1 / 22

Technical Seminar On Description of Wireless intelligent network with the use of case Maps

Technical Seminar On Description of Wireless intelligent network with the use of case Maps. Under The guidance of N.Srinivasu By S.Rabindra kumar patro Roll No. :200117185 Branch: EI.

kellan
Télécharger la présentation

Technical Seminar On Description of Wireless intelligent network with the use of case Maps

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Technical Seminar On Description of Wireless intelligent network with the use of case Maps Under The guidance of N.Srinivasu By S.Rabindra kumar patro Roll No. :200117185 Branch: EI

  2. The idea of WIN is to include IN concepts in IS-41, to facilitate creation of new services in mobile systems. WIN also adopts a number of IN concepts, such as the one of Distributed Functional Plane and Functional Entities. WIN introduces the concept of Network Entities (NEs) and their respective network reference model. Multiple NE may be combined in one PE NE are similar to PE in that a NE may contain several FE. WIN does not want to recommend Physical Entities. Network entities are still abstract with respect to PE and can be implemented in several ways Wireless Intelligent Network

  3. UCMs for WIN

  4. ORIGINATOR Root Map WIN Database Management Location Update In5 Out5 FeatureActive Update WIN CNAP/RND In1 Call Origination Out1 TERMINATOR Get Call Answer Get Call No Answer The originator can at any time perform a location update or a feature activation. It can also originate a call. By intervention of the terminator, the call is either answered or not.

  5. TERMINATOR Root Map Location Update In5 Out5 WIN Database Management FeatureActive Update In1 WIN CNAP/RND Call Origination Out1 TERMINATOR Get Call Answer Get Call No Answer The originator can at any time perform a location update or a feature activation. It can also originate a call. By intervention of the terminator, the call is either answered or not.

  6. Example

  7. Management related functions SMAF SMF To any FE SCEF Service Control Reated functions SDF SCF Call Control SSF related functions CCF SRF Wireless Access Mobility LRF LRF RCF H V related functions MACF RTF ACF RACF WIN Distributed Functional Model (DFM) ACF Authentication Control CCF Call Control LRFH Location Registration-HLR LRFV Location Registration-VLR MACF Mobile Station Access Control RACF Radio Access Control RCF Radio Control RTF Radio Terminal SCEF Service Creation Environment SCF Service Control SDF Service Data SMAF Service Management Access SMF Service Management SSF Service Switching SRF Specialized Resource

  8. Some important WIN Functional Entities Call Control Function (CCF) provides call and service processing and control.It is a function that handles all normal calls by providing the process and the control of call/connection between network subscribers. It also provides IN service access. Service Switching Function (SSF) is associated with CCF and provides the set of functions required for interaction between the CCF and a service control function (SCF) by managing signaling between them. Mobile Station Access Control Function (MACF) stores subscriber data and dynamically associates system resources with a particular call (TLDN assignment,see later). Location Registration Functions (LRFV and LRFH) provides the service logic and service data function to manage the mobility aspects for wireless users (VLR and HLR);

  9. Some important WIN Functional Entities Service Control Function (SCF) commands call control functions in the processing of WIN provided and custom service requests. It contains all the logic and data required to provide a service. It may interact with other functional entities to access additional logic or data. Service Data Function (SDF) contains customer and network data for real-time access by the SCF in the execution of WIN-provided services specialized Resource Function (SRF) provides the specialized resources required for the execution of WIN-provided services (e.g., digit receivers, announcements, conference bridges, etc.).

  10. WIN Network Reference Model (NRM) MC SME IP SCP AC Cell HLR BS MSC VLR EIR MS: Mobile Station MSC: Mobile Switching Center SCP: Service Control Point SME: Short Message Entity SN: Service Node VLR: Visitor Location Register AC: Authentication Center BS: Base Station EIR: Equipment Identity Register HLR: Home Location Register IP: Intelligent Peripheral MC: Message Center SN External Networks MS (PSTN, ISDN, …)

  11. Some important WIN Network Entities Mobile Station (MS) interface equipment used to terminate the radio path at the user side. It provides the capabilities to access network services by the user. Mobile Switching Center (MSC) constitutes the interface for user traffic between the cellular network and other public switched networks, or other MSCs in the same or other cellular networks Home Location Register (HLR) location register to which a user identity is assigned for record purposes such as subscriber information (e.g., profile information, current location, authorization period, etc.) Visitor Location Register (VLR) retrieves information for handling of calls to or from a visiting subscriber Service Control Point (SCP) acts as a real-time database and transaction processing system to provide service control and service data functionality

  12. Some important WIN Network Entities Intelligent Peripheral (IP) performs specialized resource functions such as playing announcements, collecting digits, performing speech-to-text or text-to-speech conversion, recording and storing voice messages, facsimile services, data services, and so forth. Authentication Center (AC) manages the authentication information related to the MS. Service Node (SN) This is to accommodate implementers that for any reason do not want to implement MSC, SCP, IP. It is superfluous if MSC, SCP, IP are properly implemented

  13. WIN Incoming Call Screening Service Provides for alternate routing, blocking, or allowing of specified incoming calls Incoming Call Termination Treatment Terminated normally to the subscriber with normal alerting Terminated normally to the subscriber with distinctive alerting Forwarded to another number Forwarded to voice mail Routed to subscriber-specific announcement Blocked

  14. Incoming Call Screening (ICS) Scenario wthUse Case Maps : • The start point (Incoming Call) leads to the ICS stub, which gives one of five possible outcomes: • Call Setup (with normal or distinctive alerting) • Call Forwarded • Voicemail • Announcement • Call Blocked

  15. Incoming Call Screening (ICS) • ICS can use a number of screening factors to determine which termination action is appropriate. • These factors are related to calling party characteristics: • number, identity • speech or voice-based identification procedure • password • They can also be related to called party characteristics: • location • status • Or to other factors such as: • date • time

  16. WIN Feature:CNAP, Call Name Presentation Calling Name Presentation (CNAP) provides the name identification of the originating party (e.g. personal name, company name, “restricted”, “not available”) to the terminating subscriber. The Calling Name Information (CNA) may be provided explicitly to the terminating network from the originating network (passed through SS7 as a parm) or it may be derived from the Calling Number Information (CNI) which is generally provided to the terminating network from the originating network. When the CNAP service is invoked, the terminating network shall send the calling name information (if it can find it and it is not restricted) to the terminal during alerting on incoming calls. The terminal shall display the calling name information or other appropriate message RND (Redirecting Name Delivery) option: in case call was forwarded, RND provides the name of the last redirecting party as well as the name of the originating party

  17. CNAP Typical Scenario 3 If Called MS found and not busy, return loc result with TLDN SCP HLR 4 6 Service Request with calling # Return result with display text 7 Location Request Return loc result, TLDN 1 Route Request 2 Incoming Call Serving MSC voice path Home MSC 5 Call routed by using TLDN. Caller # also delivered. Home of terminating party Term. party is roaming

  18. CNAP Typical Scenario A terminating MSC receives an incoming call indication and sends a LOCATION REQ to the HLR of the called subscriber. This one is roaming. The HLR determines the current serving LA for the called MS and sends a ROUTE REQ to its MS (through the corresponding serving VLR) for obtaining a Temporary Local Directory Number (TLDN). The MACF functional entity inside the serving MSC assigns a TLDN to the destination device and returns it to HLR (through the VLR). HLR returns routing info, TLDN to Home MSC

  19. CNAP Typical Scenario Home MSC uses TLDN to route call to serving MSC. A direct link between the two MSCs, to the terminating device is now established. Serving MSC encounters trigger denoting CNAP service for MS. It queries the SCP which is supposed to have some way to find the name of the user (this could be not so simple, but is not discussed in the standard). SCP returns info to serving MSC, which is now able to provide the name info to the called MS

  20. Conclusions on WIN WIN is a valuable attempt to merge IN and mobility concepts shares limitations of IN on how features can be constructed

  21. Thank You

More Related