Help. As short List of new feature is given below Improvement to LTE efficiency – Downlink Multi user Superposition Transmission – Enhancements on FD-MIMO Enhanced LWA (eLWA) – As LWA standardized within Release-13, considered DL-only operation, an enhanced LWA  is proposed within Release -14 to overcome this limitation.

The last category investigates the applicability of the 3GPP LTE interface to satellite transmission. How to learn it? Alternatively, all of the configured multiple radio links can be active. The new features in this enhancement includes addition of UL transmission via WLAN, support for 60GHz frequnecy, PDCP optimizations for increased data rates, and SON-related features for WLANs under eNB coverage. The new specs also increase the size of the transport blocks. Enhanced LAA (eLAA) – Feature extends LAA scheme with UL consideration to enable full DC-like capabilities for unlicensed spectrum. – Further Enhancements to LTE D2D, UE to Network Relays for IoT and Wearables The release includes a number of improvements to NB-IoT and LTE-M, two cellular technologies that enable the cellular Internet of Things. NB-IoT and LTE-M cellular modems designed to meet all 3GPP Release 14 features can also be referred to as LTE Cat NB2 and LTE Cat M2 modems. WANI Network Architecture Proposal for TRAI Public Data Office (PDO), 5G NR Measurement Configuration: Meas Object, Report Config, Meas ID, LTE Layer 3 (RRC Layer) Interview Questions, RSSI (Received Signal Strength Indicator), 5G NR Radio Network Temporary Identifier (RNTI). Improvement to LTE efficiency

Welcome to CSN.1 and ASN.1 Message Analyser for 2G/GSM, 3G/UMTS, 4G/LTE standards. TWEET3GPP Release 14 brings RRC Connection re-establishment to NB-IoT devices, allowing modems to move from one network cell to another without having to renegotiate a new connection. – Radiated performance requirements for the verification of multi-antenna reception of UEs This translates into more relaxed requirements on the external battery, which no longer needs to deliver the high current spikes typical for transmissions at 23 dBm. The 3GPP RAN group has started working on the evolution of LTE  in  3GPP Release 14, targeting completion by June 2017. TWEET3GPP Release 14 introduces a new lower power class for NB-IoT. – Performance enhancements for high speed – L2 latency reduction techniques

– Enhancements to CoMP operation – eMBMS enhancements It’s been about two years since 3GPP, the Standards Developing Organization that defines mobile communication standards, froze its 14th release. The decoder is a WEB based application for decoding and encoding protocol stack (2G / 3G / LTE) messages defined by 3GPP standard and encoded using ASN.1 algorithm. Under Release 14, LTE-M significantly increases data rates by expanding data packet sizes almost threefold. Browse FTP. This improvement comes with a disclaimer: while 3GPP Release 14 improves attainable positioning accuracies using LTE-M and NB-IoT network infrastructure, this is a feature that needs to be implemented by mobile network. 3GPP Release 14 is another stepping stone on the road to 5G, paving the way for low power wide area technologies that will be part of the next generation of mobile network technology, enabling IoT device makers to bring products to market today that will be able to support the network technologies of tomorrow. – Uplink Capacity Enhancements As short List of new feature is given below

NB-IoT then becomes a more obvious and cost-effective choice for tracking of assets that do not require rapid exchange of location information (which would still be restricted by the lower data rates).

This site is 3GPP working area. – Downlink Multi user Superposition Transmission Vehicluar-to-Vehicular (V2V) – This feature aims to specify RAN support for Vehicle to Vehile operation integrated with air interface within or without network coverage using side link includes  PHY layer structure, RRM requirements, and L2/L3 protocol operation.

It will help you to convert the number of the 4G LTE EARFCN frequency channel to the 4G LTE frequency The formula for 4G LTE EARFCN is described in 3GPP TS 36.101 chapter 5.7.3. – Indoor Positioning enhancements, RF and Performance Requirements – Enhancement of VoLTE Reduced transmission time directly translates into reduced power consumption. Copyright © 2010-2015 3GPP Message Analyser, Support of Rel.13 Sep/Dec 2017 version of LTE NAS and RRC, Support of "Rel13 V13.2.0" for E-UTRAN RRC "TS36.331". Though these numbers look complicated and unnecessary, they have their … We recommend using the latest version of Google Chrome or Firefox.

3GPP approved the Study on LTE-based 5G Terrestrial Broadcast (RP-181342) during RAN#80 meeting, held in La Jolla (US), June 2018. Along with that network side terminology such as UTRAN, IMS, FOMA (in Japan) are also covered by 3GPP specifications. – Multi-Band BS testing with three or more bands – Enhancements on FD-MIMO As a result, battery-powered IoT devices such as smoke detectors, smart meters, and other distributed sensors can run for longer, requiring less maintenance. Added decoding of SMS Message Content (GSM7 alphabet).

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