Talk:Hidden node problem

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Section "Background": What are "adaptive acknowledgements"? NotInventedHere 12:47, 27 May 2006 (UTC)Reply

Section "Use Omnidirectional Antennas:" The advice to use omnidirectional antennas is not good in all cases. Directional antennas by nature reduce the interference potential of transmitters and increase selectivity of receivers. If the hidden nodes are not sending traffic to the same receiver (requires a minimum four-node network example), directional antennas can be a key component of frequency reuse inside a network. Also, in the case where an access point IS the recipient of two hidden nodes' data streams, two directional antennas in spatial diversity mode will greatly increase the odds that at least one of the two colliding transmissions will be correctly received (since the receiver will choose one antenna and recieve the transmission on that antenna without interference, requiring the retransmission of just one packet from the hidden node that "lost." 63.164.202.130 13:18, 13 April 2007 (UTC)Reply

I do not understand the problem

Latest comment: 15 years ago2 comments2 people in discussion

After reading this article, I still do not understand why there is a problem when the nodes can't see each other - the nodes are communicating with the hub, not directly with each other, aren't they? Even if node A wants to send data to node B, that data goes (as far as I have understood computer networks) through the hub, so why is there a problem when A and B can't see each other?

The article should be edited to clarify this, by someone who knows the answer. Cybotoro 13:42, 17 August 2007 (UTC)Reply

Imagine the two nodes are TV transmitters, transmitting different pictures on the same frequency. The "TV signal" from node A isn't strong enough to be received or cause interference at node B, because of the distance, but because the AP is in the middle and in range of both, the two signals will interfere with each other there and prevent reception.

If the nodes were not hidden from each other, they would sense that they were both talking at the same time, and one would defer, but because they are far enough apart to be out of each other's range, they cannot detect this situation. Steved424 (talk) 08:25, 6 May 2008 (UTC)Reply

Picture Perfect?

Latest comment: 4 years ago3 comments3 people in discussion

Logically, this picture is both wrong and makes no sense, because there is a case where there exists a union between A and B. Even-though there is a case where A union B exists, but only when A union B union C. To be correct, there must be no cases where A union B intersect. If the A and B circles did not overlap at all, that would be better.
 

there is no case where A is union with B Kassorlae (talk) 05:09, 25 January 2008 (UTC)Reply

The point is that the actual nodes (the text labels) are not within the ranges of each other's signals (the circles), so cannot detect each other, though there exist points where both signals can be detected - such as the AP. It's not a Venn diagram :) -- Steved424 (talk) 08:41, 6 May 2008 (UTC)Reply

I had the same hiccup in understanding as Kassorlae, which now that Steved424 explains it makes total sense. I'm trying to think of an alternative diagram method that doesn't imply a Venn diagram to the untrained (or tired) eye. Nothing comes immediately to mind. Perhaps an animated version might help? Frame 1: Show A & B -- successfully in range; Frame 2: Show B & C -- successfully in range; Frame 3: Show A & C -- oops! out of range. Repeat. --Ddrinnan (talk) 00:47, 16 May 2019 (UTC)Reply

Please explain

Latest comment: 15 years ago1 comment1 person in discussion

I agree with Cybotoro - who cares if the nodes (clients) cannot see each other? They aren't talking to each other, they are talking to the AP. And the AP has a buffer so that if he gets packets at the same time, they are queued, and not a problem. I don't see a problem here. What is the point of this article?

The AP can't get packets at the same time, at least not from one network (= one frequency), assuming it's using an omnidirectional antenna. The two signals would interfere with other, just as they would on old-fashioned, bus-style coax Ethernet. As the comment above mentions, you could use two highly directional antennas at the AP, but unless you used multiple MACs you'd have to to choose only one to listen to at a time. -- Steved424 (talk) 08:51, 6 May 2008 (UTC)Reply

Inconsistency in redirects

Latest comment: 14 years ago1 comment1 person in discussion

Exposed node problem redirects to Exposed terminal problem, but Hidden terminal problem goes to Hidden node problem. The pattern should be consistent. 129.93.154.192 (talk) 19:38, 10 September 2009 (UTC)Reply

Role of varying link quality

Latest comment: 11 years ago1 comment1 person in discussion

My instructor insists that if links are varying (in the "transitional region") there is a greater risk of a hidden terminal problem. I think, by definition, that the htp is not related to varying links in any way. Htp is the principle that two nodes A and C both reach B, but since they don't reach eachother they carrier sensing will not prevent that there is a collision at B. A and C will just not know of that collision, unless B reports in one way or another.

Of course, if transmission conditions are fantastic A and C might be able to hear eachother and then there will be no terminal problem. But the _varying_ part of it does not create hidden terminal problems, only bad signal conditions can contribute to that happening. It was part of an exam question "What does it mean for the MAC protocol that the link is in the transitional region?" And she expected us to answer (among other things) "hidden terminal problem". I disagree. The WP article does not mention anything of link qualities, and thus agree with my conception. Any comments? If I am wrong, then I guess it should be added to the article that varying link quality causes terminal problems.

Maybe it should be explained with link assymetry, but link assymetry exists everywhere, also under conditions that do not vary.

5.25.234.165 (talk) 12:04, 1 June 2012 (UTC)Reply