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Top 5 ATM Operational Safety Priorities

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Title: Top 5 ATM Operational Safety Priorities


1
Top 5 ATM Operational Safety Priorities
  • Landing Without Clearance

BLAJEV Tzvetomir Operational Safety Coordinator,
EUROCONTROL
Captain Ed Pooley The Air Safety Consultancy
2
In Brief
  • The process to determine the priorities - SAFMAPs
  • What are the Top 5?
  • Operational safety study example Landing without
    clearance

3
In Brief
  • The process to determine the priorities - SAFMAPs
  • What are the Top 5 ?
  • Operational safety study example Landing without
    Clearance

4
How to prioritise
  • Counting numbers versus understanding mechanisms
  • Single point of view versus a common picture
  • Learning from negative versus learning from both
    negative and positive

5
How did we get it?
  • We studied two risk areas(1) Runway incursion
    (2) Loss of separation en-route
  • Workshops with 6 ANSPS during Summer 2012
  • Reviewing severity A and B incidents for 2011
  • Mapping the incidents on SAFMAPs (Safety
    Functions Maps) 3 hierarchical levels were
    developed

6
SAFMAP Level 0 Runway Collision
Providence
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Pilot/Driver RWY Conflict Resolution
UNRESOLVED BY ATC RUNWAY CONFLICT
ATC RWY Conflict Resolution
RUNWAY CONFLICT
Preventing incorrect RWY presence to turn into
RWY conflict
RUNWAY INCURSION
Preventing incorrect presence into RWY protected
area
7
SAFMAP Level 1
PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
No incorrect presence of take-off aircraft
No incorrect presence of landing aircraft
No incorrect presence of person
ATC prevents incorrect presence
Pilot/driver detecting that RWY entry will be
incorrect
ATC prevents incorrect presence
Preventing ATC causing incorrect entry
Taxi pilot/driver adequate communication
No confusion that there is a clearance
Taxi pilot/driver adequate positional awareness
Correct vacation
8
Incident trajectories on the SAFMAP
PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
No incorrect presence of take-off aircraft
No incorrect presence of landing aircraft
No incorrect presence of person
ATC prevents incorrect presence
Pilot/driver detecting that RWY entry will be
incorrect
ATC prevents incorrect presence
Preventing ATC causing incorrect entry
Taxi pilot/driver adequate communication
No confusion that there is a clearance
Taxi pilot/driver adequate positional awareness
Correct vacation
9
Incident trajectory example 1
  • A vehicle entered RWY for maintenance work
    without clearance after confusion of the position
  • ATCO detected the incorrect entry with the red
    stop bar crossing alarm at the time of issuing
    clearance for a take-off aircraft
  • ATCO immediately cancel the take-off clearance

PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
No incorrect presence of take-off aircraft
No incorrect presence of landing aircraft
No incorrect presence of person
ATC prevents incorrect presence
Pilot/driver detecting that RWY entry will be
incorrect
ATC prevents incorrect presence
Preventing ATC causing incorrect entry
Taxi pilot/driver adequate communication
No confusion that there is a clearance
Taxi pilot/driver adequate positional awareness
Correct vacation
10
Incident trajectory example 2
PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
  • During high workload, wet RWY, many Arrivals,
    more time than usual to vacate the RWY
  • ATCO focussing on the one vacating the outer
    RWY, tired at the and of the day
  • Clear an a/c to cross (after landing) after
    already given TOF clearance to another a/c
  • No stop bars used - only for low visibility
    procedures
  • After identifying the conflict ATCO instructed
    the crossing to expedite

RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
No incorrect presence of take-off aircraft
No incorrect presence of landing aircraft
No incorrect presence of person
ATC prevents incorrect presence
Pilot/driver detecting that RWY entry will be
incorrect
ATC prevents incorrect presence
Preventing ATC causing incorrect entry
Taxi pilot/driver adequate communication
No confusion that there is a clearance
Taxi pilot/driver adequate positional awareness
Correct vacation
11
Incident trajectory example 3
  • Landing aircraft mistuned frequency of the TWR
    and decided to follow the loss of communication
    landing procedure in VMC
  • Take-off aircraft on the RWY already but no
    opportunity for take-off or for vacating the RWY
  • The landing aircraft failed to see that RWY is
    occupied and landed on top of the a/c at the
    threshold


PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
No incorrect presence of take-off aircraft
No incorrect presence of landing aircraft
No incorrect presence of person
ATC prevents incorrect presence
Pilot/driver detecting that RWY entry will be
incorrect
ATC prevents incorrect presence
Preventing ATC causing incorrect entry
Taxi pilot/driver adequate communication
No confusion that there is a clearance
Taxi pilot/driver adequate positional awareness
Correct vacation
12
In Brief
  • The process to determine the priorities - SAFMAPs
  • What are the Top 5?
  • Operational safety study example Landing without
    clearance

13
Top 5 (1) Risk of operations without
transponder or with dysfunctional one
  • A single threat often removing all the barriers
    up to see and avoid
  • No ATC awareness
  • No STCA
  • No TCAS/ACAS.

14
Top 5 (2) Landing without clearance
  • For numerous reasons, aircraft sometimes land
    without ATC clearance
  • This results in runway incursions that are often
    only resolved through providence.

15
Top 5 (3) Detection of Occupied Runway
  • Good share of the severe Runway Incursion
    incidents could have been prevented
  • Need for the controllers to detect that the
    runway was occupied at the time of giving a
    clearance for the next aircraft to use it.

16
Top 5 (4) Blind Spot
  • Conflict was not detected with the closest
    aircraft
  • After descending clearance
  • Rapidly developing situation often 1000ft and
    15 Nm between the conflicting a/c.

17
Top 5 (5) Conflict detection with adjacent
sectors
  • Involve inadequate coordination of clearance
    with an adjacent sector
  • These typically involve either an early
    (premature) transfer of control to or from the
    neighbouring sector.

18
In Brief
  • The process to determine the priorities - SAFMAPs
  • What are the Top 5 ?
  • Operational safety study example Landing without
    clearance

19
Operational Safety Study
  • Provide additional insights on causal/contributory
    factors
  • Suggest actions to reduce or eliminate risk
    factors
  • Identify industry best practice and lessons
    learned
  • Inform development of SKYbrary material

20
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
21
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
22
Example Conflict Scenarios (1)Active RWY
LANDING WITHOUT CLEARANCE
  1. Loss of communication
  2. RWY confusion
  3. Communication misunderstanding
  4. Absence of clearance overlooked
  5. Deliberate

2a
1
3d
3e
3b
3a
3c
2b
  • Unoccupied RWY and no clearance given
  • Unoccupied but a clearance has been given
  • Occupied RWY

23
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
24
Barriers
25
Mitigation Barriers
PROVIDENCE
UNRESOLVED BY ATC AND PILOT/DRIVER RUNWAY CONFLICT
Opportunity for physical collision avoidance
The conflict is detectable by the pilot / driver
The conflict is detected by the pilot/ driver
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
UNRESOLVED BY ATC RUNWAY CONFLICT
ATCO detects the conflict
Sufficient time and effective ATC decision
Adequate Communication
Crew/driver/person initiates action on time
The avoidance action is correctly implemented and
collision is avoided
RUNWAY CONFLICT
Opportunity to prevent the conflict before or
with intended RWY use clearance
Crew/driver prevents conflict after detecting it
before or with intended RWY use clearance
ATCO prevents conflict after detecting it before
or with intended RWY use clearance
RUNWAY INCURSION
26
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
27
Operational Context (1)
  • Availability of radar guidance for the approach
  • Meteorological conditions and time of the day
  • Runway status
  • Clearance conditions
  • Visual surveillance capability from the Tower

28
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
29
OPERATIONAL SCENARIOS v BARRIER EFFECTIVENESS
  • All Scenarios formulated are not equally
    prevalent! And
  • All Prevention Barriers (PB) are not equal in
    their relevance to the various scenarios
  • All Mitigation Barriers (MB) are not equal in
    their relevance to the various scenarios
  • But In both cases there are some clear
    indications of best value-added in responding
    to the risk of LwC
  • Assign each PB and each MB to the defined
    scenarios as fully effective, partially effective
    or ineffective/not intended to address traffic
    light system

Top 5 Safety Priorities
29
30
PREVENTION BARRIER MATRIX
  PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 PB9 PB10 PB11 PB12 PB13 PB14
A1                            
A2                            
A3                            
B1                            
B2                             
B3                             
C1                            
C2                            
C3                            
D1                            
D2                            
D3                            
E1                            
E2                            
E3                            
31
MITIGATION BARRIER MATRIX
  MB1 MB2 MB3 MB4 MB5 MB6 MB7 MB8 MB9 MB10
A1                    
A2                    
A3                    
B1                    
B2                    
B3                    
C1                    
C2                    
C3                    
D1                    
D2                    
D3                    
E1                    
E2                    
E3                    
32
RANKING OF PREVENTION BARRIER EFFECTIVENESS
  • Arbitrary weighting of Green Yellow at 31 (use
    of 21 would make little relative difference)
  • Best Ranked Prevention Barriers (score range
    3-31)
  • PB 5 an automated (probably visual), alerting of
    pilots to an occupied runway and thus the
    (probable) absence of a landing clearance
  • PB9 a controller-activated (probably visual)
    alerting of pilots to the absence of a landing
    clearance.
  • Best/Worst Coverage of Prevention Barriers by
    Scenario
  • Best - D (pilot unaware)
  • Intermediate - B (runway confusion) C (comms
    confusion) A (loss of comms)
  • Worst - E (deliberate act)

Top 5 Safety Priorities
32
33
RANKING OF MITIGATION BARRIER EFFECTIVENESS
  • Same Arbitrary weighting of Green Yellow at 31
    (again use of 21 would make little relative
    difference)
  • Best Ranked Mitigation Barriers (score range
    20-33 plus one outlier at 3)
  • MB 2 - controller intervention prompted by an
    automatic alert with or without prior issue of a
    conflicting clearance.
  • MB 4 - pilot/driver action prompted by an
    automatic (probably visual) alert.
  • MB3 pilot/driver action promoted by proactive
    monitoring of traffic visually or on the radio
  • Best/Worst Coverage of Mitigation Barriers by
    Scenario
  • Best - B (runway confusion)
  • Intermediate - A (loss of comms) C (comms
    confusion) D (unaware)
  • Worst - E (deliberate act)

Top 5 Safety Priorities
33
34
VALIDATION OF BARRIER EFFECTIVENESS
  • Identifies the barriers that could have prevented
    or mitigated an actual event had they been
  • Available and Used
  • Is not an analysis of what actually happened
    since the test events were not prevented.

35
SCENARIO A (LOSS OF COMMS)
  • Non-precision approach by private business flight
    by aircraft owner. Mistuned TWR in IMC and when
    no contact possible assumed radio failure and did
    not revert to APP. Broke cloud at 1.5nm and
    continued land over a Q400 lined up for departure
    at the threshold without seeing it.
  • Three effective Prevention Barriers
  • PB4, PB5, PB9
  • These include the top two ranked barriers
  • Two effective Mitigation Barriers
  • MB2, MB4
  • These include two of the three top ranked barriers

35
Top 5 Safety Priorities
36
SCENARIO B (RUNWAY CONFUSION)
  • Two parallel runways, one closed long term for
    nearly- completed reconstruction. In VMC, ATC
    approved an inbound CRJ crew request to land in
    the reciprocal direction to that in use. The
    aircraft was then landed on the closed runway
    without encountering obstacles - ATC only noticed
    as the aircraft was about to touch down. The crew
    said they were used to programming the FMS for
    the runway they actually used and failed to
    appreciate or correct their error even when
    flying a visual approach.
  • Seven effective Prevention Barriers
  • PB5, PB6, PB7, PB8, PB9, PB11, PB13
  • These include the top two ranked barriers
  • Two effective Mitigation Barriers
  • MB3, MB8
  • These include the one of the top three ranked
    barriers

36
Top 5 Safety Priorities
37
SCENARIO C (COMMS CONFUSION)
  • ATC instructed pilot to continue approach to
    which the pilot readback was continue. ATC made
    no further attempt to communicate to the aircraft
    and it was landed in the belief that clearance
    had been given.
  • Five effective Prevention Barriers
  • PB5, PB9, PB10, PB11, PB12
  • These include the top two ranked barriers
  • Six effective Mitigation Barriers
  • MB2, MB3, MB4, MB5, MB6, MB8
  • These include the top three ranked barriers

37
Top 5 Safety Priorities
38
SCENARIO D (PILOT UNAWARE)
  • On initial contact with TWR, the aircraft was
    instructed to continue advised to expect to be
    called back. After landing without clearance in
    the belief that it had been received, the pilot,
    who was familiar with the airport involved,
    observed that landing clearance there was usually
    given a long way out and the absence of the
    promised call back with clearance was easily
    missed.
  • Nine effective Prevention Barriers
  • PB1, PB2, PB3, PB5, PB9, PB10, PB11, PB12, PB14
  • These include the top two ranked barriers
  • Nine effective Mitigation Barriers
  • MB1, MB2, MB3, MB4, MB5, MB6, MB7, MB8, MB10
  • These include the top three ranked barriers

38
Top 5 Safety Priorities
39
SCENARIO E (DELIBERATE ACT)
  • An en-route light aircraft lost positional
    awareness in VMC and, unequipped with GPS, saw
    what was considered to be a convenient airport,
    and made a downwind join in the opposite circuit
    direction to that in use and continued onto
    finals and landed without radio contact. TWR saw
    the aeroplane when it was downwind and instructed
    another aircraft approaching from the opposite
    in-use direction to make a go around.
  • Two effective Prevention Barriers
  • PB5, PB9
  • These are the top two ranked barriers
  • Effective Mitigation Barriers
  • MB1, MB2, MB3, MB4, MB5, MB6, MB7, MB8, MB10
  • These include the top three ranked barriers

39
Top 5 Safety Priorities
40
The Generic Study Process
BARRIERS
SCENARIOS
CONCLUSIONS
ANALYSIS
OPERATIONALCONTEXT
41
SOME CONCLUSIONS (1)
  • The study has identified the best performing
    potential prevention and mitigation barriers.
    Some barriers are likely to be more cost
    effective than others.
  • Other studies referenced in the Paper are
    supportive of these findings but also advocate
    looking at barriers which would directly reduce
    the prevalence of pilots not being on the TWR
    frequency as the landing runway is approached.
  • Combinations of the most effective barriers are
    likely to make an impressive impact on LwC
    prevalence and mitigation.

42
SOME CONCLUSIONS (2)
  • The top two ranked Prevention Barriers, PB5 and
    PB9, were applicable in all five scenario
    examples.
  • The top three ranked Mitigation Barriers, MB2,
    MB3, MB4 were all applicable in Scenarios C
    (Comms confusion), D (Pilot unaware) and E
    (Deliberate Act) and at least one was applicable
    in the other two scenarios - A (Loss of Comms)
    and B (runway confusion.
  • An outstanding PB5 solution, FAROS as currently
    being deployed in the USA, was estimated prior to
    this implementation as likely to prevent 65 of
    runway conflicts some of which are LwC!

Top 5 Safety Priorities
42
43
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