Managing traffic using geolocation
Posted: Sat Feb 08, 2025 6:55 am
Employees working remotely are forced to use this information security architecture, which involves filtering traffic through a local set of network security tools and then transferring it to cloud resources. Obviously, this method of data transmission is outdated and, due to its slowness, irritates users.
Enterprises connected to public clouds and with a growing number of mobile users are increasingly moving away from static network security tools in favor of cloud security tools offered on a SaaS model. Their advantage is that they provide the same level of data protection - this eliminates the need for traffic redirection, reduces network load and, in turn, improves work productivity.
For an enterprise with a global workforce, it can be challenging to provide a consistent user experience for the same applications. For example, branches that are close to private or cloud data centers will access applications with low latency, while those located further away will have higher latency. To remedy this, you can study the traffic dominican republic mobile database of two or more geographically distributed private or public cloud data centers. This can be done using a combination of load balancers and geo-localized DNS servers that redirect traffic to the closest application or database.
Prioritizing traffic by class and traffic shaping
Many people mistakenly believe that quality of service (QoS), which is achieved by giving different classes of traffic different service priorities, only makes sense for real-time streaming protocols such as VoIP or video conferencing. In fact, QoS can be applied in LANs and even data centers, but first IP flows need to be prioritized, that is, ranked by importance (taking into account the source IP address or port/protocol information).
Enterprises connected to public clouds and with a growing number of mobile users are increasingly moving away from static network security tools in favor of cloud security tools offered on a SaaS model. Their advantage is that they provide the same level of data protection - this eliminates the need for traffic redirection, reduces network load and, in turn, improves work productivity.
For an enterprise with a global workforce, it can be challenging to provide a consistent user experience for the same applications. For example, branches that are close to private or cloud data centers will access applications with low latency, while those located further away will have higher latency. To remedy this, you can study the traffic dominican republic mobile database of two or more geographically distributed private or public cloud data centers. This can be done using a combination of load balancers and geo-localized DNS servers that redirect traffic to the closest application or database.
Prioritizing traffic by class and traffic shaping
Many people mistakenly believe that quality of service (QoS), which is achieved by giving different classes of traffic different service priorities, only makes sense for real-time streaming protocols such as VoIP or video conferencing. In fact, QoS can be applied in LANs and even data centers, but first IP flows need to be prioritized, that is, ranked by importance (taking into account the source IP address or port/protocol information).