Home | Reports | Technical Documents | Tech-Blog | One-Shot Gallery | Korea ICT News | Korea Communication Market Data | List of Contributors | Become a Contributor |    
Section 5G 4G LTE C-RAN/Fronthaul Gigabit Internet IPTV/Video Streaming IoT SDN/NFV Wi-Fi KT SK Telecom LG U+ Network Protocol Samsung   Korean Vendors
Real World Private 5G Cases   4 Deployment Models On-Premise Cases 5G Core Control Plane Sharing Cases

5G Core Sharing Cases

Private 5G Deployment   • Private 5G Frequency Allocation Status in Korea  South Korean government's regulations on private 5G and KT's strategy for entering the market
Cases in Korea   Private 5G Operators |   SK Networks Service (SI) Sejong Telecom (Wire-line Carrier) KT MOS (Affiliate of KT) • Newgens (SI) • NAVER Cloud more >>  
    Enterprise DIY |   Korea Hydro & Nuclear Power (Power Plant) Korea Electric Power Corporation (Energy) • Republic of Korea Navy more >>
CHANNELS     HFR Private 5G Solution (my5G)       my5G Solution Components       my5G Key Features        my5G Resources        my5G News          
LTE Charging I: Offline
February 02, 2015 | By Netmanias (tech@netmanias.com)
Online viewer:
Comments (16)
Page 2 of 5




2. Overview of Offline Charging

Below we will define charging-related interfaces in the LTE reference model presented in our LTE architecture document [3]. Figure 1 illustrates the LTE charging architecture and relevant interfaces.



Figure 1. 3GPP LTE Charging Architecture and Relevant Interfaces


  • Policy and Charging Rule Function (PCRF): When determining PCC rules for a user’s SDF, it selects a charging rule to be applied to the SDF (Service Data Flow), and forwards it to Policy and Charging Enforcement Function (PCEF, i.e. P-GW) through Gx interface.
  • P-GW: It enforces the charging rule forwarded by PCRF to the user’s SDF. In offline charging, it generates CDR(s) according to the charging rule and forwards to Offline Charging System (OFCS) through Gz interface. In online charging however it requests and obtains a quota first, and then measures and reports the user’s usage by performing credit control with Online Charging System (OCS) through Gy interface.
  • Offline Charging System (OFCS): Upon receiving the CDRs from P-GW2  through Gz interface, it post-processes them as necessary and then forwards to the billing domain3.
  • Online Charging System (OCS): It allocates a quota to the user by performing credit control with P-GW through Gy interface (e.g. matters like for how long the session will last, how much data the user can deliver, etc. are determined).

This document is about offline charging, and hence Figure 1 shows how PCRF, P-GW and OFCS work for the task. Before we discuss offline charging procedures in details in Chapter III, we will briefly go over how this offline charging system works.


Figure 2 provides an overview of how offline charging works, particularly how a charging rule is delivered [1] and how a CDR is transferred [4].



Figure 2. Offline Charging Overview: Charging Rule and CDR Delivery


PCRF selects a charging rule upon establishment of an EPS session, and forwards the rule, as embedded in a PCC rule, to PCEF (P-GW). At this time, the name of the charging rule is defined as a PCC rule name. Information like charging method (e.g. offline or online), rating group (i.e. how service is charged, for example, KRW 100 per minute, KRW 10,000 per 100 MB, and so on), etc. is included as the charging rule in the PCC rule. In Figure 2, an Internet session is being established, and a charging rule with “offline” charging method and “rgInternet” rating (rating for Internet use) is being applied to it.

P-GW knows, from the charging rule received from PCRF, that offline charging is used. It determines what charging information should be measured/generated (i.e. CDR parameters), and through which interface the information should be delivered (e.g. whether to deliver by using GTP’ or FTP), etc. Next, it creates a default bearer, applies the charging rule to it, and opens a CDR, getting ready to generate charging information.


Now, IP packets are delivered through P-GW. P-GW begins measuring network usage by Internet SDFs, generating charging information.

Upon termination of the EPS session (or periodically), P-GW forwards the CDR (PGW-CDR) which records charging information (volume and history of the user’s network resource usage) to OFCS. In the example above, the usage per rating group is reported, and the CDR includes the following information (details on CDR parameters will be summarized in Chapter IV):
  • User information (e.g. user ID, user location)
  • Network/bearer information (e.g. serving network ID, APN, P-GW and S-GW addresses, requested QoS, authorized QoS)
  • Network resource usage (e.g. number of bytes delivered)
  • Usage information (e.g. total collection hours, packet delivery hours)
  • Service information (e.g. service ID, packet filtering)


Page 2 of 5
Antony Franklin 2015-02-11 15:32:22

The articles are good.. Like to see more..

sivakumar 2015-05-15 14:31:52

thank for in nice way of explanation please upload online charging doc.

dhiman 2015-10-12 19:29:30

Hi Please share the Online charging doc

zhaohaoxiong 2016-07-13 18:45:40

Hi,thanks for sharing those docs,,,,,while,    Did you forget to upload the document Online charging doc?

sowjanya 2016-11-08 15:40:05


I am unable to find online charging document. please share the path where we can get that document


Alireza Samiee 2016-12-14 16:10:37

I'm waiting to share the online doc too



Arnab Das 2019-01-30 23:28:20

Offline Charging is implemented using Diameter protocol - Rf reference point for Voice and Gz Reference point for Data employing ACR (Accounting Request) and ACA (Accounting Answer). Other way round PGW may send CDR directly to Batch Mediation via FTP protocol. I have never come across GTP and Data Record Transfer Request and Data Record Transfer Answer exchanges meant Offline Charging.

Rest of the flow looks good. However using place holder attributes in place of Diameter AVP for Gx plays the spoilsport.

Gomathi 2019-08-22 23:14:10

My thoughts excatly... Offline charging is done using diameter protocol Rf interface .... it can be referred in offline charging architecture for IMS as found in 3GPP TS 32.260 [4].

muhammad hassan ali khan 2019-04-10 14:21:07

dear can you please share data related to online charging 

taw1995 2019-04-19 12:52:33

Dear Trainer, Could you please share me online charging document? My mail address is thidaayewin@fortunemm.com thanks a lot!

eddahby mohamed 2019-11-27 08:52:15

bonjour a tt le mnd.

vraiment je trouve a Netmanias tout les document dont je suis besoin.

encord une fois merci beaucoup a tout le monde

nyamochir boldbaatar 2020-08-14 11:19:39

thanks, Did you forget to upload the document offline charging service flow

Ali 2020-11-27 14:41:04


I can 't find the file of : LTE Charging II: Online (TBD)

Please help me.

Ravinder Singh Kandwal 2022-11-09 18:55:09

can you please share flow related to online Ro charging 

Navatha Kumari 2024-05-06 15:49:40

can you share  LTE Charging II: Online (TBD).  


Navatha Kumari 2024-05-06 15:50:24

can you share  LTE Charging II: Online.  


Thank you for visiting Netmanias! Please leave your comment if you have a question or suggestion.
Related Contents
Netmanias Technical Documents
Netmanias Technical Documents
Netmanias Blog
Netmanias Technical Documents
Netmanias Technical Documents
Netmanias Technical Documents
Netmanias Technical Documents

[HFR Private 5G: my5G]


Details >>







Subscribe FREE >>

Currently, 55,000+ subscribed to Netmanias.

  • You can get Netmanias Newsletter

  • You can view all netmanias' contents

  • You can download all netmanias'

    contents in pdf file







View All (181)
5G (9) 6G (1) Backbone (2) Backhaul (3) Blockchain (1) CDN (1) Carrier Ethernet (3) Charging (1) Cloud Native (1) Core (1) DHCP (4) ECM (2) EMM (16) EPS (2) Google (1) HLS (1) HTTP Adaptive Streaming (3) Handover (5) IPTV (4) Initial Attach (2) IoT (2) Korea (1) LTE (39) LTE Identification (2) LTE-A (1) MPLS (2) Mobility (2) NAT (7) Netflix (1) Network Architecture (3) Network Protocol (20) New Radio (1) OTT (1) PCRF (3) Private 5G (1) QoS (3) RCS (3) SDF (2) SDN/NFV (3) SK Telecom (2) Samsung (3) Security (5) Sk Telecom (1) Transparent Cache (1) Video Streaming (4) VoLTE (2) Wi-Fi (1) YouTube (2)
Password confirmation
Please enter your registered comment password.