In selective repeat protocol, the window size must be less than or equal to half the size of the sequence number space for the SR protocol. Why is this so, and how?

4 Answers 4


This is to avoid packets being recognized incorrectly.

If the windows size is greater than half the sequence number space, then if an ACK is lost, the sender may send new packets that the receiver believes are retransmissions.

For example, if our sequence number range is 0-3 and the window size is 3, this situation can occur.

A -> 0 -> B

A -> 1 -> B

A -> 2 -> B

A <- 2ack <- B (this is lost)

A -> 0 -> B

A -> 1 -> B

A -> 2 -> B

After the lost packet, B now expects the next packets to have sequence numbers 3, 0, and 1.

But, the 0 and 1 that A is sending are actually retransmissions, so B receives them out of order.

By limiting the window size to 2 in this example, we avoid this problem because B will be expecting 2 and 3, and only 0 and 1 can be retransmissions.

  • Good explanation. What I was overlooking is that the sender (A) will always send #window size packets at a time.
    – Mo Beigi
    Apr 13, 2015 at 4:58
  • As per the receiver window size <=n/2, where "n" is sequence numbers of sender window. Then we should use Receiver Window Size = 1 always which would be more efficient. Isn't it? Jun 3, 2015 at 14:29

The sequence space wraps to zero after max number is reached. Consider the corner case where all ACKs are lost - sender does not move its window, but receiver does (since it's unaware the sender is not getting the ACKs). If we don't limit the window size to half the sequence space, we end up with overlapping sender "sent but not acknowledged" and receiver "valid new" sequence spaces. This would result in retransmissions being interpreted as new packets.


Because the receiver will fail to distinguish between an old packet or a new packet. The receiver identifies packets based on sequence numbers, and there is a finite number of unique numbers for each connection. You can't have an infinite buffer.

Lets look at a obvious fail scenario:

The window size is greater than the sequence number space. Lets say we have sequence numbers 0, 1, 2. And our window size is 4. This means that the window has two occurrences of 0.

0,1,2,0 <- modulo wrap. When we get a package with a seq of 0. Is it the first packet or the fourth? No clue. Now, this problem will occur insofar as the window size is greater than half of the sequence number space. Why? Because there's always the possibility that the receiver is looking at a sequence number that MAY be contained in a packet coming from the sender that is NEW or OLD. Does it always happen? No. But when it does, here's what happens:

Case 1:

Receiver window after properly receiving packets 0,1,2. 0,1,2,[3,0,1],2 But what if the ACKs sent are lost? Well, the sender will resend 0,1,2. But are 0,1 OLD or NEW? The receiver can't tell.

Case 2:

Same window on receiving end. The three packets are received.


Now, the receiver receives ALL the acks but ONE correctly. Lets pick the 2nd one (1). Now, it's going to resend 1. But the receiver is looking at 1! So is this the new one as it expects (nope), or the old one?

Therefore, to ensure that the window is never expecting sequence numbers that could possibly be used by potential outstanding packets (either coming from a normal transmission or re-transmission of a missing ack) we have to either decrease the window size or increase sequence numbers.

Look what happens when we increase the sequence number space to, say 6.


No matter how we position the window, it's never at risk of receiving a packet with a old sequence number.


By the time the window wraps around, we are positive that we've received the previous ones in order.


This link has an animation that walks through each of the steps of the protocol to explain why the window size matters:


Basically, if the window size is too high, then corruption in transmission can cause incorrect assumptions and lead to data corruption in the final result.

  • 1
    Please edit your answer to actually answer the question, rather than telling people where they can find the answer.
    – Nic
    Oct 12, 2016 at 20:22
  • Please quote the essential parts of the answer from the reference link(s), as the answer can become invalid if the linked page(s) change. Oct 12, 2016 at 20:23
  • @PetterFriberg Uh, what? Did you look at the linked page? It explains why the window size matters. It's not spam, just NAA.
    – Nic
    Oct 12, 2016 at 20:25
  • I cleaned up the link and added some explanation, I found the animation illuminating. Oct 12, 2016 at 20:46
  • The link is offline sadly Jan 15 at 16:25

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