We will solve all these doubts around a new connection that will give a lot to talk about in the coming years in the telecommunications sector.

What is 6G?

The sixth generation of mobile connectivity, or as it is popularly known, 6G, is the successor to 5G with higher speed and lower reaction time. Although it is already echoing what 6G will be and with 5G still in force, a transition period is expected. Specifically, it will be in 2024 when 5G+ or advanced 5G will burst in with speeds reaching 10 Gbps.

Under the same objective as 5G, 6G will try to reduce connection latency and raise transmission speeds to levels never seen before. The fields that benefit the most from 6G are extended reality, artificial intelligence, energy efficiency, and holographic communications.

What benefits does 6G have?

In an increasingly connected world like today’s, future technology must consider this fact and improve the combination of different realities. In this regard, the emergence of this technology will speed up this connection and combine it with new trends such as virtual, augmented, or mixed reality.

Even considering the machine learning that AI implies, with 6G, it will be about networks being distributed, optimized, and managed autonomously.

This technology’s efficiency is also one of its most significant advantages. And is that saving energy supposes an opportunity for optimization of the resources and a greater capacity of support that allows a simultaneous connection between different devices.

5G vs. 6G

5G is relatively recent, so the appearance of 6G has impacted the market. And when 5G begins to be promoted at a commercial level, the research and development projects of the new technology that will be imposed begin.

Being so close in time, there are hardly any differences between one generation and another, but the reality is that they are different. Some of the differences between 5G and 6G are the following:

• 5G and 6G use both parts of the spectrum. On the one hand, 5G covers broadband frequencies below 6 GHz and 24.25 GHz above. Both will be known as the low and high bands. Instead, 6G will move between 95 GHz and 3 THz (terahertz). Thanks to these wavelengths, the speed of 6G will exceed 5G by 1,000 times.
• The Internet of Things ( IoT ) is achieved through 5G. Now, the mission of 6G will be to improve and accelerate 5G for this technology.
• 6G will be used for particular purposes. In other words, 5G does not replace 6G; this new technology will be applied for business, industrial, or even military purposes. The most striking use of 6G technology is its use in automated drones for military purposes.
• The infrastructures required by 5G posed difficulties that affected its speed. With 6G, they will make the most of it, improving connectivity both on land, at sea, or, most surprisingly, in space.
• The latency time (information packet transmitted on a frequency) in 5G networks is 5ms. With 6G, latency will be reduced from 1 millisecond to 1 microsecond. In this way, massive data transmission is achieved since latency is reduced five times that of the 5G network.

Was 6G necessary?

Currently, 5G has already covered people’s needs in terms of handling large volumes of unstructured data online. However, related factors such as 6G technology, such as minimum latency or maximum communication reliability, and other external factors, such as M2M communication linked to the Internet of Things, favor the birth of this new generation.

The forecasts regarding this new technology are to connect ten times more devices per square kilometer. The power that the current 5G cannot achieve. This aspect is fundamental in responding to the automation flooding all sectors.

When will 6G?

The commercial launch of this new generation is scheduled for the year 2030. Although there are still years left for it to take place, one must be aware that the current 5G still needs to be implemented. For this reason, there are areas where they can go from 4G to 6G without going through a transition period.

This new technology is not a theoretical concept, but satellites with 6G capacity from China have already been put into orbit to test their effectiveness. After this launch, it was followed by other telecommunications giants such as Huawei or Samsung that have underway research projects for this technology.

Frequently asked questions:

1. What is 6G and how is it different from 5G?

6G refers to the sixth generation of wireless communication technology, which is expected to succeed 5G. It aims to provide even faster data speeds, lower latency, and more reliable connections compared to its predecessor. Unlike 5G, which primarily focused on enhancing mobile broadband services, 6G is anticipated to offer transformative capabilities, enabling a wide range of new applications and services.

Key information:

1. 6G is the next generation of wireless communication technology after 5G.
2. It aims to provide faster data speeds, lower latency, and more reliable connections.
3. 6G is expected to enable transformative applications and services beyond mobile broadband.

2. What are the potential benefits of 6G?

6G holds the potential to revolutionize various industries and aspects of our lives. Some of the potential benefits of 6G include:
– Ultra-high-speed connectivity: 6G is expected to provide data rates in the order of terabits per second, enabling lightning-fast downloads and uploads.
– Reduced latency: The latency in 6G networks is expected to be significantly lower than previous generations, facilitating real-time communication and enabling applications like autonomous vehicles and remote surgeries.
– Massive connectivity: 6G is projected to support a massive number of connected devices simultaneously, creating opportunities for smart cities, Internet of Things (IoT), and seamless integration of various technologies.

Key information:

1. 6G can provide ultra-high-speed connectivity with terabit-per-second data rates.
2. It aims to reduce latency, enabling real-time communication and applications such as autonomous vehicles.
3. 6G is designed to support massive connectivity, enabling smart cities and IoT integration.

3. When can we expect 6G to be available?

The development and deployment timeline of 6G is still uncertain, as 5G is still being rolled out in many parts of the world. However, industry experts predict that 6G networks may start to become commercially available around the 2030s. It typically takes several years for new generations of wireless technology to be standardized, tested, and implemented on a global scale.

Key information:

1. The availability of 6G is expected to be around the 2030s.
2. It takes time for new generations of wireless technology to go through standardization, testing, and global implementation.
3. The deployment timeline for 6G depends on the progress and adoption of 5G.

4. What are some potential use cases for 6G?

6G is anticipated to enable a multitude of innovative applications across various industries. Some potential use cases for 6G include:
– Extended reality (XR): 6G can enhance XR technologies such as virtual reality (VR) and augmented reality (AR), offering immersive experiences with ultra-high-definition visuals and seamless interaction.
– Smart infrastructure: 6G can support advanced infrastructure systems, including smart grids, intelligent transportation systems, and autonomous infrastructure management.
– Healthcare advancements: 6G’s low latency and high reliability can enable remote surgeries, telemedicine, and the widespread use of health monitoring devices.

Key information:

1. 6G can enhance extended reality (XR) technologies like VR and AR.
2. It enables the development of smart infrastructure and autonomous management systems.
3. 6G has the potential to revolutionize healthcare with applications like remote surgeries and telemedicine.

5. What are the challenges in implementing 6G?

While 6G holds tremendous potential, there are several challenges that need to be addressed for its successful implementation. Some of these challenges include:
– Technological hurdles: Developing the necessary technologies and standards for 6G, including ultra-high-frequency bands, massive MIMO (Multiple-Input Multiple-Output) systems, and advanced signal processing techniques.
– Spectrum availability: Identifying and allocating sufficient spectrum for 6G networks, as higher frequency bands may be required to achieve the desired data rates.
– Infrastructure requirements: Building the infrastructure necessary to support 6G, including an extensive network of base stations, small cells, and backhaul connectivity.

Key information:

1. Implementing 6G involves addressing technological challenges like ultra-high-frequency bands and massive MIMO systems.
2. Sufficient spectrum allocation is crucial for achieving the desired data rates in 6G networks.
3. Building the required infrastructure, including base stations and connectivity, is a significant consideration for 6G implementation.

Conclusion

In conclusion, 6G represents the next frontier in wireless communication technology, offering unparalleled speed, ultra-low latency, and massive connectivity. Its potential benefits span various industries, from extended reality and smart infrastructure to healthcare advancements. While the timeline for 6G availability is still uncertain, ongoing research and development efforts are paving the way for this transformative technology. However, challenges related to technology, spectrum allocation, and infrastructure must be overcome to realize the full potential of 6G in the future.

Cannabidiol products come in various forms such as oil and tinctures, edibles, vaporizers, creams, and topicals. While we are still basking in the euphoria of these wonder products, here comes another one – CBD capsules.

These capsules are popular among enthusiasts and lovers of cannabidiol. In today’s post, we will discuss the uses and benefits of CBD capsules so you can decide if you need them for a change.

What Are CBD Capsules?

These are cannabidiol extracts that are directly incorporated into a capsule using a natural, organic base such as coconut powder. They are also called CBD pills and work just like every other CBD product. Also, the products come with instructions on the exact dosage to consume. They are easy to swallow and do not have a strong smell or flavor yet offer the same helpful benefits as other cannabidiol products.

Uses of CBD Capsules

The following are uses of these capsules:

1. Protect the Brain and Body

These products contain antioxidants that possess powerful healing effects. They help to protect the brain and body against free radicals or harmful vices. Free radicals possess negative properties that affect the brain by causing aging, memory loss, and other neurodegenerative disorders. However, antioxidants work to reverse any damage that these brain disorders may have caused.

2. Reduce Nausea and Stimulate Appetite

Cannabidiol capsules serve as digestive aids and reduce nausea, so you do not throw up or feel nauseated. They also stimulate appetite, which encourages you to consume enough foods needed for healthy living. These two benefits are important, especially for people who are suffering from terminal health issues like cancer.

During chemotherapy, cancer patients experience an increase in nausea and a decrease in appetite. These problems can reduce the rate at which the body heals. But CBD can help to counteract the side effects of the treatment.

3. Inhibit the Growth of Cancer Cells

Ongoing research has shown plausible signs that cannabidiol can inhibit cancer growth. This means that it can stop cancerous cells from spreading. The research also shows that it can cause the death of the cancer cells, thereby, stopping it abruptly.

4. Treating Inflammation and Pain

Cannabidiol acts on certain receptors in the brain, known as vanilloid receptors. They are responsible for regulating the way we perceive pain and inflammation. So, when cannabidiol triggers the receptors, inflammation and pain will reduce. This makes cannabidiol capsules a possible medication for conditions such as arthritis and fibromyalgia.

5. Suppressing Seizures

Seizures are distress in the brain’s cells that cause loss of motor and violent shaking. These pills can stabilize the brain’s electrical waves, keeping them in check. You may want to click here to read more about how CBD can be used in treating seizures.

6. Alleviating Depression and Anxiety

Depression and anxiety partly depend on the activities of serotonin and adenosine receptors in the brain and cannabidiol interact with these two receptors. When you consume the pills, they activate the adenosine receptor, helping them to function properly. This reduces the paranoid, anxious feelings that come with anxiety disorders.

Additionally, the pills activate the serotonin receptor, thereby, producing antidepressant effects. CBD capsules therefore are potential treatments for a large range of mental health disorders.

Benefits of CBD Capsules

The benefits of consuming CBD capsules are:

1. They Do Not Present Psychoactive Effects

Unlike tetrahydrocannabinol (THC) which causes a “high” effect on the body, cannabidiol will never do such. This makes it fit for people who prefer to take it during the daytime when they are busy or at work.

2. They Counteract the Intoxicating Side-Effects of THC

THC has certain side effects that can be harmful. They include the following:

• Lethargy
• Paranoia
• Drowsiness
• Couch lock
• Memory loss
• Altered perceptions

Continuous dosing on THC can be lethal, but cannabidiol is different. Its side effects are never extreme. It is often regarded as safe and harmless except for cases where a user takes an overdose, or it interacts with other medications. Therefore, it is important to discuss with your doctor to know the right dose for you.

3. They Are Non-Addictive

The cannabidiol present in CBD capsules is non-addictive because it does not stimulate the receptors in the brain like psychoactive chemicals. Since the receptors are not activated, you will not get “high”.

Also, you will not experience an uncontrollable desire to come back for an extra dose. Therefore, CBD capsules are not addictive because they contain cannabidiol that does not produce psychoactive effects.

4. Their Effects Are Long-Lasting

Since cannabidiol digestion in the body is slow, the effects will last long in the body. As a result, you won’t need to take much of these pills in a week; just a few and you are good to go. You may want to visit https://www.healthline.com/health/how-long-does-cbd-stay-in-your-system#factors to know more about how long CBD can stay in your body.

5. They Produce Great Results

Since their effects take long before they wear off, they will help to fight diseases, suppress pain, and alleviate anxiety in the time that it remains in your system. You will get these benefits from just one pill.

Conclusion

If you want a great way to enjoy CBD products, then capsules are a good alternative. We have seen the usefulness of these pills to our wellness and the benefits these powerful compounds offer. With new findings on the health benefits of cannabidiol, we anticipate a solution that will offer a long-lasting healthy living experience.

These measures, such as calling the device or activating an alarm remotely, will not work, thus leaving few options to locate it. For this reason, it is necessary to know the methods that can be used in these peculiar and difficult to solve cases.

That is why in this tutorial we are going to explain step by step, how you can find your equipment, even if it is turned off, this way you will have high possibilities of locating it quickly.

Is it possible to find my mobile even if it is turned off? Requirements to do it

It is possible that you can locate your mobile device, although it is turned off, you just have to keep in mind that it is necessary to meet some requirements to have the current or partial location of the lost equipment.

The requirements are as follows:

• You must be logged in, either in a Google account or if you have an iOS device, have an active iCloud account on it.
• You must have been connected to the Internet, either by Wi-Fi or by data connection on the device that has been lost and is connected in the Play Store or iCloud.
• Have your device visible in Play Store or iCloud.
• The location tool must be activated on the lost computer.
• On Android devices it is necessary to have activated the function “Find my device“, in case it is turned off, you just have to do the following to activate it: “Settings”> “Security and location”> “Find my device”> “Activate the options to locate the equipment”.
• In the case of using different apps to locate your lost mobile devices, these must be previously installed on the mobile, and the user accounts must be synchronized with them.
• Have the GPS location active before it turns off.

Steps to find my smartphone even though it is turned off

The tools or methods that can be used to locate your mobile equipment, although it is turned off, are few, and will only allow you to know the last location where you obtained Internet access, using GPS.

Follow our steps and ideas:

Location history

In Google, there is a functionality that will allow you to see the history of all the locations where your mobile has connected to the network. In this way, you will be able to observe the last available location and thus have an idea of where the missing equipment may be.

For this, you have to enter or directly in the Google maps app and click on “Your timeline“. This function can also be used on an iOS device as long as you have this tool installed.

Using Google support

You can use Google’s help and support website to find your forgotten Android device. To do this, you just have to enter the following link and follow the steps that we will explain below:

• Once you have entered the website, you should look for the section that says “Guided steps”, in this you will click “Find your phone“.
• Now you are going to select the mobile device that you have lost. You may only see one or more, and this will depend on how many of these are synchronized with your Google account.
• After selecting the equipment, you will have to validate that you are a user, for that you just have to enter the password to enter your account.
• Finally, you will have to select the option that says “Find”, which is located next to the name of the computer that has been lost.
• After clicking on the option indicated above, a window will open showing you the approximate GPS location of your device.
• The other options shown are for cases where you cannot recover your device, but you can keep your personal information safe.

With Google photos

If your mobile device has been used to take a photo before it turned off, you can use its location as a reference to the location where your mobile maybe.

It will only work if you have photo sync turned on in Google photos, and the option to add a location to your activated photos. This option can be activated from the camera configuration options.

Using Find My Mobile Samsung

This tool is only available for Samsung, so if you do not have these devices, ignore this option. The website makes it easy for users to find their lost devices conveniently.

For this, you only have to have an account created and previously have synchronized the data of your mobile on the web. If the data in this was not synchronized before it was lost, this procedure would be useless.

To find it, you have to do the following:

• Enter the web and log in.
• Now you just have to click on the option that says “Locate my device“.
• Now you can see all the locations that this has had in 12 hours.

Use remote location apps.

Many tools can be installed on mobile equipment to locate them in case of loss. There is only one detail, and that is that these apps must be installed before the device is lost and turns off. Otherwise, they will not be useful.

Among the different ones that we can see are:

Ceberus

This app will allow you to observe the location of your lost device remotely. It has different versions that can be used, but the one that interests you this time is Ceberus (anti-theft).

You just have to go to the download section to be able to locate the one that interests you, download it and install it on your device.

To use it, you must do the following:

• Once it has been installed on your mobile or tablets, you have to register; Save and memorize this information well, as it will be used to log in from the app interface.
• Now you just have to access the Ceberus website and log in to it.
• Look for the option “locate my cell phone” so that you can know the latest location of your terminal on the GPS map.

Android Lost

To use it, you just have to register using your Google account. It must be the same as the device you want to have located. You can download the software directly from the Play Store and once installed, and you can make use of its multiple functions.

Although it does not have a very striking user interface, it is useful for what is required—making it one of the best options to locate in these cases.

Once you have completed the installation and registration process for your mobile device, you should only register on the web with the same account that you used on your computer.

To locate the lost terminal, you must click on the “Map” option, and this will show you the last available location of the equipment. Remember that the GPS option must be previously activated or it will not work.

Using Find My iPhone on iOS

If you want to locate my Apple mobile phone that you have lost and is turned off, you must use the Find My iPhone functionality, which will allow you to access the location of all the devices associated with that account. For this, you must be previously registered in iCloud with your mobile. Also, it must be connected to the Internet.

Once you have entered the functionality, the GPS will give you the exact location and will also make it easier for you to sound it in case it is turned on, to help in the task of finding it.

Lookout

This software is one of the few available to locate a lost device on iOS. However, it is very useful and easy to use. But as in the previous cases, it must be previously installed for it to be used. Otherwise, it will be useless.

To use it you have to download it and install it on your terminal, once the registration procedure is completed, this information is what you will use to enter the web remotely to find your device in those cases where it is lost.

When you log in you will have to look for the option that says “Signal Flare” or “Signal flare”. This will take care of showing you the last location of the device while it has been connected to the network.

How to configure my mobile phone always to find it even if it is lost or stolen?

As we have already mentioned, you must have the “Find my device” function activated. It is available on Android, to configure it you have to do the following:

• Enter “Settings”.
• Choose the “Google” option.
• Now select the “Security” option.
• Click the “Find my device” option. Here it observes that this activated; You will find the activation switch right at the top of the screen, under the name of the function. (Remember that you must have downloaded and installed the “Find my device” application)

It should be noted that the location and GPS options must be activated on your devices so that they can be found remotely.

What is 5G?

Lately, we hear it everywhere, on the web, in the written press, on television, it is possibly one of the consequences of Donald Trump’s policy against Chinese technology companies like Huawei. In Spain, the company Vodafone already begins in June 2019 to implement its 5G network in 15 Spanish cities such as Barcelona, ​​Madrid or Bilbao, among others. But do you know what 5G is?

5G is the next generation of mobile network technology after 4G. Like all previous generations, 5G’s goal is to make mobile communication faster and more reliable as more and more devices connect online.

Unlike in the past, when mobile networks only needed to support mobile phones that were only for surfing the Internet and sending text messages, we now have all kinds of devices that demand bandwidth, such as our high-definition transmission smartphones, watches smart with data plans, always-on security cameras, home automation devices like smart speakers connected to the internet, and other promising devices like health sensors and network-connected AR and VR hardware.

As billions of more devices connect to the web, the entire infrastructure needs to accommodate traffic not only to support faster connections but also to handle simultaneous connections better and provide broader coverage for these devices. This is what 5G is all about.

How 5G Can Benefit You

• Minimal delay in streaming videos and playing games
• Safer cities with smart, interconnected vehicles
• Almost instant access to most online files
• Smaller devices downloading hardware requirements to remote servers
• The explosion of new products and applications requiring ultra-fast speeds
• Reliable internet in remote areas

How is 5G different from the other “Gs”?

5G is simply the next generation numbered after 4G, which replaced all older technologies.

• 1G introduced the analog voice
• 2G introduced digital voice
• 3G introduced mobile data
• 4G paved the way for widespread use of the mobile Internet

What will 5G be used for?

This may seem obvious given how ubiquitous smartphones are, but while phones are a significant player in mobile communication, they certainly aren’t the only focus on a 5G network.

As you’ll see later, the key components with 5G are ultra-fast connections and minimal lags. Although this is, of course, great for anyone streaming video from their phone, it is more important in scenarios where minimizing delays is really important, such as for interconnected devices.

An application could be augmented reality devices or virtual reality headsets. These devices require a tremendous amount of bandwidth and need to communicate over the Internet as quickly as possible to provide the desired effects. Any latency can have a drastic impact on how “real” things feel in these virtual environments.

The same applies to any other devices that need to respond quickly, such as autonomous cars to avoid sudden collisions and understand proper turn-by-turn instructions, remotely operated hardware, and robotic systems that learn or operate by remote controls.

That said, 5G continues to pave the way for smoother connectivity from our everyday devices, such as when we play games, make video calls, stream movies, download files, share HD and 4K media, receive real-time traffic updates, vlogging. , etc.

5G is so fast that it will not only be available for mobile devices. It has the potential to replace your high-speed wired connection through fixed wireless access completely. Let’s take a closer look at each field what 5G will entail.

Broadband internet everywhere

Broadband is currently defined by the FCC as an Internet speed of 25 Mbps download and 3 Mbps upload, which is an increase compared to the 4 Mbps and 1 Mbps defined in 2010. However, both are much slower than 5G speeds, which are expected to range from 300-1,000 Mbps, and even higher in some cases.

As of 2018, the average download speed for mobile users in European countries such as France, Germany or the United Kingdom and the USA. It was around 27 Mbps, but with the latest generation of wireless technology, anyone accessing a 5G mobile network can take broadband internet with them everywhere.

5G is also available for home or business use through a fixed wireless access (FWA) connection. This means that an entire building can obtain a direct 5G connection from a nearby cell. Within that building, each device can take advantage of 5G speeds through existing Wi-Fi connections, including televisions, video game consoles, telephones, desktop computers, laptops, etc.

This type of connection becomes very interesting when used outside the city. It is not uncommon for people in the heart of a big city, or even in the suburbs, to have a fast Internet. What is unusual is that people in less populated areas of any country have a fast and reliable connection.

When 5G is installed on the edge of a city or further afield in rural areas, these residents can finally upgrade to something much better than satellite, even if it’s not as high-quality as what is found in densely populated areas.

Smart vehicles, cities and factories

The vehicles are already pretty smart, with smart car add-ons and built-in features like automatically turning on lights and wipers, adaptive cruising speed, lane control, and even semi-autonomous driving. However, 5G will allow a quantum leap in automotive technology.

As with any other change that 5G will bring, ultra-reliability and high-bandwidth connections are the driving force behind a smart city. When communication is almost instantaneous, and everything in the vicinity can talk to each other, everything can interconnect and provide efficiency like never before.

An example is smart traffic controls. When an entire city is online with 5G, and cars can communicate directly with other cars and traffic lights, the traffic lights will respond appropriately. One day, you can stop waiting at a stoplight when there are no other vehicles around; The system will know when other vehicles are approaching fast enough to ensure there is a red light next to you, otherwise it will allow you to cross the intersection smoothly.

Vehicles, specifically autonomous or self-driving vehicles, require the GPS to know exactly where they are located. While GPS is already super accurate, and the latest generation of GPS chips are even more accurate, direct car-to-car communication will make the whole experience even better, specifically when it comes to alternate routes and security.

Avoiding stacks and traffic jams are other examples of how 5G will change the way we drive. They occur when the cars in front slow down to the point that everyone behind them has to stop to avoid an accident. Before you know it, dozens of vehicles are full, and it takes forever for someone to get going again.

Vehicle communications on a 5G network will not allow you to go that far, as each car will know where the others are and will know in advance, long before the user, that it is necessary to create a new route or adjust the speed to that traffic flows smoothly. This type of always-on data cannot transmit smoothly, or on time if the area is congested with much more wireless traffic, 5G is built to withstand these huge data demands.

Since autonomous cars rely on a high-bandwidth network and rural areas will someday gain access to broadband Internet, smart cars will eventually be able to be used in rural areas. This will allow safe transportation for disabled people, the elderly and others who cannot drive on their own.

Another potential use case for a smart 5G city when it comes to safety is directing traffic-stopping or slowing down school buses, construction, trains, and other dynamic scenarios that require extra attention. If 5G-connected sensors are installed in a construction zone, or if school buses communicate directly with other vehicles, drivers can be alerted before entering areas they need to remain alert or come to a complete stop.

Factories can also benefit from 5G, not only in automation but also in allowing heavy machinery to be operated remotely, making it easier to prevent dangerous situations. Instant feedback is necessary, and 5G has low latency to support it.

Smart farms will also emerge from 5G connectivity, not only to provide better harvests but also to save money. Super accurate farm equipment, along with ground sensors, means farmers will have instant updates on their crop performance, allowing them, or even equipment, to respond appropriately and faster than ever.

To all of the above, add drones to the image for complete automation: crops can be watered when necessary, and animals are fed on time, while the user sits down and receives instant updates on their phone about how things are going.

All on-demand, on-demand

In 4G or a low-bandwidth Wi-Fi connection, you are likely to experience delays when watching live TV such as news or a sports program, or playing your favourite video game. Movies and shows can buffer while waiting for more data to download.

We could go on and on about other not-so-positive experiences with online services supposedly “on demand.” 5G, on the other hand, is built to minimize the delays that these issues cause and to provide a large pipeline in which data can travel to reach your devices almost instantly.

Online gaming and video/audio chat are other areas where the power of 5G can be seen. A lag-free experience is required for the game to run smoothly and have the best gaming experience. Real-time feedback is required during an internet video call, especially in professional settings.

5G is also laying the groundwork for a new form of communication. It is being used to test 3D hologram calls, with applications ranging from games to a more luxurious experience during business calls and remote education.

Another 5G use case is in web applications. While it is true that downloading applications is as easy as downloading any program, and 5G makes the whole experience seem instantaneous, you can free up storage space and avoid installation steps using a web-based application that is already set up and ready to go. Transmit it from a web browser.

In other words, 5G will bring a world where the user needs very little storage on their phone because everything, including their applications, is instantly available from the cloud.

To take this further, imagine a game console that works for years longer than it does today because you’ll never have to upgrade. Instead of getting a different console with a new disk reader that supports bigger games, or better hardware to handle the newer titles, all that processing power could be offloaded to a remote server and then transmitted to your device in real-time.

The same could be said for computers: give it basic hardware and access to a fast remote server, and with a 5G connection, all your computer needs could be passed back and forth between the ultra-fast server hardware.

AR and VR immersion

Augmented reality (RA) and virtual reality (RV) are technologies that require a lot of bandwidth and that 5G can handle without problems. Immersive games played in AR and VR are one of the most talked-about use cases for 5G, but that’s not all that can be done with these reality hacking technologies.

Sport is another area in which the RV will shine. A soccer player, for example, can carry a head-mounted camera to broadcast his point of view, in real-time, to anyone connected to the camera. Users can use a virtual reality headset to get a first-hand experience of the player while on the field.

Because augmented reality projects digital data into the real world around you interrupting your field of vision, the number of applications is almost unimaginable. With everything that can be done with RA in so many situations, and with 5G capable of sending information to and from the RA device in real-time, there is a lot of excitement about the future of this industry.

Some of the first and simplest examples of 5G AR include projecting emails and text messages in the room the user is in, creating multiple floating monitors to enlarge their computer screen and enhance gaming, and the mounting a virtual high definition television in your living room.

VR and AR headsets are out now, but 5G is the only way to use them seamlessly on a mobile network and in conjunction with other network-enabled devices. Plus, with near-instant access to the cloud where everything can be remotely processed, these devices can be made thinner and smaller.

Smarter health care

Sharing information with your doctor or with a system that works with AI should be something you can take advantage of at any time, especially in emergency situations. A “doctor on demand” is exactly where we are headed with 5G.

Imagine a near future in which smart wearables control not only your heart rate and rhythm but also your blood sugar, haemoglobin, etc. The last thing you want in an emergency is for your device to be unable to communicate important data to your doctor because the connection was slow or congested. With 5G, however, your device will be able to quickly contact a server to update their health records for your doctor to see, or to alert a family member that your vital signs are outside safe levels. and that you need immediate attention. 5G enables frequent data transmissions at reasonable speeds without killing the battery.

Similarly, being able to send very high-resolution photos and videos almost instantly from anywhere on a 5G network allows anyone, at any time, to update their doctor with images from which they can truly diagnose. Doctors may someday be able to perform remote exams to save time and money.

In the same immediate attention line is 3D printing and drones. Both are “relatively” new industries, but 5G will help push them to a place where quick access to 3D designs and instant ordering of new materials becomes a reality. Ambulance drones could soon provide immediate attention in remote locations or densely populated areas where ground travel is too slow.

We have already mentioned virtual reality, but it also has specific applications in the healthcare field. Trainees who have not yet operated in reality can use a VR headset to learn the ins and outs of what it will be like in the field or use RA to keep the patient’s vital signs in plain view at all times.

VR may also be used someday on ambulance drones so that a surgeon or healthcare professional can remotely advise a patient. Virtual reality requires very low latency and high bandwidth, which is exactly what a high-speed 5G network provides.

5G seems to be exactly what we need to allow a remote professional to operate on someone worldwide. Imagine a small hospital with few doctors and a patient who needs immediate surgery that only a handful of people worldwide are capable of. The extremely low latency of 5G means that surgery can take place in real-time hundreds or even thousands of miles away.

Telemetry is another 5G use case that involves data communication from a device to a monitoring station that can interpret or store the information. Devices like a dropsonde already use telemetry, but integrating one with fifth-generation wireless networking technology means results come faster than ever. Additionally, the huge 5G bandwidth capacity opens up the possibility for other types of rangefinders, perhaps those that can avoid data compression so they can receive even faster results or ultra-sensitive rangefinders that respond with live data.

Another 5G medical transformation is digital record keeping and file transfer. Many hospitals manage to maintain digital health records without using 5G, but with improved speeds, machines throughout the building can move large data sets much faster.

An MRI is an example of a machine that can take a long time to send large scans and can easily delay a doctor from seeing other patients and hide important information from technicians who need to read the scan.

5G is opening up a new scenario in which machinery in the hospital can transmit data to the appropriate places more quickly, benefiting not only other patients and the entire hospital, but also potentially saving lives. Nokia is a company that has been working in a 5G hospital in Finland since 2016.

Breaking the language barriers is another 5G medical use case that, of course, extends beyond medical care to other fields where communication is difficult but is especially useful in emergency situations. A translator is not always local, so having a precise and instantaneous dialogue between him and the patient is critical to transmitting a diagnosis or request information from the patient or doctor.

Better law enforcement

A 5G police drone that is equipped with HD cameras can provide low-latency data, basically live, of a chase that operators in a car or back at the station can monitor in real-time. These types of drones can also be used for other things, such as monitoring alleys and other areas that a police car cannot get to, or answering a call faster than a ground driver could.

Police-operated drones or quadcopters also allow a city to deploy drones for regular monitoring of its citizens. Some see this as a dangerous invasion of privacy, but the technology is already here, and 5G will make drones much more likely to be deployed for this very reason.

Peer-to-Peer Communication (P2P)

P2P connections are when two or more devices communicate with each other directly to transmit data from one side to the other without using a server.

The way most communications and data transfers work right now is by uploading information to a server, which someone else can download from the same server. This is how most of the Internet works. It’s wonderfully effective and offers a seamless experience, but it’s not as fast as it could be.

For example, when you send a friend a collection of photos, it’s common to do it by email or through a file-sharing app. This works by having you upload the data to the email server or the data-sharing service server so that your friend can download the photos at high speed since the server supports fast upload speeds.

5G is changing P2P connections because instead of servers having access to fast upload speeds, your phone and computer can do the same. Each 5G signal has a minimum upload speed of 10 Gbps (1.25 gigabytes per second), which means that under ideal conditions, users can transfer 1.25 GB of data every second between devices. This is much faster than what is currently widely available.

Having such a fast upload speed on your end, and having other people have access to superfast 5G download speeds, means that others can download data from you as fast as you can upload it.

P2P can be used in many ways, such as when making phone calls, transferring files, transmitting information between vehicles in a smart city, automating factory equipment and interconnecting smart sensors in homes, cities, farms, etc.

5G will change everything. How does 5G work?

Like other wireless communication methods, 5G sends and receives data on the radio spectrum. However, unlike what we are used to with 4G, 5G uses higher frequencies (millimetre waves) in the radio spectrum to achieve ultrafast speeds.

The downside to using high frequencies to transmit data is that these frequencies experience much more interference from things like trees and buildings, which means that small strategically placed mobile phone towers are required to power the network across a city.

However, not all mobile network operators operate in the same way. Some companies make use of 5G at the lower ends of the radio spectrum so that cell towers can reach wider areas and penetrate walls, but the tradeoff is slower.

Specifications 5G Data Speed and Latency

With 5G, everything related to a mobile communication is faster, from the speed at which you can download and upload data to the number of devices that can connect to the Internet at the same time.

A 5G signal, which is the one that transmits and receives mobile data, supports speeds of at least 20 Gb / s for downloads and 10 Gb / s for loads, with a latency of just 4 ms or more.

However, in most situations, this could translate to actual speeds of 100 Mb / s (12.5 MB / s) and 50 Mb / s (6.25 MB / s), respectively, but could easily fluctuate towards up or down depending on a variety of circumstances. In comparison, the average mobile download speed is around 27 Mbps, more than 3.5 times slower than that available with 5G.

For example, in an ideal situation with 5G speeds of up to 1 Gb / s, you can download a 3 GB movie to your phone in 24 seconds, or upload a 1 GB video to YouTube in just eight seconds.

Here are some other examples of how long it would take to download files of different sizes on a 5G network, assuming different speeds:

• 1 Gb / s: Two seconds to download 75 JPG images (300 MB in total)
• 5 Gb / s: Eight seconds to download two full seasons of Game of Thrones (about 5 GB) via HBO
• 15 Gb / s: One minute to download a 105 GB file of data that has been backed up online
• 20 Gb / s: Less than two minutes to download Avatar: Special Edition (276 GB)

5G supports many devices

At a minimum, 5G must support 1 million devices for every square kilometre (0.386 square miles). This means that within that amount of space, a 5G network is capable of connecting a whopping 1 million or more devices to the Internet at the same time.

This type of scenario may seem difficult to understand considering that the cities with the highest population density (such as Manila, the Philippines and Mumbai, India) “only” have between 70,000 and 110,000 people per square kilometre.

However, 5G does not need to support only one or two devices per person, but also the smartwatch of all users, all vehicles in the area that may be connected to the Internet, smart locks in nearby houses, articles of clothing or wearables and any other current or brand new device that needs to be online.

Globally, there will be 1.3 billion connections to 5G networks by the end of 2023.

5G signals can communicate with all kinds of devices, such as those used by an immobile person who is not moving towards someone in a high-speed vehicle such as a train, which is travelling up to 500 km / h.

Different areas may require a different mobile base station to accommodate different speeds. For example, a small city that only has users travelling by car and on foot may not have the same base stations as a larger city with a high-speed public transportation system.

More about 5G

5G and other mobile broadband standards are established by the Third Generation Partnership Project (3GPP). Version 16 of 3GPP is “phase 2” of the 5G project, and will be completed in March 2020.

For a much more technical reading of 5G specifications, check out this Microsoft Word document from the International Telecommunication Union (ITU).

Once 5G is widely available, it may be the latest breakthrough in mobile networks. Instead of a 6G or 7G later, we could just stick with 5G but get incremental improvements over time.

It’s easy to confuse 5G with 5GHz Wi-Fi, but the two are not the same. The first is a mobile network technology, while the second is a frequency band used in some Wi-Fi routers.

Recommended:

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5G Networks Present New Risks and Security Challenges