1 mile right of track
Thread Starter
1 mile right of track
Whilst I’m not one to read the refs in my spare time, I remember reading many years ago, that one should fly 1 mile to the right of the GPS track.
Realistically, does this get taught these days or at least followed by most?
With more and more pilots in the generation of the magenta line, it feels like heads-on’s would be far more probable. I’ve had many occasions outbound from my local, to find someone on the exact reciprocal track inbound.
Realistically, does this get taught these days or at least followed by most?
With more and more pilots in the generation of the magenta line, it feels like heads-on’s would be far more probable. I’ve had many occasions outbound from my local, to find someone on the exact reciprocal track inbound.
While it is currently a little bit safer with most A380's sitting on the ground, it's still a great idea for smaller aircraft - when its available.
https://www.flightglobal.com/a380-wa...124052.article
The linked article refers to the Challenger that suffered a fairly serious upset approaching the Arabian Peninsular back in 2017 when it passed under an A380, 1000' above.
The aircraft was subsequently written off.
https://www.flightglobal.com/a380-wa...124052.article
The linked article refers to the Challenger that suffered a fairly serious upset approaching the Arabian Peninsular back in 2017 when it passed under an A380, 1000' above.
The aircraft was subsequently written off.
Squawk is right. GPS assisted collisions are a real danger if you use catalogued man made features as waypoints. I’ve been saved by hemispheric altitudes more than once. I now always offset by a random distance, never exactly one mile either. My instructors years ago criticised this, calling it, “wandering all over the sky”.
More for reciprocal tracks at same altitude on autopilot. Read up on the 737 vs. a Legacy in Brazil a few years back. Legacy crew accidentally turned off their transponder, ATC had them at wrong level. Lost their winglet but survived. 737 lost the outboard 1/3 of their wing and didn’t...
Uihttps://en.wikipedia.org/wiki/Gol_Tr...os_Flight_1907
Uihttps://en.wikipedia.org/wiki/Gol_Tr...os_Flight_1907
More for reciprocal tracks at same altitude on autopilot. Read up on the 737 vs. a Legacy in Brazil a few years back. Legacy crew accidentally turned off their transponder, ATC had them at wrong level. Lost their winglet but survived. 737 lost the outboard 1/3 of their wing and didn’t...
https://en.wikipedia.org/wiki/Gol_Tr...os_Flight_1907
https://en.wikipedia.org/wiki/Gol_Tr...os_Flight_1907
Whilst I’m not one to read the refs in my spare time, I remember reading many years ago, that one should fly 1 mile to the right of the GPS track.
Realistically, does this get taught these days or at least followed by most?
With more and more pilots in the generation of the magenta line, it feels like heads-on’s would be far more probable. I’ve had many occasions outbound from my local, to find someone on the exact reciprocal track inbound.
Realistically, does this get taught these days or at least followed by most?
With more and more pilots in the generation of the magenta line, it feels like heads-on’s would be far more probable. I’ve had many occasions outbound from my local, to find someone on the exact reciprocal track inbound.
Modern navigation equipment is so accurate that reciprocal aircraft on the same airway at the same level would probably collide. I’m used to watching traffic on the same airway, opposite direction, 1000’ above pass directly overhead without even being a wingspan off track laterally, the fuselages line up exactly.
Then a minute or so later you hit the wake turbulence and if you’re below same direction traffic you need to request an offset as you stay in it due to both aircraft tracking the airway so precisely.
Often ATC will instruct aircraft to offset as they are too close together to make out on the radar screen.
Then a minute or so later you hit the wake turbulence and if you’re below same direction traffic you need to request an offset as you stay in it due to both aircraft tracking the airway so precisely.
Often ATC will instruct aircraft to offset as they are too close together to make out on the radar screen.
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Part of the problem is for VFR drivers they have so much fancy stuff in their machines that not only does their flight pass by without hardly looking out the window they are heads down which actually puts them in a higher risk bracket for mid air collisions!
I recall the early days when GPS driven FMS's where being used for primary Nav flying across the ditch I watched an ANZ B767 opposite direction which looked like we where going to split each other down the middle!
I recall the early days when GPS driven FMS's where being used for primary Nav flying across the ditch I watched an ANZ B767 opposite direction which looked like we where going to split each other down the middle!
Can recall passing opposite direction Ansett F28 & BAE 146 aircraft - either above or below our altitudes - both of us utilising VLF Omega & never within a bulls roar laterally of each other... GPS has made a huge difference to tracking accuracy...
Avoid imitations
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Strategic Lateral Offest of Position (SLOP) is now mandatory in Atlantic airspace. It's up to two miles right of track (it used to be 1nm or 2nm, but now it's in decimal increments - eg 1.2, 1.4 etc) - always right, to avoid a head on collision if someone makes an altitude error. In that airpsace, there's no need to notify ATC.
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Nose to nose mid-air
I recall one of the first mid-air collisions relating to GPS tracking was in Canada. A Metro and another IFR twin, one on climb and the Metro on descent, nose to nose. I recall that the twin had rolled hard one way after what the investigators suggest was a late observation of the conflict. The report suggested that if he had pushed or pulled the collision may have been averted, but because he rolled the vertical profile of the twin was increased significantly causing its then upper wing to slice the wing of the Metro. Lesson there is don't roll to avoid in such circumstances. And yes a one mile offset is a good idea, especially in some airspace. I doubt if en-route radar could pick that up?
I found the ref, an interesting read and still valid some 25 yrs after the event...
https://www.bst-tsb.gc.ca/eng/rappor.../a95h0008.html
I found the ref, an interesting read and still valid some 25 yrs after the event...
https://www.bst-tsb.gc.ca/eng/rappor.../a95h0008.html
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-SLOP can be applied in Australian Oceanic airspace as well, up to 2NM right of track in 0.1NM increments.
-When in Oceanic Airspace, a clearance for the offset is not required, but in CTA, a clearance is required to offset from track.
-When moving from OCA to CTA, you must regain centreline before leaving OCA.
-Don't offset without a clearance in CTA, the tracks are often not very far apart.
-Don't offset to the left, it seems obvious, but I've seen it done.
-You can't add a SLOP offset in addition to a deviation off track, that is, if deviating 50NM off track due weather, that's the limit, not 50+2NM.
-If in surveillance airspace (ADSB or Radar), track deviations can be seen.
-If in non-surveillance airspace, offsets will only be seen if ADS-C equipped.
-Take wake turbulence seriously, it breaks planes.
-When in Oceanic Airspace, a clearance for the offset is not required, but in CTA, a clearance is required to offset from track.
-When moving from OCA to CTA, you must regain centreline before leaving OCA.
-Don't offset without a clearance in CTA, the tracks are often not very far apart.
-Don't offset to the left, it seems obvious, but I've seen it done.
-You can't add a SLOP offset in addition to a deviation off track, that is, if deviating 50NM off track due weather, that's the limit, not 50+2NM.
-If in surveillance airspace (ADSB or Radar), track deviations can be seen.
-If in non-surveillance airspace, offsets will only be seen if ADS-C equipped.
-Take wake turbulence seriously, it breaks planes.
accuracy is dependant upon number of satellites the gps receiver is interrogating. On the civilian bands dilution of precision (the circle of accuracy) with just 3 satellites is accurate to within 30 metres, that halves with 4 satellites. In most cases even at maximum opposite error you would still be within each other wingspan. I remember when we were first introduced to gps, before there were enough satellites up for alt and in DR mode most of the time. How on earth did we ever manage before gps, brings back so many memories.
Xeptu, isn’t the problem that as aircraft approach each other, they both receive the same errors in the gps signals? The absolute accuracy is not material. Both receivers will try and direct you to the same point.