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Study on access traffic steering, switch and splitting support in the 5G System (5GS) architecture; Phase 2 Managing a complete Network Slice Instance (NSI) is not only managing all the functionalities but also the resource necessary to support certain set of communications service. Functional architecture and information flows to support Mission Critical Push To Talk (MCPTT); Stage 2 Maximize your online collaborative experience. Easily store and share files with your community without having to mess with firewall issues. Study on enhancement of Ultra-Reliable Low-Latency Communication (URLLC) support in the 5G Core network (5GC)

The S-NSSAI may be associated with a PLMN (e.g., PLMN ID) and have network-specific values or have standard values. An S-NSSAI is used by the UE in access network in the PLMN that the S-NSSAI is associated with. Mission critical services support in the Isolated Operation for Public Safety (IOPS) mode of operation Study on Machine-Type Communications (MTC) and other mobile data applications communications enhancements Scale up from small group conversations to large conferences with thousands of participants with our advanced Client-Server architecture. Study on Stage 2 aspects of Optimised Service Charging and Allocation of Resources (OSCAR) in the IP Multimedia Subsystem (IMS) whilst roaming

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Issue commands while you're AFK. With our mobile TeamSpeak ® apps for Android and iOS, you’ll never be far from the action. Telecommunications and Internet converged Services and Protocols for Advanced Networks (TISPAN); Support of Short Message Service (SMS) over NGN IMS subsystem; Stage 2; [Endorsement of 3GPP TS 23.204 Release 7] Whether you're AFK and want to jump in to the action on your mobile, or constantly switching rigs, myTeamSpeak makes it simple to keep your TeamSpeak 3 server access details close at hand, for just when you need them most.

If the NFs are interconnected, the 3GPP management system contains the information relevant to connections between these NFs such as topology of connections, individual link requirements (e.g. QoS attributes), etc. For the part of the Transport Network (TN) supporting connectivity between the NFs, the 3GPP management system provides link requirements to the management system that handles the part of the TN supporting connectivity between the NFs. Need to keep your conversation under the radar? With direct messaging or team text chat, you can get the message across without the noise. System enhancements for the use of IP Multimedia Subsystem (IMS) services in local breakout and optimal routeing of media TISPAN; NGN Architecture to support emergency communication from citizen to authority [Endorsed document 3GPP TS 23.167, Release 7]

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Network Slice : A logical network that provides specific network capabilities and network characteristics. Identification of a Network Slice is done via the Single Network Slice Selection Assistance Information (S-NSSAI). The NSSAI (Network Slice Selection Assistance Information) is a collection of S-NSSAIs. Currently 3GPP allows up to eight (8) S-NSSAIs in the NSSAI sent in signaling messages between the UE and the Network. This means a single UE may be served by at most eight Network Slices at a time. The S-NSSAI signaled by the UE to the network, assists the network in selecting a particular Network Slice instance. An S-NSSAI is comprised of: Service Enabler Architecture Layer for Verticals (SEAL); Functional architecture and information flows SA2 has defined some standardized SST values in TS 23.501. These SST values are to reflect the most commonly used Slice/Service Types and will assist with global interoperability for slicing. Currently, SA2 has defined a short characteristic for eMBB SST, however, this may change while 3GPP Rel15 is being finalized. Other SSTs are still work in progress. The 3GPP SA2 Working Group, responsible for overall system architecture, is currently working on specifying the 5G Core (5GC) architecture with Network Slicing being a main feature of 5GC. Technical Specification (TS) 23.501 defines Stage-2 System Architecture for the 5G System which includes Network Slicing. Technical Specification (TS) 23.502 defines procedures for the 5G System. Technical Specification (TS) 23.503 defines Policy and Charging Control Framework for the 5G System. The work on these Technical Specifications is ongoing with target completion date being December 2017. Figure 1 depicts the non-roaming reference architecture. Figure 2 depicts an example of Network Slicing.

Study on enhancing topology of the Service Management Function (SMF) and the User Plane Function (UPF) in 5G networks Feasibility study for enhancement of radio performance for Voice over IP Multimedia Subsystem (VoIMS); Report on technical options and conclusions

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A network slice is viewed as a logical end-to-end network that can be dynamically created. A given User Equipment (UE) may access to multiple slices over the same Access Network (e.g. over the same radio interface). Each slice may serve a particular service type with agreed upon Service-level Agreement (SLA). In this article we provide highlights of 3GPP Network Slicing as being defined in TS 23.501 in SA2. A Network Slice is defined within a Public Land Mobile Network (PLMN) and includes the Core Network Control Plane and User Plane Network Functions as well as the 5G Access Network (AN). The 5G Access Network may be: TR28.801 has introduced the network slice instance lifecycle management as depicted below in Figure 2, considering it independent of the network service instance which is using the network slice instance. Typically a network slice instance is designed (preparation phase), then it is instantiated (Instantiation, Configuration and Activation phase), then it is operated (Run Time phase) and finally it may be decommissioned when the slice is no longer needed (Decommissioning phase). These different phases would be part of the “Network Slice Management Function” mentioned below in Fig 3. Study on application architecture for the Future Railway Mobile Communication System (FRMCS); Stage 2 Voice Call Continuity (VCC) between Circuit Switched (CS) and IP Multimedia Subsystem (IMS); Stage 2 Study on application architecture for the Future Railway Mobile Communication System (FRMCS) Phase 2

A Slice Differentiator (SD), which is an optional information that complements the Slice/Service type(s) to differentiate amongst multiple Network Slices of the same Slice/Service type.Application layer support for Uncrewed Aerial System (UAS); Functional architecture and information flows; is conducting standardization effort holistically on network slicing. This article only gives the introduction of the standard progress from system architecture prospective. Beyond 3GPP SA, 3GPP RAN (Radio Access Network) WGs are also working on how RAN handles network slices. Because Virtualization is one of the enabling technology for network slicing, 3GPP is also closely collaborating with relevant network virtualization standard organizations, such as ETSI NFV ISG, to make sure the network slice can run in the virtualized environment and operators can have a seamless E2E network slice resource management capability including the virtualized resource for the network slices. Interworking aspects and migration scenarios for IPv4-based IP Multimedia Subsystem (IMS) implementations Tony Saboorian is a Director in Wireless Research and Standards in Huawei Technologies and leads the Huawei Wireless Network delegations in 3GPP TSG-SA. Before joining Huawei, he was the leader of the wireless core network standards group in Nortel Networks. He has extensive experience in telecommunication research and standardization with emphasis on Wireless Network, SDN and NFV. Mr. Saboorian has worked on various design, planning, architecture and standards projects in Siemens, Nortel Networks, and Huawei. He has contributed to number of telecom standards, held leadership positions in Standards organizations, and is recognized for his contributions to the industry. He received his master’s degree in Electrical and Computer Engineering from Florida Atlantic University. Amanda Xiang received Master degree of Electrical Engineering from Clemson University. She has been working in mobile communication industry for almost 20 years and worked for various companies such as Ericsson, Motorola, ZTE and Huawei with different technical and leadership roles. She has been participating and contributing industry standard effort for mobile network since 2005, including contribution in WiMAX forum, IEEE802.16, IEEE802.20, 3GPP (SA2, SA1, SA5, RAN2), 3GPP2, WFA, ETSI NFV ISG. Currently she is the senior standard manager of Huawei, and responsible for NFV, network slicing, IoT.