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#5g communication
y0ur-maj3sty · 7 months
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It's simple. They want everything to be electric and 'SMART'.. so they can shut everything down when compliance is not met. Cell phones, cars, stoves, meters on your house, etc. Also, when something happens to your electric vehicles, they'll put you in a "15 Minute City", so you don't need to drive anywhere... because everything is only a 15 walk from where you live. While you bathe in 5G radiation.
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jaydogg816 · 1 year
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I have the same HAM radio that this video is about, I also have the GMRS version. I'm not a prepper or a 'shit hits the fan' kind of person, but I do carry around a few things (mostly in my van), for getting stuck in severe weather, events where my phone might not be working, and/or I become stranded somewhere and unable to make calls. Is it likely? Weather events perhaps, otherwise not really. but it would be arrogant to say never. I don't have my HAM license yet, though I'm… See more
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going-to-superhell · 1 year
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oh for fucks sake
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phonesuite · 2 years
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5G is designed to support nearly 10 times faster Technologies that drive the industry forward and make up 5G, the next wireless standard.
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commissionsdarian · 9 months
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Wdyt about the rise of anti intellectualism in literary circles
I honestly didn't know there was a rise but maybe just don't unless there's an obvious reason to mistrust what's being written
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mentalbarf · 2 years
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5G
you can't resist
Twitter: @mentalbarfwtf
Mental Barf 2022
mentalbarf.wtf
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jcmarchi · 4 days
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Revolutionizing Telecommunications: A Journey Through Time - Technology Org
New Post has been published on https://thedigitalinsider.com/revolutionizing-telecommunications-a-journey-through-time-technology-org/
Revolutionizing Telecommunications: A Journey Through Time - Technology Org
The telecommunications realm has evolved so profoundly that it’s redefined our day-to-day lives, societies, and global connectivity fabric. 
An old historic telephone. Image credit: Alexas_Fotos via Pixabay, free license
In 2023 alone, the planet’s pulse was echoed by the staggering 7.33 billion mobile users, each connected to a grid of voices, data, and opportunities. As we gaze toward the approaching horizon of 2025, that number is expected to swell to an astonishing 7.49 billion users. 
This statistic isn’t just a representation of technological proliferation; it’s a testament to an era of unprecedented digital empowerment.
The trajectory of telecommunications is not just an ascent in numbers—it’s a narrative of human ambition and ingenuity, encapsulating our ceaseless quest to transgress boundaries and shorten the distances between us. 
Read on as we go into a retrospective journey through time, exploring the milestones that have revolutionized how we connect, communicate, and exist in this digital age.
The Dawn of Telecommunications
In the nascent whispers of the telegraph, we first tasted the swiftness of long-distance communication. This primordial innovation sparked a revolution, setting humanity toward a future where distance becomes trivial. As we delve into the turning points of this journey, from wire to satellite, we uncover the threads that wove the modern web of global connectivity.
The invention of the telegraph: The first step towards instant communication  
The electric telegraph, the brainchild of Samuel Morse, revolutionized our concept of distance with the first successful demonstration in 1844. The invention made us send messages through a complex system of dots and dashes; Morse’s invention shrank the world overnight. 
It rendered the painstakingly slow post obsolete, transforming business, journalism, and personal communication. The telegraph heralded an era where news from across oceans arrived almost instantaneously.
It ignited a voracious appetite for even faster connections like electrical sparks. This hunger drove humanity to relentless innovation, laying the groundwork for the next leap in communication: the telephone. Paving the way for voices to traverse copper and air, the telegraph was not merely an invention but the first whisper of a world hungry for instant connection.
The evolution of the telephone: Connecting voices across distances 
Alexander Graham Bell’s telephone, unveiled in 1876, further transformed our vast world into a global village. Speech, once ephemeral, now danced along wires, defying the tyranny of distance. 
Its ring, a sign of instant human presence, became a fixture in homes and businesses. People could whisper, shout, and laugh with someone a continent away. People no longer had to wait days for news of their loved ones—voices carried emotions across borders in real-time.
The telephone’s tendrils reached farther, connecting rural to urban, linking the isolated to the bustling cities. It nurtured relationships and fostered economic growth with each call placed. 
As the 20th century dawned, an insatiable demand for personal, instantaneous communication was apparent. This craving set the stage for the wireless revolution, beckoning a future where conversations weren’t bound by the physical realm—the inception of radio wave communication.
Milestones in Telecommunications Technology
As we stand on the cusp of digital ubiquity, we must recognize our journey through communication milestones. Each breakthrough is a stepping stone to our hyper-connected present. 
The following sections will chart these pivotal innovations, revealing how each reflected the era’s needs, shaped the course of human interaction, and laid the foundation for the technological marvels we depend on today.
Satellite communications: Bridging the global divide 
Satellite communications revolutionized global connectivity by enabling signals to transmit over vast distances. Satellites in orbit act as relays for data between multiple ground stations. This technology allows for real-time communication worldwide, regardless of terrain. It is vital for broadcasting, navigation, and emergency services. Satellites support internet access in remote areas, thus diminishing geographical barriers. The introduction of satellite communication was a turning point in achieving global interconnectedness.
Optical fiber technology: The backbone of high-speed internet 
Optical fiber technology utilizes strands of glass fibers to transmit data at high speeds. These fibers guide light pulses to carry large amounts of information. They are coated to protect and reflect the light within. 
Tightly bundled in cables, these fibers underpin the internet’s backbone. They permit vast data bandwidth, surpassing traditional metal cables. Reliable and less prone to weather interference, fiber optics are critical to modern telecommunications infrastructure. This technology has been integral to the proliferation of high-speed internet services.
The emergence of 5G: The future of mobile connectivity 
The deployment of 5G technology signifies a significant advancement in mobile connectivity. This fifth-generation tech brings substantially faster data speeds and more reliable networks. It supports increased Internet of Things (IoT) connectivity, improving how devices communicate. Lower latency offers quicker response times for mobile services. 
Additionally, 5G is designed to handle more data, catering to growing user demands. This enables enhanced mobile experiences and supports advanced applications in industry and personal use.
Image credit: Schäferle via Pixabay, free license
Challenges in the Telecommunication Landscape
As telecommunications evolve, so do the challenges. Adapting to rapid advancements requires resilience and innovation. It’s not just about faster speeds or broader bandwidths; it’s about ensuring inclusivity and security in a digitally-dependent world. 
Navigating this landscape, industry leaders and policymakers face the task of bridging gaps while safeguarding against emerging threats. Let’s explore these challenges and the strategies to overcome them in our interconnected future.
The digital divide: Addressing global connectivity disparities 
The digital divide refers to the unbalanced access to information and communication technologies among different populations. Despite progress, significant disparities remain across and within countries. In rural and low-income regions, a lack of infrastructure limits internet connectivity.
Addressing this divide is crucial for equitable access to opportunities. Efforts include enhancing infrastructure, making technology affordable, and improving digital literacy. These steps ensure that all individuals can participate in an increasingly digital world.
Environmental impact: The cost of rapid technological advancement
The rapid expansion of telecommunications infrastructure has significant environmental repercussions. Building networks often involves substantial energy consumption and resource depletion. Data centers, crucial for operations, continually draw vast amounts of electricity, leading to more greenhouse gas emissions.
Efforts to mitigate these impacts include deploying renewable energy sources and improving energy efficiency. Industry leaders are also exploring eco-friendly design and manufacturing processes. These approaches aim to reduce the sector’s environmental footprint while sustaining technological growth.
Regulatory hurdles: Navigating the complex world of telecommunications policy 
A complex set of industry regulations shapes telecommunications policy. These policies oversee the deployment and management of networks and services. Rules vary significantly by jurisdiction, affecting how companies operate and compete.
Ensuring compliance poses challenges as regulatory landscapes evolve with technology. Companies must navigate these changes to avoid penalties and disruptions. This constant adaptation is crucial in maintaining the progress and integrity of telecommunications services.
SIM card and its accessories. Image credit: tomekwalecki via Pixabay, free license
The Role of SIM Cards in Modern Telecommunications
At the heart of mobile connectivity lies the unassuming yet powerful SIM card. This tiny component is the keystone of personal telecommunications, storing crucial user data and enabling seamless network access. Its evolution mirrors the industry’s growth, posing thought-provoking questions on its future role in an era of rapid technological change.
The function and importance of SIM cards in mobile communication 
A SIM card, or Subscriber Identity Module, is a smart card used in mobile devices. Its primary purpose is to store the International Mobile Subscriber Identity (IMSI). This information is crucial for identifying users on a mobile network. What is a SIM card for? Aside from identification, it includes storing network authorization data, personal contacts, and text messages.
Mobile phones cannot connect to a mobile network to make calls or use data services without a SIM card. It plays a crucial role in connecting users to their carrier’s network. It allows billing services to the correct account, ensuring accurate service charges.
Evolution of SIM card technology: From physical cards to eSIMs
SIM card technology has advanced significantly since its inception. Initially, full-size SIM cards were used, then scaled down to mini-SIMs. With further innovation, micro-SIMs became common, and the even smaller nano-SIMs followed.
Today, the industry is shifting towards embedded SIMs (eSIMs), which are built into the device itself. This shift signifies a move towards a more seamless, integrated user experience, with greater flexibility and no physical SIM card swapping.
Here’s what the evolution looks like:
Full-size SIM
Mini-SIM
Micro-SIM
Nano-SIM
eSIM
The Next Chapter: The Continuing Evolution of Telecommunications
As we embrace the next chapter in telecommunications, the innovation potential is boundless. The evolution of these technologies is just a glimpse into a future that promises more than just connectivity; it heralds a new era where devices become even more integrated into our lives. 
This trajectory also signals a paradigm shift in how we view and utilize technology as it becomes an increasingly seamless, integrated part of our daily routines. 
In conclusion, the telecommunications industry is at the cusp of a revolution driven by technology and a thirst for improved user experience. 
As we venture into this digital world, our devices will become our gateways to a hyper-connected reality. We are witnessing not just the evolution of a simple card but the rebirth of connectivity. It’s an exciting time, and the question isn’t ‘What’s next?’ but ‘Are we ready for what’s next?’
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oliverreigns · 8 days
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electronicguides · 17 days
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railsistem · 2 months
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Deutsche Bahn Begins Testing for High Speed Internet on Trains
Deutsche Bahn has announced that testing is now underway on infrastructure to create 5G corridors along its tracks, paving the way for high-speed internet on trains. Through the Gigabit Innovation Track (GINT) research project, new radio masts are being installed and tested by network equipment provider Ericsson, telecommunications provider O2 Telefónica and radio mast operator Vantage…
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pbeaxell · 2 months
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We're delighted to announce that PBE Axell will be exhibiting at #BAPCO in #Coventry this March 6th to 7th.
Find us at: Stand E10
See our #5g#network and #communication innovations for #PublicSafety with our latest range of Digital #DAS Solutions.
We're looking forward to conversations about how PBE Axell is accelerating a more prosperous and sustainable future with flexible, scalable, and complete hybrid & active DAS solutions built for addressing coverage and capacity needs within Public Safety #Wireless#networks.
Join PBE Axell at #BAPCO24, Stand E10- The UK's leading #PublicSafety#event.
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robpegoraro · 3 months
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Weekly output: Starlink Direct to Cell, Spectrum rate hikes, T-Mobile touts speeds, Japanese startups
LAS VEGAS–To answer every “are you going to CES?” PR query I’ve gotten over the last three months: Yes, I’m here. I’m around through Thursday night, which I already know will not be enough time to process the info-overload of CES. In addition to the posts below, Patreon readers got a look into the purple prose that Google Bard can generate, which I compared to “the Simpsons’ Kent Brockman writing…
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crystal970225 · 3 months
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✨SC/APC Field Mountable Fiber Optic Fast Connector– Wedge Screw Type
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Click https://ftthfiberoptic.com/ to get more product-related information😊
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phonemantra-blog · 5 months
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It will receive a 5000 mAh battery with support for 25-watt charging and SoC Exynos 1280 Images of the future inexpensive Samsung smartphone under the designation Galaxy A25 5G have appeared on the Internet. The design is typical for a Korean company: a screen with a large frame and a drop-shaped cutout for the front camera is the norm for budget smartphones, but the main camera, which is already familiar, imitates the camera of the Galaxy S23. [caption id="attachment_81316" align="aligncenter" width="780"] Galaxy A25 5G[/caption] Images and details of the Samsung Galaxy A25 5G According to Sammobile, the Galaxy A25 5G will launch in 2024 and will feature One UI 6.1 based on Android 14 out of the box. Moreover, the device will receive updates for four years, so it is guaranteed Android 18. [caption id="attachment_81317" align="aligncenter" width="780"] Galaxy A25 5G[/caption] Something is already known about the characteristics of the model. The smartphone is credited with an AMOLED screen with a diagonal of 6.44 inches, Full HD+ resolution and a frame rate of 90 Hz. The hardware platform will be based on the Exynos 1280 SoC, the battery capacity will be 5000 mAh, it will support 25 W charging. The front camera will have a 13-megapixel sensor, and the main one will have a 50-megapixel sensor. The cost of the new product, according to Sammobile, will be less than $300.
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phonesuite · 1 year
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In this blog post, we’ll explore how hotels can leverage 5G technology to create localized, personalized marketing strategies that push engagement even further. By taking advantage of 5G best practices now, hotel marketers have an edge in creating engaging customer experiences. Read More....
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phonesuitedirect · 6 months
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In this blog post, we explore exactly how the latest developments in cellular communication are reshaping the hotel industry in ways you need to know about!. Read More...
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