Wimax Tdd Fdd Spectrum On

Report summary

The global market for WiMAX devices is expected to grow from $1.92 billion in 2011 to $9.21 billion in 2016. This corresponds to a compound annual growth rate of 36.83% from 2011 to 2016. The saturation of existing 3G networks, the pursuit of higher data rates, and the need for spectrum data efficiency are the key factors driving demand for WiMAX deployments worldwide.

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The inexhaustible need for bandwidth is one of the main drivers of the WiMAX market, not only in the broadband segment but also in the mobile sector. 3G networks gradually became saturated and were replaced by the emergence of the 4G market, which is part of LTE and WiMAX. Although LTE is currently being deployed by many mobile carriers, efficient bandwidth optimization is still needed to reduce carriers' high operating costs (OPEX). Given the growing demands of the customer base, additional resources need to be deployed in terms of bandwidth, even when OPEX is optimized. In such scenarios, WiMAX is being considered as an alternative broadband backhaul solution that allows carriers to offload voice and data traffic.

WiMAX (Worldwide Interoperability for Microwave Access) is a fourth-generation mobile broadband system defined by IEEE standards. The WiMAX Forum regulates this technology, and the IEEE oversees its standardization. The global WiMAX spectrum analysis market is segmented into devices, services, and end-user devices. The services market accounts for the largest share of sales, followed by the equipment market. To meet the growing demand for broadband access, carriers are constantly looking for faster network technologies. Businesses need increased efficiency for existing real-time applications such as video conferencing, while other users want a TV-like experience when browsing high-bandwidth applications such as YouTube and social networks. . The growing demand for faster speeds with a better user experience is forcing carriers to further improve broadband. The WiMAX market has a wide scope in terms of operability, as it can operate in both TDD and FDD modes, providing flexibility to carriers. There is a huge opportunity for WiMAX players, as innovations such as network sharing and hybrid networks have only recently entered the market. It still remains unused. TDD has the flexibility to handle both symmetric and asymmetric broadband traffic, so it is recommended over FDD for WiMAX operations. Additionally, TDD uses half the spectrum, which saves bandwidth compared to FDD. This makes TDD systems more cost-effective and less complex. Since the majority of WiMAX traffic consists of asymmetric data, large-scale WiMAX implementations are implemented in TDD mode to provide industry players with a spectrum-efficient alternative and reduce operational costs.

The scope of the license has different implications for the technology. In terms of bandwidth, performance, and interference, Because licensed frequency bands are allocated only to licensees, interference in these bands is relatively low, which is a benefit to end users. In such a scenario, WiMAX operators have the advantage of having the flexibility to invest in licensed spectrum, thus achieving superior signal quality.

At the same time, licensed bands are typically expensive, as they are auctioned off across the country. 5GHz is a globally recognized unlicensed WiMAX band, making it easier for small and medium-sized operators to enter the unlicensed market and giving WiMAX operators more flexibility as there is no need to compulsorily purchase spectrum. This will enable you to respond accordingly.

Analysis and global forecasts from 2011 to 2016

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