Standards

For your convenience, we provide a list of the most relevant specifications for the systems which Nomor Research has been implemented.

5G Next Generation Radio 

  • TR38.801 Study on New RAT: Radio Access Architecture and Interfaces
  • TR38.802 Study on New RAT: Physical Layer Aspects
  • TR38.804 TR for Study on New RAT: Radio Interface Protocol Aspects

Simulation methodology

LTE Advanced (LTE-A)

  • 36.912: Feasibility study for Further Advancements for E-UTRA (LTE-Advanced)
  • 36.913: Requirements for further advancements for E-UTRA (LTE-Advanced)
  • 36.807: E-UTRA; UE Radio Transmission and Reception
  • 36.216: E-UTRA; Physical layer for relay operation

LTE Home eNodeB's (Home Base Stations)

  • 22.220: Service requirements for Home Node B (HNB) and Home eNode B (HeNB)
  • 23.830: Architecture aspects of HNB / HeNB
  • 32.571: Telecommunication management; HNB and HeNB management; Type 2 interface concepts and requirements
  • 32.591: Telecommunication management; HeNB Operations, Administration, Maintenance and Provisioning (OAM&P); Concepts and requirements for Type 1 interface HeNB to HeNB Management System (HeMS)
  • 32.781: Telecommunication management; HeNB Subsystem; Network Resource Model; Integration Reference Point; Requirements

Self-Organizing Networks (SON) 

  • 32.500: Telecommunication management; SON; Concepts and requirements
  • 32.511: Telecommunication management; ANR management; Concepts and requirements
  • 32.541: Telecommunication management; SON; Self-healing concepts and requirements
  • 32.542: Telecommunication management; SON; Self-healing stage 2
  • 36.805: E-UTRA; Study on minimization of drive-tests in next generation networks
  • 36.902: Self-configuring and self-optimizing network (SON) use cases and solutions

Evolved UTRA ("Long Term Evolution")

  • 23.882: 3GPP system architecture evolution (SAE)
  • 25.912: Feasibility study for EUTRA and EUTRAN
  • 25.913: Requirements for EUTRA and EUTRAN
  • 25.813: EUTRA and EUTRAN Radio interface protocol aspects
  • 25.814: Phyical Layer Aspects of Evolved UTRA
  • 36.201: E-UTRA; Physical layer; General description
  • 36.211: E-UTRA; Physical Channels and Modulation
  • 36.212: E-UTRA; Multiplexing and channel coding
  • 36.213: E-UTRA; Physical layer procedures
  • 36.214: E-UTRA; Physical layer; Measurements
  • 36.300: E-UTRA and E-UTRAN; Overall description; Stage 2
  • 36.302: E-UTRA; Services provided by the physical layer
  • 36.304: E-UTRA; UE procedures in idle mode
  • 36.306: E-UTRA; UE radio access capabilities
  • 36.314: E-UTRA; Layer 2 - Measurements
  • 36.321: E-UTRA; MAC protocol specification
  • 36.322: E-UTRA; RLC protocol specification
  • 36.323: E-UTRA; PDCP specification
  • 36.331: E-UTRA; RRC protocol specification

Multimedia Broadcast Multicast Services (MBMS)

  • 25.992: Requirements
  • 23.246: Architecture and Functional Description
  • 25.346: UMTS Stage 2 Description
  • 43.246: GERAN Stage 2 Description
  • 26.346: Protocols and Codecs
  • 25.905: Study on MBMS Enhancements for Rel.7

HSPA Evolution

  • 25.999: HSPA Evolution beyond Rel.7
  • 25.903: Continuous connectivity for packet data user
  • 25.876: Multiple Input Multiple Output (MIMO) antenna
  • 25.825: Dual-cell High Speed Downlink Packet Access operation
  • 25.307: Requirements on UEs supporting a release-independent frequency band

Enhanced Uplink Dedicated Channel ("HSUPA")

  • 25.309: FDD Enhanced Uplink, Stage 2
  • 25.319: Enhanced Uplink, Stage 2 
  • 25.321: MAC specification
  • 25.808: FDD Enhanced Uplink, PHY Description

High Speed Downlink Packet Access (HSPDA)

WiMAX