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transient data updates active HLR HLR standby
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Figure 49 Active and standby HLR configuration A special data link is used between the HLRs so that transient activity affecting the active database can be mirrored on the standby database Each HLR of the replicated pair supports multiple links to the SS7 network The SS7 network manages the rerouting of traffic to the standby (newly active) HLR when the previously active HLR fails
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active/standby pair requires one platform to be active, and the other to be in a standby mode Only the active platform handles network traffic and processing In case of failure of the active platform, the standby platform takes over and becomes the new active platform The active/standby configuration is usually more appropriate for many mobile telecommunications network nodes (eg, MSCs, HLRs, VLRs, ACs, and MCs) This is due to the nature of the real-time transaction processing required by the mobile telecommunications network nodes Multiple messages related to one or more transactions for a single subscriber need to be handled by the same platform for data consistency In general, the transient information communicated by the transactions cannot be efficiently shared in real time between two active platforms to keep them synchronized In the active/standby scenario, the active platform usually updates database changes on the standby platform across a data link in near real time When a failure does occur, some data are inevitably lost, but this loss is minimized by continually updating the standby database Some network implementations are based upon both replicated platforms being ready at the same time, with each one able to support the entire traffic load in case the other fails Note that this type of redundancy is distinct from fault-tolerant capabilities within a single comput-
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Introduction to Wireless Telecommunications
ing platform, such as a switch Fault tolerance enables a computing platform to operate uninterrupted or recover quickly in the case of faults within the platform However, this type of fault tolerance does not protect against catastrophic events at a single location Authentication centers are usually implemented as part of the HLR This is because there is a very close relationship between the HLR and the AC However, ACs are also deployed as separate external platforms in the network Although short-message services are maturing in the network, message centers are generally considered to be separate physical platforms, distinct from HLRs and MSCs Short message entities are usually considered to be software applications An SME is normally implemented within an SMS-capable mobile station The physical MC can support SME applications as well An SME can also be a separate physical device that can even be external to the ANSI-41 network, communicating with the MC via ANSI-41 or any other data communications protocol Several considerations for network implementation options are given in the ANSI-41 standard Two considerations provide the most freedom to network developers:
ANSI-41 specifies the required intersystem operations only mechanisms internal to each functional entity are left open to developers The specified ANSI-41 intersystem operations explicitly defined between functional entities do not preclude the participation of other entities in the operations
These considerations are very important and powerful They emphasize the need for standardized intersystem operations between the defined functional entities, while allowing network engineers to implement optimal solutions to their specific internal requirements The first consideration limits the scope of the ANSI-41 standard The internal mechanisms developed for a given functional entity affect many aspects of service and performance, of which ANSI-41 signaling is only one part The second consideration allows network designers and equipment manufacturers to employ a variety of schemes to implement the standard functions in ANSI-41, as well as a multitude of other nonstandard features and services
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