Technology / mmWave

Millimeter Wave, Technical Overview and Performance Evaluation

5G Millimeter Wave Performance Evaluation [Part 2] -- Outdoor Environmental Measurements, 5G Millimeter Wave Issues and Solutions

Quantitative understanding of its high-speed, high-capacity, and low-latency characteristics will be important for the widespread use of millimeter wave. In the second part, we will look at "5G Millimeter Wave Outdoor Environmental Measurements" and "5G Millimeter Wave Challenges and Solutions"....

5G Millimeter Wave Performance Evaluation [Part 1] -- Throughput and Latency Performance, Indoor Environment Measurement

In order to promote the widespread use of millimeter wave, it is important to quantify its high-speed, high-capacity, and low-latency performance. In this article, specific experimental and measurement results using 5G millimeter wave show that millimeter wave can achieve very high throughput and latency performance indoors and outdoors, and...

Effective Technologies for Expanding Millimeter Wave Applications [Part 2] -- Device Technologies, Infrastructure Sharing, etc.

In the second part, we will look at the following five topics: millimeter wave device technology, infrastructure sharing, millimeter wave carrier aggregation (CA), sub6+ millimeter wave dual connectivity (DC), and High-Power UE (HPUE)....

Effective Technologies for Expanding Millimeter Wave Applications [Part 1] -- Beamforming, MIMO, etc.

This article provides a comprehensive overview of technologies that are considered effective in solving the millimeter wave dissemination issues introduced in "Challenges" for expanding millimeter wave use in 5G, as well as millimeter wave-related technologies that have been specified or are under consideration for specification in 3GPP and other standardization....

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