High Precision Entries into the Holding Pattern

March 31, 2021
L. Glatt, PhD,  ATP CFI-AI

Objective

Comparison of FAA recommendation for holding pattern entries with new “High Precision Entry Method”

Results of this comparison show that under strong wind conditions

  • Pilot workload is increased in attempting to enter the holding pattern using the FAA recommended entry procedures

  • “High Precision Entry Method” reduces the Pilot workload by allowing the A/C ground track during the entry phase to smoothly blend into the ground track of the “Holding Pattern Solution”

    • This allows the A/C to intercept the holding radial at the required inbound time to the holding fix or required distance from the holding fix


Holding Pattern Scenario

  • Holding radial is 180 deg (360 deg inbound to the holding fix)

  • Standard hold (right turns)

  • Rate of turn 3 deg/sec (standard rate)

  • Inbound time to fix below 14000 MSL – 1 minute

  • Holding speed 100 KTAS

  • Wind direction 045 

  • Wind speed 30 knots

Holding Pattern Solution for TAS=100 KTAS, WD=045, WS=30 Knots

Holding Pattern Solution for TAS=100 KTAS, WD=045, WS=30 Knots

Direct Entry Using FAA Recommendation

  • Aircraft heading to holding fix is 330 deg

  • FAA entry is a Direct entry

  • Aircraft turns outbound to heading of 180 deg for 60 sec

  • Aircraft turns inbound to roll out on heading of inbound course (360 deg) plus any wind correction angle (WCA on inbound course is 12 deg to the right, i.e. heading 012)

  • At completion of inbound turn track angle error is 26.3 deg

  • At this point the Pilot options are to either attempt to intercept the holding radial or proceed direct to the fix and start another Direct entry attempt

FAA-holding-pattern-direct-entry.png

High Precision Entry into the Holding Pattern

  • Aircraft heading to holding fix is 330

  • High Precision Entry 

    • A/C crosses holding fix and turns right to heading of 118 deg

    • A/C flies 118 deg for 46 sec

    • A/C roll into standard rate turn 

    • A/C flight track during entry phase smoothly blends into ground track of “Holding Pattern Solution”

    • Pilot workload considerably reduced

High-Precision-Entry.png


FAA Recommendation for Teardrop Entry

  • Aircraft heading to holding fix is 165 deg

  • FAA entry is a Teardrop entry

  • After crossing the holding fix A/C turns left to heading of 150 deg for 60 sec

  • When A/C turns to heading 012 deg track angle error is 19.7 deg

  • At this point A/C options are to either attempt to intercept the holding radial or proceed direct to the fix and start a Direct entry attempt

FAA-holding-pattern-teardrop-entry.png


High Precision Entry into the Holding Pattern

  • Aircraft heading to holding fix is 165 deg

  • High Precision Entry 

    • A/C crosses holding fix and turns left to heading of 049 deg

    • A/C flies 049 deg for 12 sec

    • A/C rolls into standard rate turn to the right

    • A/C flight track smoothly blends into ground track of “Holding Pattern Solution”

    • Pilot workload considerably reduced

FAA-high-precision-holding-pattern-teardrop-entry.png


FAA Recommendation for Parallel Entry

  • Aircraft heading to holding fix is 205 deg

  • FAA entry is a Parallel entry

  • After crossing the holding fix A/C turns left to heading of 180 plus an additional 12 deg to compensate for wind (i.e. A/C parallels holding radial with heading of 168 deg) for 60 sec

  • Aircraft turns left and rolls out an intercept angle to the holding radial (i.e. 45 deg- A/C heading is 315 deg) 

  • A/C intercepts holding radial and tracks inbound to holding fix

  • Inbound time to holding fix is 88 sec from point A/C intercepts holding radial

    • Target inbound time is 60 sec

FAA-holding-pattern-parallel-entry.png

High Precision Entry into the Holding Pattern

  • Aircraft heading to holding fix is 205 deg

  • High Precision Entry 

    • A/C crosses holding fix and turns left to heading of  168 deg

    • A/C flies 168 deg for 41 sec

    • A/C rolls into a left standard rate turn and rolls out on a heading of 315 deg

    • A/C flies head 315 for 4 sec

    • A/C turns right to heading of 012 and tracks holding radial for required 1-minute inbound time to the holding fix

    • A/C flight track smoothly blends into ground track of “Holding Pattern Solution”

    • Pilot workload considerably reduced

FAA-high-precision-holding-pattern-parallel-entry.png


Conclusions

  • New “High Precision Entry Method” allows Pilot to get established in the holding pattern by requiring the ground track of the entry procedure to smoothly blend into the ground track of the “Holding Pattern Solution”

    • Considerable reduction in Pilot workload

      • Holding entry and holding pattern can be flow with autopilot to allow Pilot to concentrate on situational awareness or having time to troubleshoot aircraft system problems while in the holding pattern