technology in the past. Learn about the potential catastrophic effects on power grids, satellites, and internet services, highlighting the importance of preparedness for future solar events. #CarringtonEvent #SolarCatastrophe #TechnologyVulnerability #GeomagneticStorm #PowerGrids #Satellites #InternetServices #SolarEventsPreparedness #TechnologyDisaster #GeomagneticImpact
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Did you know that solar storms can affect GPS signals? ☀️📡 Solar storms, consisting of solar flares and coronal mass ejections, release massive amounts of energy that can interfere with communication systems. When GNSS signals travel through the ionosphere, they encounter free electrons and ions caused by the sun's ultraviolet radiation. This interaction causes delays and signal fluctuations that significantly impact the accuracy and reliability of GNSS receivers. The Carrington event of 1859 and the Quebec blackout of 1989 showed the severe impact of solar storms on our infrastructure. More recently, a solar storm in February 2024 disrupted GPS-controlled tractors during the planting season. To counteract these disturbances, GNSS modules and chips can be equipped with algorithms that mitigate the effects of ionospheric disturbances. Continuous testing and optimization ensure that these systems operate effectively, even during solar storms. Want to learn more? Check out our blog: https://ow.ly/6uyc30sFPEg #SolarStorm #GNSS #SpaceWeather #ubloxbrand
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Solar flares, those bursts of radiation from the Sun, can actually impact our technology here on Earth! A massive solar flare can disrupt satellite communications, GPS signals, and even power grids. At Axio Networks, we're always prepared for these cosmic events. Our robust IT infrastructure and disaster recovery plans ensure that even when space weather gets a bit wild, your tech remains secure and reliable. Got questions about how solar flares affect technology or want to learn more about our solutions? Drop them below! #FunFactFriday #SolarFlares #TechAndSpace #MSP #ITCompany #SpaceWeather #ITsupport #IT #scottsdale #kierlandcommons #scottsdalebusinessowners #followme #smallbusiness
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