Cellular technology is an quickly evolving field. The 4G network is being upgraded into 5G which will be more efficient than the previous network.
Every new generation of network enables more advanced devices and services. Older cellular technology will gradually be replaced by the latest technology as mobile technology continues to advance.
1G
The first mobile phone networks were launched in 1980. From then on, each technological advancement in the network has increased the capacity and quality. Every new generation has unique advantages and capabilities which are a step up from the last.
The first generation of cellular networks, also known as 1G, utilized analog technology that allowed users only voice communications. The next generation, 2G, introduced the use of digital voice as well as SMS messaging.
2.G was followed by the 2.5G networks, which included packet switching using GPRS or EDGE. The 2.5G networks paved the path to high-speed mobile data applications. There are limitations to the speed of mobile connection. The restrictions usually come by data plan limits on usage and hotspot caps, or throttles for video.
2G
The 2G period brought wireless data transfer on top of voice, enabling SMS messaging. Using the exact same controls that were used for talking, data transfers enabled text or images to be transferred to mobile phones. The feature became so well-known that it revolutionized the way people communicated. It also gave rise to candy bar phones such as those of Nokia 3210 which sold over 160 million units.
In the world, 3G networks were launched and introduced mobile internet. Users could browse on the internet or utilize simple applications. Additionally, it opened the way for more advanced features such as HD mobile TV or video conferencing.
In addition to faster data transmission 4G networks also enabled advanced functionalities such as HD TV for mobile phones and video conference. This technology also helped to open the door to mobile IoT applications like NB-IoT and LTE-M.
3G
It was evident that the 2G network wasn’t enough to support data traffic with the increasing popularity of smartphones. It was evident that 2G was not sufficient to manage the data traffic.
GSM, or the GSM network was created during the 1990s. In the 90s GSM networks came into use as a first step towards 3G.
3G networks offer significantly faster data transfers than the previous generation. The network also enabled internet connectivity on mobile devices, enabling companies to remain connected traveling.
The final phase of the 3G era is coming, with many carriers shutting down their old networks to make way for 4G LTE. Alarms for your home, GPS and mobile phones will be affected. In the end it is important to take the necessary steps to keep your hardware working smoothly and be prepared for the changes.
4G
Revolutionizing the globe is 4G’s wireless network. The latest technology for mobile connectivity allows for speedier data transmission, greater connectivity density and lower latency.
As 3G networks have become overcrowded and suffer with slow speeds and a lack of speed, 4G is an advanced technology that can support advanced gaming applications, HD mobile television, videoconferencing, and IP telephones. This is achieved through beamforming with directional antennas to increase Ricean factor SNR, RF and root mean of delays.
Smartphones are the primary factor in 4G. This lap dat mang wifi viettel device has helped to create 4G a success, but it’s also anticipated to enable smart innovations in various sectors. They will also help to reduce costs and increase the efficiency of businesses. These innovations will enhance the quality of life for people around the world.
5G
When newer and stronger technology becomes accessible, they’ll affect our lives with unexpected effects. FiveG will enable streaming apps as well as virtual reality to operate smoothly without buffering.
It’s possible to achieve speedy 5G by using millimeterwaves (mmWave). These frequencies are able to transmit more information each radio wave than other. The technology employs beamforming that allows it to focus on devices with stronger signals and uses less energy.
The mobile technology is expected to change in the same manner like it has in previous mobile network generations. Additional services and faster throughput will drive this development. But this time, this change could be more dramatic.