Previous generation cellular systems have used multiple antenna techniques such as transmit and receive diversity and beamsteering to improve the link budget. In each of these cases, a single stream ...
MIMO is part of 4G/Long-Term Evolution (LTE). The major difference between the two different types of MIMO—time division (TD) LTE or LTE TDD (TD duplexing) and frequency division (FD) LTE or LTE FDD ...
The rise of low-cost smartphones is happening: larger screens, more powerful cameras, speakers, GPS and Bluetooth connectivity are just some of the features flowing down from premium devices into mass ...
T-Mobile announced today it has recently implemented 4x4 MIMO in 319 cities across the United States, effectively doubling the number of data paths between the network's cell towers and compatible ...
DUBLIN--(BUSINESS WIRE)--The "Massive MIMO - Global Strategic Business Report" report has been added to ResearchAndMarkets.com's offering. Global Massive MIMO Market to Reach $77.1 Billion by 2030 The ...
A new report from Barclays today predicts that this year’s iPhone XR will bring better cellular connectivity with a new LTE 4×4 MIMO antenna. This could bring the entry-level flagship more in line ...
Huawei announced the commercial availability of the world's first 8x8 MIMO LTE outdoor CPE (customer-premises equipment) B3368. Huawei announced the commercial availability of the world's first 8x8 ...
PRESS RELEASE: Huawei has joined forces with Thailand telecom operators to complete scaled commercial adoption of the FDD dual-band Massive MIMO solution in Bangkok. The solution allows a single unit ...
Radio technologies such as IEEE 802.11 and 3GPP (3rd generation partnership project) LTE rely on MIMO (multiple input, multiple output) techniques to increase the range and data rates of radio ...
Ericsson has announced deploying Massive Multiple-Input Multiple-Output (Massive MIMO) technology across Verizon's wireless network in Irvine, California, increasing network capacity and speeds for ...
Ericsson has announced using licensed-assisted access (LAA) technology to achieve speeds of 1.1Gbps on T-Mobile's LTE network in the United States. The companies used 12-layer LAA technology, Ericsson ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results