Talk:Automatic train protection

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Is Automatic train protection a generic term or does it refer to a specific system in (a) specific country/countries? If specific, please name them. If generic: Why is there a lenghty section about a specific equipment (Ericsson) in the article? --Qualle (talk) 09:10, 19 September 2005 (UTC)[reply]

I only know about the British system, hence this article only discussing that. Sorry! Dan100 (Talk) 21:21, 25 October 2005 (UTC)[reply]

Compared to the rest of the article, I find the technical description is not too detailed, a more detailed one can be found in: http://www.railway-technical.com/sigtxt2.html . Regarding the name, I have worked with Madrid Metro, and ATP (they use the English abbreviation) is running on all their lines. It isn’t just the British system, I understand it is used in many Metro systems in different countries. It is a generic name.--Inigo75 14:05, 5 July 2006 (UTC)[reply]

The current version seems to describe the british AWS system, which already has its own article. ATP is used to describe both the general system that is capable of automatically stopping a train that passes a restrictive signal, as well as specific implementations of this system, ranging from the subway style mechanical trip-stop to coded track circuits to fancy computerized systems. AWS is, incidentally, not a form of ATP since the driver can cancel the warning and keep going.

I tried to create a generic article under Automatic train protection system, please help improving it. --Kabelleger 18:09, 23 February 2006 (UTC)[reply]

The Clapham Junction rear end collision was caused by a wrong-side failure and would not have been prevented by ATP since the ATP would (most likely) have displayed a simultaneous wrong line failure, being wired from the same relay.

Is this newly added section more appropriate to the Train protection system article? Is it relevant to the UK model? Suckindiesel 20:33, 1 August 2007 (UTC)[reply]

I don't think this accident should be on the list - no speed-based system reliable enough for railway use could have been produced in 1906. We might as well say that Clayton Tunnel could have been prevented by track circuiting, or Mr Huskisson's death at Rainhill by conductor-operated pneumatic doors. To be honest, I think we'd be better off without the list altogether. Tevildo (talk) 16:49, 25 August 2008 (UTC)[reply]

I was about to write something similar, and then saw this comment. Is it not summed up by the phrase in the article "By the 1980s, microprocessors had developed sufficiently...." so by logic, anything before 1980 couldn't have been prevented! Rgds, --86.140.138.73 (talk) 01:00, 16 September 2008 (UTC)[reply]

Salisbury(1906) does of course pre-date electronics and ATP, but it is the sort of accident that would have been prevented by ATP, had ATP existed. Since there are not a lot of documented accidents to refer to, it is helpful to include the pre-ATP ones, so as to boost the number of examples. The Violet Town collision could have be prevented by crude ATP-precursors, such as AWS. As a compromise, list all the commented out accidents, which are in date order, but insert headings for the different safely technologies as they become available.

Tabletop (talk) 11:39, 16 September 2008 (UTC)[reply]

Why are "citations needed" when there is a whole article linked?

Tabletop (talk) 11:39, 1 November 2008 (UTC)[reply]

* Federal Express - 1953 - brake valve accidentally closed by contact with badly designed buffing plate.

I removed the above as there was hidden text on the edit page stating accidents before the 1980s would not have been preventable due to microprocessors not being available before then. 94.192.52.244 (talk) 15:01, 13 April 2009 (UTC)[reply]

I have seen the documentation in TV and from view as a cab driver in germany i don't think this is correct:

/*Secondly, the ATP system presumably would have applied a secondary backup brake system, even though this might have "risked" flat wheels. Apparently, the driver failed to apply or forgot the existence of this secondary brake.*/

The so called "secondary backup brake system" of that accident train is an electrical brake. An electrical brake is used to lower the wear of the brake shoes. If this is only a supporting system (like German BR ET 420 has) and is not controlled by any train protection system (LZB, PZB, KVB, Integra,...) in the situation of danger. They will always reduce the main air line from 5 bar to 0. The way the accident happend as i have seen it on TV goes in my eyes the following way: The driver had air loss in the main air line because of the emergency brake (open safety valve). He couldn't locate the cause of the air loss, so he closed the main air line (or he confused the valves and he tought he close the safety valve but he didn't). No all brakes behind the closed valve couldn't release, so he went to them and released them directly. Result: released not working air brakes -> accident --79.199.43.92 (talk) 15:36, 9 March 2011 (UTC)[reply]