Over the past few years, internet architectures have undergone significant changes. Today, we use the internet in a completely different way than, for example, in the '90s. As a such, network professionals must continuously come up with new models to ensure smooth communication across modern transport networks. An interesting question is how to allocate resources to concurrent network flows. What principles should be followed to efficiently transmit different types of traffic within certain constraints from source to destination? The task for the student is to investigate the concurrent behavior of various protocols, collect data, and develop optimal resource allocation strategies for data transmission channels. Within the scope of this topic, you can learn about TCP/IP, UDP, and other innovative protocols (QUIC) and devise optimal resource-sharing strategies for them.

Over the past few years, internet architectures have undergone significant changes. Today, we use the internet in a completely different way than, for example, in the '90s. As a such, network professionals must continuously come up with new models to ensure smooth communication across modern transport networks. An interesting question is how to allocate resources to concurrent network flows. What principles should be followed to efficiently transmit different types of traffic within certain constraints from source to destination? The task for the student is to investigate the concurrent behavior of various protocols, collect data, and develop optimal resource allocation strategies for data transmission channels. Within the scope of this topic, you can learn about TCP/IP, UDP, and other innovative protocols (QUIC) and devise optimal resource-sharing strategies for them.