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EP-4740554-A1 - METHOD AND SYSTEM FOR NETWORK OPTIMISATION BASED ON GENERATING KPIS

EP4740554A1EP 4740554 A1EP4740554 A1EP 4740554A1EP-4740554-A1

Abstract

The present disclosure relates to a method and a system for network optimisation based on generating KPIs encompassing: receiving, by a transceiver unit from one or more Network Functions (NFs), a session detail records (SDRs) comprising a set of clear code fields; detecting, by a detection unit [104A], one or more clear code fields from the set of clear code fields; determining, by a determination unit [106A], a scenario status based on the one or more clear code fields; generating, by generation unit [108A], one or more network KPIs; monitoring, by monitoring unit [110A], one or more network KPIs.

Inventors

  • MURARKA, ANKIT
  • SAXENA, GAURAV
  • Gurbani, Gourav
  • Kishore, Jugal
  • BHATNAGAR, AAYUSH
  • GANVEER, Chandra
  • KUMAR, YOGESH

Assignees

  • Jio Platforms Limited

Dates

Publication Date
20260513
Application Date
20240626

Claims (14)

  1. 1. A method for network optimisation based on generating key performance indicators (KPIs), the method comprising: receiving, by a transceiver unit [102A], from one or more Network Function(s) associated with a network, a set of session detail records (SDRs) associated with at least a set of network procedures, wherein each SDR from the set of SDRs comprises a set of clear code fields; detecting, by a detection unit [104A], one or more clear code fields from the set of clear code fields associated with the set of network procedures; determining, by a determination unit [106 A], a scenario status associated with one or more network procedures from the set of network procedures based on the one or more clear code fields associated with the one or more network procedures; generating, by a generation unit [108 A], at a graphical user interface (GUI) for streaming, one or more network key performance indicators (KPIs) associated with the network based on the scenario status associated with the one or more network procedures; and monitoring, by a monitoring unit [110A], the one or more network KPIs based on at least the one or more clear code fields associated with the one or more network procedures.
  2. 2. The method as claimed in claim 1, wherein the method further comprising optimising troubleshooting, by a troubleshooting unit [112A], the network based on at least generating the one or more network KPIs and monitoring the one or more network KPIs.
  3. 3. The method as claimed in claim 1, wherein the scenario status is at least one of a success scenario and a failure scenario.
  4. 4. The method as claimed in claim 1, the method further comprises generating, by the generation unit [108 A], the one or more network KPIs associated with the network in a predefined format.
  5. 5. The method as claimed in claim 3, wherein the success scenario associated with each of the one or more network procedures and the failure scenario associated with each of the one or more network procedures is determined by the determination unit [106 A] based on the one or more clear code fields associated with each network procedure and one or more predefined clear code rules.
  6. 6. The method as claimed in claim 1, wherein each of the one or more clear code fields is received in at least one of a predefined clear code format and a dynamically defined clear code format.
  7. 7. A system [ 1 OOA] for network optimisation based on generating key performance indicators (KPIs), the system [100A] comprises: a transceiver unit [102A], configured to receive, from one or more Network Function(s) associated with a network, a set of session detail records (SDRs) associated with at least a set of network procedures, wherein each SDR from the set of SDRs comprises a set of clear code fields; a detection unit [104 A] connected to at least the transceiver unit [102 A], the detection unit [104 A] configured to detect, one or more clear code fields from the set of clear code fields associated with the set of network procedures; a determination unit [106 A] connected to at least the detection unit [104 A], the determination unit [106 A] configured to determine, a scenario status associated with one or more network procedures from the set of network procedures based on the one or more clear code fields associated with the one or more network procedures; a generation unit [108A] connected to at least the determination unit [106A], the generation unit [108 A] configured to generate, at a graphical user interface (GUI) for streaming, one or more network key performance indicators (KPIs) associated with the network based on the scenario status associated with the one or more network procedures; and a monitoring unit [110A] connected to at least the generation unit [108A], the monitoring unit [110A] configured to monitor, via the GUI, the one or more network KPIs based on at least the one or more clear code fields associated with the one or more network procedures.
  8. 8. The system as claimed in claim 7, wherein the system further comprises a troubleshooting unit [112A] connected to at least the monitoring unit [110A], the troubleshooting unit [112A] configured to optimise troubleshooting, the network based on at least generating the one or more network KPIs and monitoring the one or more network KPIs.
  9. 9. The system [100A] as claimed in claim 7, wherein the scenario status is at least one of a success scenario and a failure scenario.
  10. 10. The system [100A] as claimed in claim 7, wherein the generation unit [108A] is further configured to generate the one or more network KPIs associated with the network in a predefined format.
  11. 11. The system [100A] as claimed in claim 9, wherein the success scenario associated with each of the one or more network procedures and the failure scenario associated with each of the one or more network procedures is determined by the determination unit [106A] based on the one or more clear code fields associated with each network procedure and one or more predefined clear code rules.
  12. 12. The system [100A] as claimed in claim 7, wherein each of the one or more clear code fields is received in at least one of a predefined clear code format and a dynamically defined clear code format.
  13. 13. A user equipment (UE) [500] for network optimisation based on generating key performance indicators (KPIs), the UE [500] comprising: a transmitting unit [502] configured to transmit a request to a network for one or more parameters; a receiving unit [504] connected at least to the transmitting unit [502], the receiving unit [504] configured to receive a response to the request, the response comprising an updated one or more parameters; a graphical user interface [506] connected at least to the receiving unit [504], the graphical user interface [506] configured to display the updated one or more parameters and the KPIs; wherein generating KPIs and updating the one or more parameters is based on: o receiving, by a transceiver unit [102 A] from one or more Network Function(s) associated with a network, a set of session detail records (SDRs) associated with at least a set of network procedures, wherein each SDR from the set of SDRs comprises a set of clear code fields; o detecting, by a detection unit [104A], one or more clear code fields from the set of clear code fields associated with the set of network procedures; o determining, by a determination unit [106A], a scenario status associated with one or more network procedures from the set of network procedures based on the one or more clear code fields associated with the one or more network procedures; o generating, by a generation unit [108 A], at a graphical user interface (GUI) for streaming, one or more network key performance indicators (KPIs) associated with the network based on the scenario status associated with the one or more network procedures; o monitoring, by a monitoring unit [110A], the one or more network KPIs based on at least the one or more clear code fields associated with the one or more network procedures.
  14. 14. A non-transitory computer readable storage medium storing one or more instructions for network optimisation based on generating KPIs, the one or more instructions comprising executable code which, when executed by one or more units of a system [100A], causes: a transceiver unit [102 A] of the system [100 A] to receive, from one or more Network Function(s) associated with a network, a set of session detail records (SDRs) associated with at least a set of network procedures, wherein each SDR from the set of SDRs comprises a set of clear code fields; a detection unit [104 A] of the system [100 A] to detect one or more clear code fields from the set of clear code fields associated with the set of network procedures; a determination unit [106 A] of the system [100 A] to determine a scenario status associated with each of the set of network procedures based on the one or more clear code fields associated with said each of the set of network procedures; a generation unit [108 A] of the system [100 A] to generate one or more network key performance indicators (KPIs) associated with the network based on the scenario status associated with each of the set of network procedures; and a monitoring unit [110A] of the system [100 A] to monitor the one or more network KPIs associated with the network based on at least the one or more clear code fields associated with each of the set of network procedures associated with the network.

Description

METHOD AND SYSTEM FOR NETWORK OPTIMISATION BASED ON GENERATING KPIS FIELD OF INVENTION [0001] The present disclosure relates generally to the field of wireless communication systems. Particularly, the present disclosure relates to method and system for pro-active monitoring to analyse the probing data which further aids in the overall network monitoring, troubleshooting and root cause analysis i.e., network optimisation based on generating Key Performance Indicators (KPIs). More particularly, the present disclosure relates to method and system for network optimisation based on generating KPIs in real-time. BACKGROUND [0002] The following description of related art is intended to provide background information pertaining to the field of the disclosure. This section may include certain aspects of the art that may be related to various features of the present disclosure. However, it should be appreciated that this section be used only to enhance the understanding of the reader with respect to the present disclosure, and not as admissions of prior art. [0003] Wireless communication technology has rapidly evolved over the past few decades, with each generation bringing significant improvements and advancements. The first generation of wireless communication technology was based on analog technology and offered only voice services. However, with the advent of the second generation (2G) technology, digital communication and data services became possible, and text messaging was introduced. The third generation (3G) technology marked the introduction of high-speed internet access, mobile video calling, and location-based services. The fourth generation (4G) technology revolutionized wireless communication with faster data speeds, better network coverage, and improved security. Currently, the fifth generation (5G) technology is being deployed, promising even faster data speeds, low latency, and the ability to connect multiple devices simultaneously. With each generation, wireless communication technology has become more advanced, sophisticated, and capable of delivering more services to its users. [0004] The new times have led to the development of software systems that eliminate the use of hardware infrastructure to detect and troubleshoot in the network. Such systems have a probing agent which collects probing records known as Session Detail Record (SDR), from 4G and 5G Network nodes. These records are then indexed further in data repositories of troubleshooting tools. There is need to analyze this data which may further aid in the overall network monitoring in real time, troubleshooting and root cause analysis. Data generated from the network, needs to be delivered in real time to the probe solution and also to be processed in real time. Generally, the records are delivered in non-real time. This led to a delay in processing and thus delay in the analytics, while doing troubleshooting of any subscriber session/customer compliant. In order to efficiently manage the networks, pro-active monitoring in real time is essential so that any degradation in service is rectified before it reaches a critical stage. [0005] Thus, there exists a need for a method and system for network optimisation based on generating KPIs, to monitor in real time any degradation in the network service and rectifying the degradation before reaching the critical stage. OBJECTS OF THE INVENTION [0006] Some of the objects of the present disclosure, which at least one implementation disclosed herein satisfies are listed herein below. [0007] It is an object of the present disclosure to provide a system and a method for network optimisation based on generating KPI’s [0008] It is an object of the present disclosure to provide a system and a method for capturing real-time clear code data. [0009] It is another object of the present disclosure to provide a solution that captures the Network Function wise clear codes in real-time and will enable user to analyse trend of any clear code in real-time on live data. [0010] It is yet another object of the present disclosure to provide a solution to help the user to identify the issues in the network, in real-time and thus will minimize the effort and time to discover the actual issue. SUMMARY [0011] This section is provided to introduce certain aspects of the present disclosure in a simplified form that are further described below in the detailed description. This summary is not intended to identify the key features or the scope of the claimed subject matter. [0012] An aspect of the present disclosure may relate to a method for network optimisation based on generating KPIs. The method comprising receiving, by a transceiver unit from one or more Network Function(s) associated with a network, a set of session detail records (SDRs) associated with at least a set of network procedures, wherein each SDR from the set of SDRs comprises a set of clear code fields. The method further comprises detecting, by a detecti