Home / 4G LTE / At which layer do the radio bearers undergo robust header compression?

At which layer do the radio bearers undergo robust header compression?

At which layer do the radio bearers undergo robust header compression?

Radio bearers in a cellular network undergo header compression at various layers of the protocol stack, depending on the specific technology being used. Header compression is essential to optimize the use of network resources and improve the overall efficiency of data transmission. To explain this in detail, let’s delve into the different layers of the protocol stack commonly used in cellular networks and where header compression is applied.

Physical Layer (Layer 1):

  • The Physical Layer deals with the transmission of raw binary data over the physical medium, such as radio waves in the case of wireless networks.
  • Header compression is not applied at this layer. The physical layer is concerned with the physical transmission of data bits and does not have knowledge of higher-layer headers.

Data Link Layer (Layer 2):

  • The Data Link Layer is responsible for framing data into frames for transmission, error detection, and correction.
  • Header compression is generally not applied at this layer either. The Data Link Layer focuses on framing and error-checking, and it is not concerned with the content of IP or higher-layer headers.

Network Layer (Layer 3):

  • The Network Layer, often implemented using the Internet Protocol (IP), is where header compression techniques come into play.
  • Within the Network Layer, the IP header is a crucial component of each packet. This header contains information such as source and destination IP addresses, Time-To-Live (TTL), and Type of Service (ToS) fields.
  • Header compression, specifically IP header compression (IPHC), is applied at the Network Layer. IPHC aims to reduce the size of IP headers to conserve bandwidth and improve transmission efficiency.
  • Common header compression protocols at this layer include ROHC (Robust Header Compression) and IPHC (IP Header Compression).

Transport Layer (Layer 4):

  • The Transport Layer, which includes protocols like Transmission Control Protocol (TCP) and User Datagram Protocol (UDP), focuses on end-to-end communication and flow control.
  • Header compression is not typically applied at this layer. Compression techniques primarily target the Network Layer to reduce the overhead associated with IP headers.

Application Layer (Layer 7):

  • The Application Layer contains the actual data generated by applications, such as web browsers, email clients, or video streaming apps.
  • Header compression is not applied at this layer. It’s primarily concerned with the payload data generated by applications.

In summary, radio bearers undergo robust header compression primarily at the Network Layer (Layer 3) of the protocol stack. This compression helps reduce the size of IP headers, making more efficient use of network resources, especially in wireless cellular networks where bandwidth is often limited. Technologies like ROHC and IPHC are commonly used to achieve this compression. These techniques ensure that the essential information in IP headers is preserved while minimizing the overhead, leading to more efficient data transmission and better network performance.

Recent Updates