What is standardized is the supporting functions for scheduling such as transmission of scheduling grants, quality-of-service mechanisms, and various feedback information, for example channel-state reports and buffer-status reports. Different vendors may choose different strategies in various scenarios to match the user needs. The scheduling strategy in LTE is not standardized but is a base-station-implementation issue-and an important one as the scheduler is a key element in LTE and to a large extent defines the overall behavior.
#Downlink vs uplink pro#
Johan Sköld, in 4G LTE-Advanced Pro and The Road to 5G (Third Edition), 2016 9.1 Scheduling Strategies In practice, however, SDD is rarely used as leakage from transmit to receive antennas can lead to dominant interference. In principle, this allows simultaneous uplink and downlink transmission over the entire frequency band. 12.3.3.3 Space division duplexing (SDD)įinally, SDD relies on the BS and mobile being equipped with multiple antennas and the creation of orthogonal spatial modes for uplink and downlink. The main drawbacks of TDD are latency (as information can only be sent when a channel becomes available) and the need for uplink synchronization (to account for differences in propagation time). In addition, channel state information estimated in the uplink can be used in the downlink, under the assumption of channel reciprocity. This approach enables asymmetric traffic and time-varying uplink and downlink demands. Time is divided up into short slots and some are designated for uplink while others are designated for downlink. TDD allows uplink and downlink to use the entire frequency spectrum, but in different time slots. In addition, the nodes must be equipped with dedicated filters, which may be costly. On the downside, the frequency bands are usually fixed by regulators, thus making FDD inflexible when uplink or downlink traffic requirements change. FDD creates a channel that is always available and thus does not incur any delay. The bands are typically separated by a large margin to avoid leakage. 12.3.3.1 Frequency division duplexing (FDD)įDD allows uplink and downlink transmission at the same time, but over different frequency bands. Eryilmaz, in Academic Press Library in Mobile and Wireless Communications, 2016 12.3.3 Example: DuplexingĪn example of orthogonal channels is duplexing, ie, the ability to provide separate channels for uplink and downlink in cellular networks (see Section 12.2.1), in frequency (FDD), time (TDD), and space (space division duplexing (SDD)). You will need to ensure the Mesh Node's specified uplink should match Mesh Root's downlink setting.Īfter establishing the Mesh network, you can see the Wireless Downlink Band setting in Mesh> Mesh Status menu page.H.
When the VigorAP is in Mesh Node mode you can choose the required uplink/downlink bands. When the VigorAP is in Mesh Root mode, you can choose the required downlink band. For example, the VigorAP920 can establish the Mesh network by using either 2.4GHz and 5GHz bands but the VigorAP903 can only use the 5GHz band. Note: The options available vary for different models. This flexibility allows you to select the most suitable Wi-Fi band (2.4GHz/5GHz) for the Wi-Fi Mesh network. The new Mesh feature available in the latest firmware now supports Wireless uplink/downlink band options. On the other hand, the 5GHz band is more easily affected by physical objects such as furniture, walls, and buildings etc. However, the 2.4GHz band is usually more crowded than the 5GHz band and is more likely to be affected by interference from neighboring access points. The Wi-Fi coverage of the 2.4GHz band is much greater that of the 5GHz band.
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