3. Assume the following IPv6 PDU is to be processed by 6LoWPAN in order to be inserted into an IEEE 802.15.4 frame. The PDU is represented in hexadecimal format. 6E 00 00 00 00 0C 11 FF FE 80 00 00 00 00 00 00 02 01 64 FF FE 2F FC 0A FE 80 00 00 00 00 00 00 0E AB 11 00 FE D1 00 01 F0 B8 F0 BE 00 04 07 00 00 10 AB CD A. Show in a table the value of each field of the above packet including the network layer header, transport layer header, and the application data. B. Determine the resulting PDU after compression if the following rules are used: a. Both source and destination addresses are not present (derived from the data link layer addresses instead) b. The traffic class and flow label are not used. c. No IPv6 extension is used. d. Both source and destination ports in the transport layer are compressed. Show the adaptation layer headers, the IPv6 header, transport header, and the application data. C. Determine the size and savings resulting from applying header compression.
Added by Richard B.
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First, let's break down the given IPv6 PDU into its respective fields: | Field | Value | | --- | --- | | Version | 6E | | Traffic Class | 000000 | | Flow Label | 00 | | Payload Length | 0C | | Show more…
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