What does SDHLR mean in TELECOM
In the mobile telecommunications and wireless communication industry, a Super-Distributed Home Location Register (SDHLR) is an enhanced version of the Home Location Register (HLR). It is used to store and manage vital subscription information about customers of mobile telecoms networks. The SDHLR was specifically designed to improve the scalability and flexibility of traditional HLR systems, making them more suitable for large-scale deployments that are distributed across multiple sites.
SDHLR meaning in Telecom in Computing
SDHLR mostly used in an acronym Telecom in Category Computing that means Super-Distributed Home Location Register
Shorthand: SDHLR,
Full Form: Super-Distributed Home Location Register
For more information of "Super-Distributed Home Location Register", see the section below.
An HLR is a database that stores all subscriber profile details related to a particular cellular phone number, including its current status, service plan features, and roaming capability settings. In large networks with millions of subscribers, traditional HLR designs have started to become outdated and inflexible due to their centralized architecture which can be difficult to scale up or down as demand changes. This has created the need for an improved design such as the SDHLR, which offers greater flexibility and scalability by enabling distributed operation across multiple sites.
Essential Questions and Answers on Super-Distributed Home Location Register in "COMPUTING»TELECOM"
What is a Super-Distributed Home Location Register?
A Super-Distributed Home Location Register (SDHLR) is an advanced form of the traditional Home Location Register (HLR). It distributes subscriber information among multiple physical locations in order to improve scalability and reliability. The SDHLR also increases the efficiency of queries made by telecom applications, allowing them to be served more quickly and reliably.
Why is a SDHLR better than a traditional HLR?
Traditional HLRs can become overloaded when handling large amounts of data, leading to degraded performance and longer response times for queries. By distributing subscriber information across multiple sites, SDHLRs are able to handle larger loads with greater reliability and improved performance.
How does an SDHLR work?
An SDHLR consists of several distributed database nodes which store segments of subscriber data. When an application makes a query, the SDHLR’s intelligent load balancing system distributes the query across all active nodes in order to quickly return the requested information. The SDHLR also uses replication techniques to provide additional fault tolerance and ensure availability in case of node or network failure.
What type of applications use an SDHLR?
Telecom applications such as call routing, number porting, identity management, authentication services, roaming services and location-based services use an SDHLR in order to access subscriber data quickly and reliably.
What are the benefits of using an SDHLR?
By utilizing distributed databases and intelligent load balancing techniques, an SDHLR is able to improve scalability and reduce response time for queries compared to traditional HLRs. Additionally, its enhanced fault tolerance means that it can remain operational even if parts of the system fail or experience outages due to network or node issues.
What type of data is stored on an SDHLR?
Typical types of data stored on an SDHLR include customer profiles such as address books, contact lists and preferences; subscription details such as service packages subscribed; mobile device details; network settings; billing information; roaming plans; usage logs; authentication credentials; location data; SIM card details; and more.
Is there any licensing required for using an SDHLR?
Yes, many telecom companies require their customers to purchase licenses in order to use their networks' associated technologies such as their HLR/SDHRs or other services they provide. Depending on the vendor's terms & conditions different license fees may apply depending on scale of operation or length of term agreed upon etc..
Final Words:
In conclusion, an SDHLR system provides a flexible solution for mobile telephone operators who require robust support for their large-scale operations while also ensuring adequate system scalability as demand changes over time. Its distributed architecture allows it to be quickly reconfigured in order to meet changing requirements while maintaining continuous availability without compromising performance or reliability standards.