The 5G and WiFi 6 revolutions are about making a science fiction movie come true. The way you work, shop, travel and get medical advice will be beyond your wildest dreams thanks to 5G. Things you used to only see on TV, like robots at work, smart cities, virtual reality gaming, autonomous vehicles, remote surgery, automated assembly line production, telemedicine, and augmented reality marketing, will become a reality.
Digitalization has progressed rapidly thanks to network improvements. Moreover, the global economy has come a long way from 1G to 4G since the 1980s to the last ten years. Wireless connectivity has played a major role in the transformation that has taken place over this period. Advanced Wi-Fi 6 and 5G technologies deliver promising features critical to enhancing consumer and business digital experiences.
Find out what makes 5G and WiFi 6 different from previous iterations. Continue reading this article as wireless technologies continue to advance.
5G and the Technologies that Underpin It
First, we will discuss the fifth-generation mobile network. Due to lower latency, 5G offers additional features that were largely lacking in 4G and earlier generations. High efficiency, performance, and reliability are what you get with 5G. It addresses the connectivity needs of a wide range of IoT devices, objects and gadgets.
The primary spectrum for 5G, which was developed in the cloud era and enables channels as wide as 100 MHz, is in the C-band. The radio frequency spectrum band spans the frequency range of 3.5 GHz to 3.7 GHz. 5G can be compared to the Radio Access Network (RAN). It is a cellular technology used in base stations for micro-and macro-cells.
The main technologies of 5G, which are also considered fundamental, are Orthogonal Frequency Division Multiplexing (OFDM) and 5G New Radio (NR) Air Interface. To reduce interference, digital signals are modulated across several channels using the OFDM technique. Additionally, Sub-6 GHz and mmWave millimeter waves, a very fast but limited range technology, are used by 5G.
Wider Use of Spectrum
Before 5G, there was the analog voice on 1G, digital voice on 2G, mobile data on 3G, and mobile broadband on 4G in the 1980s, 1990s, 2000s, and 2010s, respectively. A new digital revolution was ushered in by this wireless connectivity generation. While 5G works like 4G, it offers greater flexibility and scalability due to the increased use of spectrum resources, which in the case of mmWave can reach up to 300 GHz. Low latency makes it possible for 5G to deliver multiple gigabytes per second (Gbps) of throughput, whether at sub-6 GHz or 24 GHz and beyond.
Use Cases for 5G
Faster mobile device connectivity improves the user experience required for various tasks such as content creation and content consumption, for example, faster video traffic for media and entertainment. With potential speeds of up to 20 Gbps, 5G enhances mobile device connectivity for various industries such as banking, social media, food delivery, video streaming, and e-commerce and retail.
Mission-critical communications, such as security, remote healthcare, autonomous vehicles, or critical infrastructure monitoring in smart cities, will be greatly aided by 5G. Additionally, it connects IoT devices, sensors and devices used in manufacturing, automotive security, aviation, military and healthcare.
5G has multiple uses due to its high performance, reliability, and efficiency. Additionally, businesses can design and deploy private 5G wireless networks. It connects IoT devices. Therefore, because of its long-term impact on producers, operators, content providers, app developers and consumers, 5G is rapidly emerging as a key driver of global economic growth. From edge and cloud computing to AI and smart automobiles, it will power everything.
WiFi 6E and WiFi 6
WiFi 6E is a new spectrum band made available by the Federal Communications Commission (FCC). Despite sharing the same technology, WiFi 6 and WiFi 6E have different spectrum requirements. Wi-Fi 6E is a Wi-Fi network that operates in the 6 GHz band, enhancing the functionality and performance of Wi-Fi 6.
Wi-Fi 6E provides up to 7 channels with 160 megahertz (MHz), which is essential for high-bandwidth applications. It also offers low latency and fast data rates. It solves the data transmission problem for programs that require many terabytes of speed.
Wi-Fi 6E, which uses the 6 GHz frequency, has a higher data processing capacity than Wi-Fi 6, which uses the 5 GHz band. IoT, unified communications, telepresence, cloud computing, augmented reality (AR), and virtual reality (VR) are among the technologies that Wi-Fi 6E enables.
The sector boost will result in Wi-Fi being allowed to operate outdoors in the 6 GHz band, opening up new use cases in the transportation, manufacturing, agriculture and healthcare sectors. However, like the 5 GHz band, the 6 GHz frequency has power limitations.
Importance of 5G and WiFi 6 for Business
Enterprises prioritized 5G and WiFi 6, which are predicted to grow in importance over the next few years. The adoption of Wi-Fi 6 and 5G is seen as a strategic imperative and will usher in a new era of wireless access for enterprises. With the Wi-Fi and 5G exchange, businesses can grow their business everywhere, keeping their employees highly productive and improving the user experience.
The primary goals that enterprises will achieve by switching to this advanced wireless 5G are:
- Excellent performance
- Excellent security
- Leveraging the benefits of these two forces through the use of edge computing, big data analytics, and artificial intelligence (AI).
Harnessing this deadly mix is specifically intended to unlock the possibilities of other cutting-edge technologies, including cloud, edge computing, IoT, big data analytics, AR, VR robotics, and more. Together, WiFi 6 and 5G have a dramatic multiplier effect.
The Future of these Technologies
WiFi 6 and 5G are two separate technologies that work best together. Low latency, fast data rates, high capacity, and high performance are the features they share. Each technology addresses specific business needs or situations. Cellular networks are the foundation of 5G. Large companies with outdoor operations may want to consider using 5G for their network needs. Businesses with indoor operations or established access points can take advantage of WiFi 6E functionality for their 6 GHz-capable devices.
Wi-Fi 6 is twice as fast as previous Wi-Fi versions and has four times the capacity. It also has latency which is 75% less. WiFi 6E, which offers multiple-Gbps data rates, works well with wireless devices operating in the 6 GHz band.
Unified 5G platforms, such as Wi-Fi 6 and Wi-Fi 6E, stand out as differentiators because they offer faster mobile broadband, greater connectivity, higher capacity, and efficient spectrum usage. With their low latency and standard data rates, these are low-cost technologies that could also be important for the development of virtual reality (VR) and augmented reality (AR).
A wide variety of industries and applications, including media, transportation, and healthcare as well as agriculture, manufacturing, and logistics, will benefit from what 5G and WiFi 6 offer businesses. The best connectivity available for both commercial and consumer use is provided by 5G and WiFi 6.