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Bidirectional signalling in UK - main routes

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Bidirectional signalling in UK - main routes 13/10/2024 at 11:35 #158822
Ignacio
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Hi all,

probably one of the UK experts can answer why in UK bidirectional signalling, also on main train routes, seems to be rather occasionally implemented. It came to my mind while using the busy Doncaster simulation where no bidirectional signalling for the main London to York line exists.

Is it because of security reasons? Or cost implications? How is the train traffic organized when reconstruction work in a train section starts? There I assume a bidirectional signalling could ease maintaining (limited) train traffic using the second (parallel) track.

In Austria and Switzerland bidir signals are usual, in Germany where I live also quite often.

Simply interested in understanding the difference!

Thanks a lot,
Cheers
Ignacio

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Bidirectional signalling in UK - main routes 13/10/2024 at 16:13 #158833
GeoffM
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Two common reasons: cost of installing and maintaining equipment which should rarely be used; and because capacity is so much lower that you're going to have to run buses or other alternate transportation anyway, so why run any train service at all?

There are, of course, exceptions. Rugby's four track sections have two lines signalled in both directions, and simplified bi-directional signalling is installed in many places (often with 15 minute or worse headway; okay for Sunday services and an occasional "get out of a hole" situation, but not much more).

SimSig Boss
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Bidirectional signalling in UK - main routes 13/10/2024 at 16:35 #158834
kbarber
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As Geoff says, cost is a major driver. UK signalling tends to be rather more complex (overlaps are uncommon, for instance, in many other countries' systems) and UK signal engineers tend to be rather conservative. So the idea of BiDS was a long time coming.

Somewhere in my father's papers is a paper written by one Chris Green, at the time an operations manager in the old Southern Region, describing the system used in Germany and proposing installation of a similar system (with some appropriate modifications) in the UK. (One of the modifications was that separate 'wrong-line' signals would be provided. Apparently in Germany when BiDS was in operation signals for the 'right line' would apply to the 'wrong line' when it was being used in the reverse direction. Which, to me, sounds like unduly complicated circuitry but maybe DB circuits allowed for signals to be switched across in that way. That particular feature suggests BiDS was for engineering work only and couldn't be used for traffic reasons, a major difference from UK BiDS.)

Quite apart from cost, I have an idea there was a stage when Health & Safety considerations were cited as a reason for not using BiDS. Certainly the UK implementation, at least on the Western Region, had a 'patrolman's lockout' so engineers staff could bar use of BiDS while they conducted their regular examinations of the track. Given there was a period (late 1980s perhaps?) when the Health & Safety Executive was actively considering prohibiting Single Line Working during engineering works, that seems plausible.

Beyond that, as Geoff says there are few locations now where BiDS would offer more than a marginal benefit - train services are much more intense than they were even 30 years ago.

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Bidirectional signalling in UK - main routes 13/10/2024 at 17:04 #158836
Ignacio
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Many thanks, GeoffM and kbarber! Seems to be really differently handled in UK versus Germany. I am not working as professional signaller at Deutsche Bahn, but would agree that BiDS is often not possible to use because of overbooked tracks...so it is not a proper means to increase resources...
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Bidirectional signalling in UK - main routes 13/10/2024 at 19:22 #158837
postal
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Ignacio in post 158836 said:
Many thanks, GeoffM and kbarber! Seems to be really differently handled in UK versus Germany. I am not working as professional signaller at Deutsche Bahn, but would agree that BiDS is often not possible to use because of overbooked tracks...so it is not a proper means to increase resources...
The SimBids (Simplified Bi-Directional Signalling) was used on the twin-track ECML between Morpeth and Newcastle recently due to the closure of one of the two running lines because of the collapse of a bridge parapet. That stretch of line is not the most intensively used on the network but even so an emergency timetable had to be introduced which I believe had less than half of the normal trains running.

“In life, there is always someone out there, who won’t like you, for whatever reason, don’t let the insecurities in their lives affect yours.” – Rashida Rowe
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Bidirectional signalling in UK - main routes 13/10/2024 at 21:56 #158838
Jan
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kbarber in post 158834 said:
Apparently in Germany when BiDS was in operation signals for the 'right line' would apply to the 'wrong line' when it was being used in the reverse direction. Which, to me, sounds like unduly complicated circuitry but maybe DB circuits allowed for signals to be switched across in that way. That particular feature suggests BiDS was for engineering work only and couldn't be used for traffic reasons, a major difference from UK BiDS.

That system rings a bell ("Zeitweise eingleisiger Betrieb", i.e. "temporary signal-track operations"), but it was (maybe still is, no idea? Though if so, then certainly under a different name…) indeed only ever used for major engineering works due to the need to rewire the signalling for the temporary single-track operation. (Though supposedly in some cases that mode of operation could also be dynamically switched-in and switched-out again, but that was still only used in conjunction with construction works which e.g. might only take place over the weekend.)

However Germany has had true bi-directional signalling, too, with the first installation having been taken into service in 1951, so I'm a bit curious why that paper you mentioned would focus so much on the very limited ZEB-system.

Another German particularity in that regard was the West German so-called "Signalisierter Falschfahrbetrieb", i.e. "signalised wrong-line running" (I think East German DR had a similar system, but with a differing name and using regular-scale signals instead of dwarf signals). What that system amounted to was basically that stations and intermediate junctions were provided with simplified dwarf signals which could only display a subsidiary or shunting aspect and the corresponding routes in the interlocking for entering/exiting a station respectively traversing a junction on the wrong line, but crucially no block system was provided for the plain line between those stations and/or junctions.

Compared to the UK distinction of full bi-directional signalling vs. SIMBIDS, in Germany regular bi-directional signalling often includes the increased signal spacing/reduced capacity aspect for wrong-line movements in order to economise on costs, however there was no need to compromise on train protection because PZB inductors are inherently unidrectional anyway, whereas in the UK AWS magnets always require extra suppressing for reverse direction movements.

Two million people attempt to use Birmingham's magnificent rail network every year, with just over a million of them managing to get further than Smethwick.
Last edited: 13/10/2024 at 21:57 by Jan
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Bidirectional signalling in UK - main routes 14/10/2024 at 09:40 #158840
Splodge
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Even on Manchester South, where the 'wrong direction' signalling mirrors the normal direction signalling, with full AWS and TPWS provision, we're limited to 60 in the wrong direction with slower speed crossovers and restrictive signalling on approach to them. It can be used pretty effectively in times of disruption, and can also be used for regulation but the low speed approaches mean its often easier to keep the slower train running as booked and utilise a loop
There's the right way, the wrong way and the railway.
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Bidirectional signalling in UK - main routes 14/10/2024 at 10:55 #158841
flabberdacks
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It's a shame that the vision for bidirectional signalling seems to have been so narrow. There's at least one Swiss cabride on youtube where you're cruising on double track, cross to the other line for seemingly no reason, only to go past a clearly planned worksite (multiple track machines present) and then cross back at the next junction.

Being able to isolate small sections of line like that for maintenance while still running a full service seems to be a massive advantage in regional areas. Not so useful where traffic is heaviest though, of course.

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Bidirectional signalling in UK - main routes 14/10/2024 at 12:50 #158843
sunocske
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In Hungary, we have a very few uni-directional double track routes, the majority is fully bi-directional and it comes very handy quite often. There is no extra speed restriction when you send a train on the "wrong line" (it is the term in Hungarian for it), and on busier routes it is quite common to see trains passing each other between two stations (and stations are quite frequent, too, 10+ km long sections without crossovers are very rare).

Re single line working vs. substitution buses. In Hungary, we prefer to maintain a limited train service during engineering works or emergencies. Works are usually timed to nights or weekends, when the capacity of a single line section is enough for the limited service - maybe some trains need to be retimed to wait at the ends of the temporary single line sections for their slot, but these are usually not more than 5 to 10 minutes. When major works take place, they're withdrawing some of the trains, but add extra capacity to the others on the same route. Sadly, trains often hit pedestrians or cars nowadays in Hungary, and single line working with fully bi-directional signalling comes extremely handy when dealing this type of emergencies (only if the incident site allows that so there is enough clearance or something), with emergency speed restriction in the vicinity of the site. Requesting buses for this types of ad-hoc vis-maior events are impossible (the first buses would arrive to the stations after the problem is solved and everything is ready to carry on). Not sending trains at all for two or three hours on a main line is no-go, too.
Planned substitutions buses are a different piece of cake, it is usually well planned in advance and operated seamless.

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Bidirectional signalling in UK - main routes 14/10/2024 at 13:31 #158845
broodje
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As far as I could find out most mainland countries have some form of bidi working on mainlines. Either limited with a bigger headway, or fully signalled. But then again, the UK has a somewhat unique way of signalling. It is route based, there is a concept of overlaps, but also a different philosophy in the way signal boxes worked in the mechanical era and thus a different way at looking at signalling on a whole. I think all that combined makes designing and maintaining a fully BIDI signalled track in the UK a lot more expensive.
In the Netherlands most lines are fully signalled in both ways. This is also used a lot in the evening hours especially for 4 track railways. I live close to the mainline between Leiden and The Hague (4 IC per hour and 4 stopping trains in both directions). It has 4 tracks, fully signalled in both ways and they are combined as 2 up, 2 down next to each other. In the evening either the down, or the up goes out of service and the other bundle is used, and in effect 1 of the tracks is used in the opposing direction as during the day. This way, smaller maintenance can be carried out without completely closing the line.
I wonder if introducing ERTMS on the mainlines in the UK will change the situation? Will the design of the signalling change? You could do away with the concept of overlaps, and you will loose the concept of route based signalling. Maybe the price difference to install 2 way working won’t be as high as it is now?

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Bidirectional signalling in UK - main routes 14/10/2024 at 16:57 #158851
Steamer
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There's another side to the coin, namely that funding limitations and associated short-sightedness can lead to descoping of elements that would be very good to have in normal operation, let alone bi-di.

There's also the fact that the NR safety ratchet is progressively eliminating any form of access by staff to the track without a line block, so the opportunities for wrong line running are increasingly limited.

"Don't stress/ relax/ let life roll off your backs./ Except for death and paying taxes/ everything in life.../ is only for now." (Avenue Q)
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Bidirectional signalling in UK - main routes 15/10/2024 at 08:15 #158868
kbarber
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flabberdacks in post 158841 said:
It's a shame that the vision for bidirectional signalling seems to have been so narrow. There's at least one Swiss cabride on youtube where you're cruising on double track, cross to the other line for seemingly no reason, only to go past a clearly planned worksite (multiple track machines present) and then cross back at the next junction.

Being able to isolate small sections of line like that for maintenance while still running a full service seems to be a massive advantage in regional areas. Not so useful where traffic is heaviest though, of course.
Ah yes, Switzerland.

On the Gotthard and Loetschberg classic routes, the most heavily graded mountain sections have a linespeed of 75kmh. Crossovers can therefore very easily be 'linespeed' and most of them are, which facilitates bi-di working no end; at that point, if you have a preponderance of traffic in one direction at peak times, it becomes worthwhile using the BiDS for traffic regulation. It also makes working past engineering very easy, with little or no time penalty.

I rather assume what I used to see at Kandersteg would be typical of Swiss signalling practice. Kandersteg, certainly until 2015, controlled the long loops down the valley to Frutigen; both lines had full bi-di with crossovers at every signal(!!) Swiss practice seems to use approach control as a default in those 'out-of-station' sections. What I noticed was that, in normal working, all main line routes were called in both directions. As a train entered the section in rear (or perhaps even before), it would 'claim' the section, a white direction of flow indicator would illuminate and the signal (and its associated vorsignal) through that section would clear. There would then come a point when it locked in the route and a second, red direction of flow indicator would illuminate. (I imagine before the red illuminated it would be possible to 'pull up' the route buttons and the approach locking would time out in the normal way, whereas something more involved would be necessary if the red indicator had illuminated.) When the train entered the section the white DoF would extinguish but the red would remain alight until the train cleared the section. In many ways these DoF indications may be taken as mimicking UK block indications, I would say.

The really clever thing was that similar working was possible when using the crossovers during engineering work. With all routes in and out of the affected section called, signals would remain red until 'claimed'. At which point the route would set (including swinging points if the previous movement had been in the opposite direction) and the signal into the affected section would clear. If a train approached from the opposite direction, the DoF locking would prevent it claiming its route until the oncoming train had run clear, at which point it would take the section and the route would clear for it. So the whole single line working operation ran itself quite happily without needing any intervention at all by the Fahrdienstleiter!

We should be so lucky on this side of the water!

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Bidirectional signalling in UK - main routes 15/10/2024 at 18:13 #158881
Ignacio
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Thanks all for very good explanations! Meanwhile Tyneside added to my shop...did I say that bidi is not useful :-)


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Bidirectional signalling in UK - main routes 15/10/2024 at 19:48 #158882
postal
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Ignacio in post 158881 said:
Thanks all for very good explanations! Meanwhile Tyneside added to my shop...did I say that bidi is not useful :-)

The real world SimBids was operated between Plessey at the North end of the sim and Morpeth which is off sim. The Southbound line was closed. The crossover at Morpeth is within the platform limits which does make it less than helpful. The blockage lasted for about a month. There was another SimBids intrusion at about the same time following a landslip at Aycliffe so single line working was in place between Darlington Station and Aycliffe IIRC with the Northbound line closed but that only lasted about a week.

“In life, there is always someone out there, who won’t like you, for whatever reason, don’t let the insecurities in their lives affect yours.” – Rashida Rowe
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Bidirectional signalling in UK - main routes 15/10/2024 at 23:28 #158885
bill_gensheet
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Edinburgh sim also has a stretch of bi-di, fully on the up line and SimBIDS on the down, installed apparently to allow overtaking on a two track line.

The idea was that slow freight (coal to Yorkshire) going up the hill Innerwick to Grantshouse could be overtaken by sending passenger trains on the down line.

Might have worked with only 1 train an hour north... but I do not think ever used at WTT level

Bill

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Bidirectional signalling in UK - main routes 16/10/2024 at 00:43 #158887
postal
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bill_gensheet in post 158885 said:
Edinburgh sim also has a stretch of bi-di, fully on the up line and SimBIDS on the down, installed apparently to allow overtaking on a two track line.

The idea was that slow freight (coal to Yorkshire) going up the hill Innerwick to Grantshouse could be overtaken by sending passenger trains on the down line.

Might have worked with only 1 train an hour north... but I do not think ever used at WTT level

Bill
There is an oddity with the working of that stretch which is modelled in the Edinburgh sim. Rather than the signals having to be physically cleared to work an Up train on the Down line the "wrong line" signals are auto-working. Instead of the "wrong line" signals showing R until such time as an Up train is booked on the Down they show a proceed aspect if the TC following is clear. As a Down train approaches the "wrong line" signal you can watch it drop back from G to Y then R then revert to G after the train has passed. I have some rather blurry photos from 2010 showing the sequence if anyone is desperately interested.

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Bidirectional signalling in UK - main routes 17/10/2024 at 16:50 #158903
Ron_J
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bill_gensheet in post 158885 said:
Edinburgh sim also has a stretch of bi-di, fully on the up line and SimBIDS on the down, installed apparently to allow overtaking on a two track line.

The idea was that slow freight (coal to Yorkshire) going up the hill Innerwick to Grantshouse could be overtaken by sending passenger trains on the down line.

Might have worked with only 1 train an hour north... but I do not think ever used at WTT level

Bill
There are a couple of booked overtaking moves utilising this.

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Bidirectional signalling in UK - main routes 17/10/2024 at 18:07 #158907
flabberdacks
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postal in post 158887 said:
As a Down train approaches the "wrong line" signal you can watch it drop back from G to Y then R then revert to G after the train has passed.
Have also heard of this happening on lines in North America - signals protecting entrance to the section are direction locked but block signals in the section aren't, and they just drop down as a train approaches them from the other direction

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Bidirectional signalling in UK - main routes 13/11/2024 at 23:40 #159168
TUT
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I would just like to mop up a few stray points that I haven't seen (fully) addressed.

Ignacio in post 158822 said:
Is it because of security reasons? Or cost implications? How is the train traffic organized when reconstruction work in a train section starts? There I assume a bidirectional signalling could ease maintaining (limited) train traffic using the second (parallel) track.
Where bi-directional signalling is not provided the answer to that (which has been alluded to at various points, but not really simply stated) is single line working. It's still in the Rule Book, module P1 as it's known, we're all trained on it and we all have to answer loads of questions about it on any exam. There are videos about it on YouTube that you can find, but the long and short of it is somebody will be appointed to act as pilotman and take charge of the operations. There are forms as you can imagine. Arrangements have to be made to secure unworked points, post attendants to level crossings where necessary and post handsignallers where required. Once everything is in place the pilotman will meet the driver of a train, give them the necessary instructions and give them a driver's single line working ticket. The pilotman must then travel with the train unless another train is to follow in the same direction, in which case they may send the train and travel on the next one. The pilotman will wear the pilotman's armband. There is only one pilotman. To enter the single line section you must have the pilotman with you or you must have been given a ticket by the pilotman in person. Therefore trains can only enter the single line from whichever end the pilotman is at. Therefore no head-on collisions. Of course a certain amount of care and professionalism is needed to ensure things go without a hitch and a train is not signalled into the section without the pilotman being present, for example, as that could disastrous. But that is how it is done and has traditionally been done.

Back in the day, of course, railways were in the business of running trains and single-line working was a common enough thing. If you had engineering work, you'd put in single line working and you'd run a service. It can require quite a few boots on the ground, however, and some time to set up, which means it is actually quite rare for them to bother these days. It's just hard to get value for money out of it given how absolutely shot to pieces capacity over the line will be, but it does happen and it has happened. I'd say probably the biggest use of it is to work to and from the point of obstruction, but we don't need to get too far into the weeds.

kbarber in post 158834 said:
Somewhere in my father's papers is a paper written by one Chris Green, at the time an operations manager in the old Southern Region, describing the system used in Germany and proposing installation of a similar system (with some appropriate modifications) in the UK. (One of the modifications was that separate 'wrong-line' signals would be provided. Apparently in Germany when BiDS was in operation signals for the 'right line' would apply to the 'wrong line' when it was being used in the reverse direction. Which, to me, sounds like unduly complicated circuitry but maybe DB circuits allowed for signals to be switched across in that way. That particular feature suggests BiDS was for engineering work only and couldn't be used for traffic reasons, a major difference from UK BiDS.)
Interestingly I believe it used to be the practice to work the signals applying ordinarily to the right line for a train proceeding on the wrong line during single line working, though not anymore. I can't quite remember where I got that from, but I am looking at a 1939 LMS Rule Book which states that the signals applying to the obstructed line must be maintained at danger except for, among other things, the signals protecting level crossings and the signals at intermediate boxes.

Beyond that I would just like to echo the comments that have already been made. As it so happens there seems to be a little bit of a fashion for bi-directional signalling with new schemes. East West Rail for example is to be fully bi-directional I understand. Crewe to Shrewsbury had bi-directional signalling installed as another example. And I just don't see the point. I suppose it's a bit cheaper and easier to just provide it with computer based interlocking and modern signalling and so forth. Presumably lamp proving and emergency replacement switches and all the rest is a lot cheaper and easier to provide than they would have been until recently, but I still can't see how it's value for money. Obviously you have to provide the signals themselves and knowledgeable sources have told me they aren't free. In fact they're known to be quite pricey. Then you have to maintain them. LEDs I suppose reduce the cost of lamps, but all the same. Then you've got the signage, the AWS, the TPWS. Then you've got the crossovers to be installed, maintained and inspected. Then you've got whatever interlocking you've got to prevent a head-on collision and prevent trains being signalled in opposite directions at the same time (presumably easily provided as standard on a computer, although given what Delta Rail are rumoured to charge to correct signal numbers on their displays I can imagine it's all factored into the final bill somehow).

And for what? As others have said, with the speed reductions over the crossovers and the long-ish-to-long sections, if you want to try and run a service intended for a double line around engineering work using a single bi-directional line the capcity you have to work with will be so reduced that it's hardly worth bothering with - even on that one weekend every few years when it might be desirable to try.

I agree it can potentially be useful in a crisis, but having said that, how useful really? In a crisis we can always do a wrong-direction move if a train has to turn around and come back because of a problem. Granted it's better and safer to have signalling instead of making an unsignalled wrong-direction move, but even with bi-directional signalling it's not necessarily as easy as just changing ends and going back the way you came. You have to take into account whether you might have stopped between an automatic level crossing and its controls or between a level crossing and its protecting signal. Also the signals in the reverse direction may not be able to be cleared if a train starts coming back to the same end it entered from. And as for working around, say, a failed train or flooding on one line or whatever, yes bi-directional signalling could come into its own there, but I've lost count of the number of times I've read in the various performance emails one gets that the option to work bi-directionally was rejected due to the need to maintain the service in the right direction.

I mean I'm sure it sounds great in a PowerPoint presentation that the all-new signalling will be fully bi-directional and I'm sure if we all pulled together we could fill this thread with 1001 stories of times when it saved the day, but really I think it's a very poor use of money providing all that full signalling for it to only get used... once a week? Once a month? Once a year? For a test train?

And apart from the cost of course it greatly complicates matters when trying to grant a line blockage, for example, because you've got to think about all the signals in the other direction that Terry swears he used once about 4 years ago when 1L27 failed. But they've all gotta go on the form haven't they? And then try putting in a temporary or emergency speed restriction. It's all gotta be boarded at both ends hasn't it? With magnets and AWS cancelling indicators and all the rest. Lock out devices were mentioned as well. Bi-directional signalling (particularly if hardly ever used) is frankly a bit of a danger, really, if you've got patrolmen out on track. Less of an issue these days, of course, as you need a line blockage to do almost anything, but it doesn't half complicate going out on track.

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Bidirectional signalling in UK - main routes 14/11/2024 at 09:27 #159174
kbarber
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TUT in post 159168 said:

Interestingly I believe it used to be the practice to work the signals applying ordinarily to the right line for a train proceeding on the wrong line during single line working, though not anymore. I can't quite remember where I got that from, but I am looking at a 1939 LMS Rule Book which states that the signals applying to the obstructed line must be maintained at danger except for, among other things, the signals protecting level crossings and the signals at intermediate boxes.
Still in the 1972 Block Regs I learned. Not quite sure when it was deleted; I suspect the spread of TCB made it inappropriate.

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Bidirectional signalling in UK - main routes 14/11/2024 at 10:11 #159175
geswedey
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Pretty sure it was still there when I learnt Sig rules in the late 80's as well.
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Bidirectional signalling in UK - main routes 14/11/2024 at 11:32 #159176
flabberdacks
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You can suspend the passenger service and keep the freight running, or run a deliberately reduced service over a single line without any forms, any boots on the ground, anything that takes time to set up. Easily go around a failure when the service is light. It's not hard to do the required interlocking now that everything is computer based.

Full reverse running is possible when you install enough signals in the opposite direction. Faulty signal? Ups up the down, downs down the up. Minimal delay except maybe a bit of congestion when putting things back on the right road.

It's the difference between immediately stopping the job and being able to still get value out of the corridor when only a small portion of it becomes unavailable.

Just in case you still don't see the point of it

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Bidirectional signalling in UK - main routes 14/11/2024 at 19:28 #159183
Bonan
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Always found this aspect of UK signalling interesting, considering the amount of traffic on many main lines. Here in Sweden, full bi-directional signalling was usually provided from the start when track circuits and centralized control replaced mechanical boxes and absolute block from the late 50s onward. Some double track sections got a interim solution with only track circuits but retained the local signal boxes - often with minor ones switched out and trains passed from one larger station to the next one. These lines sometimes had only exit and entry signals on the "wrong" line, but this system disappeared entirely by the early 1990s - the last section AFAIK was on the Western Mainline. With the introduction of the X2000 and 125 mph running, it became nessecary to have all goods loops usable at all times, which of course wasn't possible with the signal box switched out.

Nowdays everything is bidirectional and it's heavily used, both to get around engineering works and for regulation purposes. During my last trip down the Southern Mainline with the down sleeper I think we crossed between the up and down lines no less than 12 or 13 times. Mostly to get around engineering posessions, but also to overtake freights - or to be overtaken by the faster parcels workings. Most of the pointwork allows 50-60 mph so you don't loose much time either, although with the sleeper, you'd ideally want to go about half the posted speed limits. I think it's actually timetabled like this in some instances.

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Bidirectional signalling in UK - main routes 14/11/2024 at 20:13 #159184
TUT
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flabberdacks in post 159176 said:
Just in case you still don't see the point of it ;)
Unfortunately I'm sorry to say I don't.

flabberdacks in post 159176 said:
You can suspend the passenger service and keep the freight running, or run a deliberately reduced service over a single line without any forms, any boots on the ground, anything that takes time to set up. Easily go around a failure when the service is light. It's not hard to do the required interlocking now that everything is computer based.
It may perhaps be the case that it's well worth it Down Under. Perhaps you couldn't run an Australian railway without it, but honestly, whether because freight traffic on the UK main line is not what it might be, or because of the four-tracking and/or goods loops where it is a heavy feature, the idea that one might value the ability to suspend the passenger service and keep the freight running, or vice versa, doesn't really strike a chord in the heart of this British railwayman I must admit.

flabberdacks in post 159176 said:
Full reverse running is possible when you install enough signals in the opposite direction. Faulty signal? Ups up the down, downs down the up. Minimal delay except maybe a bit of congestion when putting things back on the right road.
I mean I don't really consider completely reversing the platforming on a whim but a little thing. Perhaps the Antipodean commuter is more readily separated from his mobile telephone than the British one but I find last-minute platform changes rarely end well. Alright in their way at a major hub with central waiting areas and good staffing, but a little unstaffed, two platform affair with a bus shelter not nearly so much. Nor do I consider checking a train down for the turnout, turning it out, picking the speed back up, bringing it back down for the turnout, turning it out all while not conflicting with the other service wanting to use the other crossover nothing either. Bound to put a few minutes into almost every train on a congested main line.

Which can make it a lot better to confine the problem to trains in one direction. I mean you talk about faulty signals but what do you mean? I can certainly see your point if the signal is completely out, that is a bit of a pain in the backside and this little Russian ballet around the problem could be handy, but a signal completely out is, in my experience, often down to a module failure or the cable thieves at work. And both of those are likely to affect quite a bit of equipment, including probably the wrong-direction signals. A signal that can only show red would also be one you'd like to divert trains around if you could I suppose. But failures of other aspects can be compensated for quite easily. On the contrary a track circuit failure would affect wrong direction moves just the same as right direction moves.

Emergency crossovers, bolt-hole sidings and other things are often casualties of resignalling schemes and money saving efforts. Not worth the upkeep. Not used enough. I cannot be expected to believe that full signalling for the wrong direction with all the signals, AWS, TPWS, approach control arrangements, junction indicators, interlocking, etc. etc. represents sufficient bang for the British pound but I'm delighted to know it works well elsewhere.

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Bidirectional signalling in UK - main routes 15/11/2024 at 10:53 #159195
kbarber
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TV4 (the 4-tracking of the Trent Valley from Tamworth to Armitage) included full BIDS on the middle lines. The Sunday timetable can be accommodated on 2 tracks. That makes it well worthwhile as the engineers can have one pair and trains can be worked normally past them.

I fear TUT's thinking reflects one of the (unforeseen?) consequences of privatisation. If you're in a TOC, try to keep right-time trains right-time and claim performance payments (don't remember what section number it is) from NWR if one of their signals gives problems (a nice little earner if the affected trains are relatively lightly loaded).

Of course the concept of BIDS comes from the British Rail era, when SLW was considered (relatively) normal and complete suspension of a train service for a mere signal failure (or even a points failure) was unthinkable. I sometimes need to remind myself that folk who worked for British Rail are now well on in their careers and the bulk of the 'old railway' managers have already retired. What I hear suggests the 'keep the job running' tradition of the old railway has more-or-less disappeared; for all that the new government is planning to re-integrate wheel and rail, it will take a generation (perhaps more) to re-create that culture. (Which says nothing, of course, of the individuals who keep the flame of the old railway alive. But I fear they are voices crying in the new management wilderness for the most part.)

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