Increasing Use of High-Speed Internet Connectivity: Key Factors Leading to Increase in the WiGig Market
In the sphere of wireless networks, WiGig is a technology that makes it unwired, enabling multi-gigabit communication amongst devices. This means the performance of distant information, video and sound can be excellent. The name WiGig comes from the Wireless Gigabit Alliance, which was formed to promote the adoption of IEEE 802.11ad, the present WiGig standard. Therefore, The WiGig specification supports data transmission speeds of up to 7 Gbit/s which is over eleven times faster than the current Wi-Fi standard. It is expected that with WiGig, wireless data display and audio connectivity will reach rates as high as 7Gbps.
Further, companies are allocating more IT budgets to improve network throughput as a result of the BYOD trend. The increased reliance on having a high bandwidth and speed to support various applications and services is a result of the increased use of mobile and other electronic devices at work. Increased wireless endpoints as a result of the BYOD trend are driving up demand for network switch upgrades. Several manufacturers are working on creating sophisticated network switches with faster processing speeds. Furthermore, several businesses are creating technologies to effectively manage such high-speed data in response to the growing demand for high speed.
Moreover, the adoption of wireless broadband access is being driven by the increasing demand for gigabit IP data. Furthermore, gigabit IP data connectivity is necessary for metro Wi-Fi and LTE deployments in areas with high data densities. Because of its unique propagation characteristics and its large bandwidth, which allows for high spectrum reuse—a critical component of next-generation wireless network architectures—the 60 GHz band is well-suited for these kinds of applications.
Global Trends
The industry is seeing rapid growth in the 802.11ac segment because of the higher throughput at frequencies between 2.4 GHz and 5 GHz bands. But with wireless technology developing so quickly in response to the explosion of data, applications, and intelligent devices. Furthermore, as wireless technology advances in response to the proliferation of smart devices, data, and applications, the 802.11ay standard is meeting the growing need for gigabit-class wireless devices. Because 802.11ay requires low latency, it could be useful for handling cloud applications, supporting server backups, and providing connectivity to VR headsets in addition to internal mesh networks. Many internet service providers are concentrating on implementing 802.11ay applications in order to replace Ethernet and other cables in homes and offices and to give service providers backhaul connectivity.
Moreover, there is a substantial possibility that IEEE80211ad will grow widely. Initially, IEEE80211ad uses a 60 GHz high-frequency radio wave spectrum band as a way to attain systematically more data speedier with lower delays.
Use Case
Due to its affordability, availability, and mutability, wireless gigabit connections are a desirable choice for unconventional and low-budget display devices. The fastest connectivity needed to move HD content between tablets, smartphones, PCs, set-top boxes, and other devices is offered to customers via wireless gigabit. Throughout the projection period, there will likely be a rise in demand for WiGig display devices due to the development of sophisticated wireless gigabit integrated chips.
Moreover, it is projected that the healthcare industry will expand as a result of the growing need for additional bandwidth on dependable wireless networks. The utilization of Wi-Fi in healthcare takes on an increasing amount of importance for applications that are critical to the mission, like voice over Internet Protocol, telemedicine, electronic medical records (EMR) processes, portable scanners as well as heart and radiology imaging. High performance, high capacity and universal wireless linkage is needed by the healthcare sector for the effective and safe operation of such applications which drives this industry’s development.
Further, the more complex online multiplayer games educate players on how to strategically and analytically weigh risk and reward. To win these games, young players have to react fast to changes in the game. This game will help children develop skills that can be used in real-world professions relying upon analytical thinking, problem-solving and strategic decision-making. When playing games, users may be surprised how many different ideas and cultures learn from these video games because they provide global connections and let us make our own virtual space. These trends would lead to an increase in the demand for wireless gigabit internet related to gaming.
Market Dynamics and Drivers
The aim of a smart city is made easier by public Wi-Fi which helps to minimize the digital divide, encourage the Internet of Things (IoT), and provide miscellaneous services and utilities to the local population as well as tourists. Growth in the public Wi-Fi market is mainly attributed to increasing investments in smart cities by different national government institutions. For instance, as per Cisco, the number of public Wi-Fi hotspots worldwide increased from 169 million in 2018 to approximately 628 million by 2023.
Figure 1: Public Wi-Fi Installed Globally, in Millions 2018 to 2023
Source: Cisco
Furthermore, a lot of businesses are using wireless gigabit devices so that staff members can finish their work from various devices without using a cable. In addition, it facilitates the seamless operation of bandwidth-intensive applications, the effective connection of office networks, the transfer of big files, and the widescreen display of images and video in conference rooms. Furthermore, in public kiosk services, wireless gigabit devices enable the use of wireless docking between smartphones, laptops, projectors, and tablets.
Key Developments
- In February 2024, Leading global provider of networking solutions, Cambium Networks, announced that 6 GHz-ready Wi-Fi and ePMP 4600 6 GHz outdoor fixed wireless solutions will soon enable service providers, enterprise, and industrial network operators in Canada to deploy faster than 1 Gbps speeds. Approved by Innovation, Science and Economic Development Canada (ISEDC), the AFC and ePMP 4600 radios are now official. The integration verification between the final approved ePMP software and the final approved AFC software has also been completed by Cambium Networks.
- In June 2023, Marvell announced the launch of a new Ethernet-based central single-chip switch designed to enhance security and enable automotive OEMs to provide software-defined services on the upcoming generation of vehicles. Marvell created the chips to meet OEM security requirements, including Layer 2 MACsec link protection for encryption and authentication.