Separation & Airspace Safety
  • Home WIKI Separation & Airspace Saf....

Separation & Airspace Safety

Separation & Airspace Safety is a vast domain at the crossroad of many topics: separation standards, safety risks analysis, collision modelling, advanced mathematics and many more.

As far as Air Traffic Control is concerned, it normally starts with national authorities laying down vertical and horizontal separation standards to facilitate the safe navigation of aircraft in controlled airspace. Observance of these standards ensures safe separation from the ground, from other aircraft and from protected airspace. Separation standards may sometimes serve to reduce exposure to Wake Vortex Turbulence although there are many occurrences of significant wake vortex encounter at separations much greater than prevailing minimum separation.

National separation standards are based on the provisions of ICAO Doc 4444 (Procedures for Air Traffic Management), especially Chapter 5. Differences from these standards (if any) are published in national AIPs. The methods used to achieve separation are varied and complex, depending on the phase of flight and the relative trajectories of the aircraft involved (Skybrary, 2019), but they are generally classified in three categories: vertical, lateral, and longitudinal separation.

Separation can be achieved by distance or time reports and/or estimates (commonly referred to as procedural separation) or can be achieved through electronic means such as radar, ADS-B or multilateration (M-LAT) (commonly referred to as surveillance separation).

 

 

A SHORT HISTORY OF THE ICAO SEPARATION AND AIRSPACE SAFETY PANEL

With the advent of commercial turbo jet aircraft operating at high levels and the need to re-evaluate the vertical separation minimum used at that time, the Vertical Separation Panel (VSP) was created in 1954. Later on, the need to review other separation minima due to the fuel shortage in the 70s generated the need to expand the tasks of the Panel and in 1971 the Review of General Concept of Separation Panel (RGCSP) met for the first time. The Air Navigation Commission agreed in 2000 that the Review of the General Concept of Separation Panel (RGCSP) be changed to the Separation and Airspace Safety Panel (SASP). The Commission considered that the change of the panel would better reflect the broad scope of the panel’s work programme and provided an appropriate emphasis on ICAO’s primary objective to ensure airspace safety while improving efficiency of operations. (ICAO, 2014)

 

Separation Concept

In summary, is the concept of keeping an aircraft outside a minimum distance from another aircraft to reduce the risk of those aircraft colliding, as well as prevent accidents due to secondary factors, such as wake turbulence. Separation can also apply to terrain, obstacles, and controlled airspace, wherein an aircraft must stay at a minimum distance from a block of airspace.

Air traffic controllers apply rules, known as separation minima, to do this. Pairs of aircraft to which these rules have been successfully applied are said to be separated: the risk of these aircraft colliding is therefore remote. If separation is at risk of being lost between two aircraft, they are said to be in a conflict.

When an aircraft passes behind or follows another aircraft, wake turbulence minima are applied due to the effect of the wingtip vortices of the preceding aircraft on the following aircraft. These minima vary depending on the relative size of the two aircraft. This is acute on final approach with a smaller aircraft following larger aircraft. (Wikipedia, 2020)

What are ATC clearances for?

A clearance issued by ATC is predicated on known traffic. An ATC clearance means an authorization by ATC, for the purpose of preventing collision between known aircraft, for an aircraft to proceed under specified conditions within controlled airspace. The pilot-in-command of an aircraft is directly responsible for, and is the final authority as to, the operation of that aircraft. If ATC issues a clearance that would cause a pilot to deviate from a rule or regulation, or in the pilot’s opinion, would place the aircraft in jeopardy, it is the pilot’s responsibility to request an amended clearance.

Similarly, if a pilot prefers to follow a different course of action, such as make a 360 degree turn for spacing to follow traffic when established in a landing or approach sequence, land on a different runway, take off from a different intersection, take off from the threshold instead of an intersection, or delay operation, the pilot is expected to inform ATC accordingly. When the pilot requests a different course of action, however, the pilot is expected to cooperate so as to preclude disruption of traffic flow or creation of conflicting patterns. The pilot is also expected to use the appropriate aircraft call sign to acknowledge all ATC clearances, frequency changes, or advisory information. (FAA, 2020)

For more information, visit one of the following WIKIFATCA pages:

Separation & Airspace Safety 174

  1. A Further Study into Interactions Between Remotely Piloted Aircraft Systems and ATC
  2. AAS 1.11 “FLY-BY” AND “FLY-OVER” WAYPOINTS
  3. AAS 1.14 SPACE-BASED AUTOMATIC DEPENDENT SURVEILLANCE – BROADCAST
  4. AAS 1.15 CONCEPT OF GNSS-BASED ALTITUDE
  5. AAS 1.21 UNMANNED AIRCRAFT SYSTEM (UAS) TRAFFIC MANAGEMENT (UTM)
  6. AAS 1.22 RPAS ASSUMPTIONS
  7. ADME 2.1 CONVERGING RUNWAY OPERATIONS (CROPS)
  8. ADME 2.4 SURFACE MOVEMENT GUIDANCE & CONTROL SYSTEMS
  9. ADS-B Operations
  10. Aerodrome – Land and Hold Short Operations
  11. Aerodrome – Converging Runway Operations
  12. Air Traffic Control Separation Monitoring Tool (ASMT)
  13. Air Traffic Control Separation Monitoring Tool (ASMT)
  14. Air Traffic Control Separation Monitoring Tool (ASMT)
  15. Airborne Separation Assurance
  16. Aircraft Flying with ‘Due Regard’
  17. Airspace Design and Procedures Controller Involvement
  18. Amendment to Current Policy on RNAV Procedural Separation Minima
  19. ASAS-TN2 – Airborne Separation Assistance System Thematic Network 2
  20. ATC Collision Avoidance Techniques
  21. ATS – Study Restrictions in the Enroute Environment
  22. ATS 3.15 (ADVANCED) STRATEGIC LATERAL OFFSET PROCEDURES
  23. ATS 3.16 THE USE OF SAFETY NETS IN ATM
  24. ATS 3.18 SHORT TERM CONFLICT ALERT
  25. ATS 3.19 MINIMUM SAFE ALTITUDE WARNING SYSTEMS
  26. ATS 3.21 SURVEILLANCE: IN-TRAIL PROCEDURES ITP
  27. ATS 3.29 MERGING AND SEQUENCING CONCEPTS
  28. ATS 3.32 RECATEGORIZATION OF AIRCRAFT FOR WAKE TURBULENCE
  29. ATS 3.34 TERRAIN AND OBSTACLE CLEARANCE RESPONSIBILITIES
  30. ATS 3.35 TERRAIN AND OBSTACLE CHARTING
  31. ATS 3.36 EMERGENCY DESCENT PROCEDURES
  32. ATS 3.4 STANDARDISATION OF REGIONAL TRANSITION ALTITUDES
  33. ATS 3.42 HELICOPTER OPERATIONS
  34. ATS 3.46 SECTORLESS ATM
  35. ATS 3.8 RADAR MONITORING
  36. ATS 3.9 GLOBAL COMPATIBLE FLIGHT LEVEL SYSTEMS
  37. Blended Airspace
  38. Co-operative Separation
  39. COM 4.11 RADIO MANDATORY ZONES / TRANSPONDER MANDATORY ZONES
  40. Concept of GNSS-Based Altitude
  41. Conspicuity and ATS Surveillance
  42. Cooperative Separation – Transfer of Control Functions to Pilots
  43. Development of Policy on Formation Flights Within Controlled Airspace
  44. Developments in the use of Global Navigation Satellite Systems (GNSS) as an Approach Aid
  45. EATCHIP ATM Procedures Development Sub-Group
  46. Emergency Descent Procedures
  47. En-route Wake Turbulence
  48. General Considerations on the Implact of U-Space Dynamic Airspace Reconfiguration on ATS Units
  49. Harmonised Transition Altitude
  50. High Altitude Operations (HAO)
  51. Interactions ATC/ACAS
  52. Interactions Between Unmanned Aircraft Systems and Air Traffic Control
  53. Introduction of RVSM on a Trial Basis in the North Atlantic Region
  54. Investigate Applications of Provision of Area Proximity Warnings
  55. Investigate interactions between Traffic Collision Avoidance System and Mode S
  56. Investigate Minimum Safe Altitude Warning Systems (MSAW)
  57. Investigate Navigation and Surveillance Provided by a Single Position Information System
  58. Investigate Potential Applications of ADS-B
  59. Investigate Route Conformance Monitoring System
  60. Investigation of the Nomenclature used in the Acronyms CIB & CIC
  61. LM 7.1.3 TRANSFER OF CONTROL FUNCTIONS – LEGAL ASPECTS
  62. Longitudinal Separation Anomalous Interpretations
  63. Management of Mixed Mode Operations
  64. MLS Operational Procedures
  65. Monitor the Application and Implementation of RNAV
  66. Monitor the Developments in the Operational use of ASAS
  67. Monitoring TIBA
  68. NATSPG
  69. Navigation – Magnetic vs True
  70. Off–Set Tracking in the North Atlantic (NAT)
  71. Policy Review: Strategic Lateral Offset Procedures (SLOP)
  72. Policy Review: Terrain and Obstacle Clearance
  73. Produce a Definition of Area Proximity Warning System
  74. Produce a Definition of Conflict Detection Tools
  75. Produce a Definition of Controller Tools
  76. Produce a Definition of Minimum Safe Altitude Warning Systems
  77. Produce Definition of Short Term Conflict Alert
  78. Produce Definitions of “Fly-by” and “Fly-over”
  79. Produce Definitions on Spacing, Separation and Segregation
  80. Professional and Legal Aspects of Downlinking TCAS RAs (TCAS Resolution Advisories)
  81. Radar Monitoring in the En-route Phase
  82. Radar Monitoring Procedures in TMAs
  83. Radio Mandatory Zones / Transponder Mandatory Zones
  84. Rating for Automatic Dependent Surveillance Control
  85. Reduced Vertical Separation Above FL 290
  86. Reduced Vertical Separation Minima (RVSM)
  87. Reduction in Vertical Separation Above FL290
  88. Reduction of Non-radar Separation Standards Using ADS
  89. Removal of Ground Based Aids
  90. Report of Visual Approach Procedures
  91. Responsibility For Terrain And Obstacle Clearance During Weather Avoidance
  92. Review ATS 3.36 – Recategorization of Aircraft for Wake Turbulence
  93. Review Continuous Descent Operations Manual
  94. Review Existing Policy and Develop Further Policy on Simultaneous IFR Operations on Intersecting / Converging Runways
  95. Review Issues in the Application of Cockpit Display of Traffic Information (CDTI) in Advanced Surface Movement Guidance System (A-SMGCS) Operations
  96. Review Issues Regarding ATC Systems Capability to Monitor Relevant Controller Intervention Buffer (CIB) Parameters
  97. Review of Lateral and Longitudinal Separation
  98. Review of Lateral and Longitudinal Separation
  99. Review of LM (Legal Matters) – Professional Policy of the TPM
  100. Review of Policy in Regards to TCAS RA Downlink
  101. Review of Policy on Area Navigation
  102. Review of Policy on Ground Based Safety Nets
  103. Review of Policy on Precision Area Navigation
  104. Review of Policy on Surface Movement Radar
  105. Review of Policy: Non-plannable Level in the NAT-Region
  106. Review of Policy: Resumption of Separation Following a TCAS RA
  107. Review of Policy: Short Term Conflict Alert (STCA)
  108. Review of Provisional Policy – ATM Safety Monitoring Tools (ASMT)
  109. Review of TCAS Policy
  110. Review of WC (Working Conditions) – Professional Policy of the TPM
  111. Review of WC 10.2.11 – The Free Flight Concept
  112. Review policy of ACAS / TCAS
  113. Review Policy on Formation Flights within Controlled Airspace
  114. Review Policy on Interception of Civil Aircraft
  115. Review Policy on Separation Lateral and Longitudinal
  116. Review policy on Surface Guidance Movement and Control Systems
  117. Review the Issue of ASAS Separation when less than the Relevant ATC Separation, e.g. Radar
  118. Review the Issues Concerning Controller Intervention Buffer
  119. RNAV – Monitoring its Implementation
  120. RNAV Procedural Separation – Amendment of Current Policy
  121. RNAV Procedural Separation – Longitudinal Distance Standard Minima
  122. RNP for Approach and Landing
  123. RVSM
  124. Safety Components in a Separation Minima
  125. Sectorless ATM
  126. SEP 5.1 USE OF 1000FT VERTICAL SEPARATION ABOVE FL290
  127. SEP 5.2 LATERAL AND LONGITUDINAL SEPARATION
  128. SEP 5.3 AIRBORNE SEPARATION ASSISTANCE SYSTEMS (ASAS) AND COCKPIT DISPLAY OF TRAFFIC INFORMATION (CDTI)
  129. SEP 5.4 CONTROLLER INTERVENTION BUFFER
  130. SEP 5.5 DYNAMIC RECONFIGURATION OF U-SPACE AIRSPACE
  131. Separation Between Departing and Arriving Aircraft – Cut-off Point (CoP)
  132. Separation Between Units Without Procedural Agreement
  133. Separation in Class E Airspace
  134. SICASP/WG2 Meeting
  135. Simultaneous Operations on Intersecting Runways
  136. Simultaneous Operations on Intersecting Runways
  137. Spacing, Separation and Segregation – Use in Future ATM Systems
  138. Study ADS-B Applications – Used in ITP
  139. Study Advanced Offset Procedures
  140. Study Automatic Dependent Surveillance (ADS) to Update IFATCA Provisional Policy
  141. Study Down Link of Traffic Collision Avoidance System Resolution Advisories
  142. Study Land and Hold Short Operations
  143. Study Merging and Sequencing Concepts
  144. Study Recategorization of Aircraft for Wake Turbulence
  145. Study Remote Towers Concept
  146. Study Reporting of TCAS RAs
  147. Study Strategic Lateral Offset Procedure
  148. Study Visual Separation on Approach
  149. Surveillance – Provide an update on ITP
  150. Surveillance Applications Policy – Applications of Radar Monitoring
  151. Surveillance Applications Policy – ASAS
  152. Surveillance Applications Policy – Review Policy on Radar Monitoring
  153. Surveillance Applications Policy – Review Policy on ADS
  154. Technical Aspects of Medium Term Conflict Detection
  155. Terrain and Obstacle Clearance Responsibilities
  156. Terrain Clearance and Airspace Design
  157. The Development of MLS Continues
  158. The Use of GNSS – ATC
  159. The Use of GNSS as a Runway Approach Aid
  160. The Use of Lateral Offsets
  161. The Use of Lateral Offsets
  162. The Use of Non-flight Plannable Levels in the Nat Region for Contingency
  163. The Use of Safety Nets in ATM
  164. Three Main Systems of Flight Level (FL) Determination
  165. TPM Review – ATS Editorials
  166. TPM Review – ATS (Major Edit)
  167. Transfer of Control Functions to Pilots (Legal Aspects)
  168. Transfer of Separation Functions to Pilots – Human Factors Aspects
  169. UAS Flight Rules
  170. UTM (Unmanned Aircraft System (UAS) Traffic Management)
  171. Vertical Spacing Between Controlled and Uncontrolled Aircraft at or near Airspace Boundaries
  172. WC 10.2.9 CO-OPERATIVE SEPARATION
  173. WC 10.7.7 SEPARATION BETWEEN UNITS WITHOUT PROCEDURAL AGREEMENT
  174. Weather Deviation Procedure in Asia-Pacific Region

Last Update: January 28, 2022  

October 27, 2019   1758   superman    WIKI  

Related Knowledge Base Posts -

Comments are closed.

  • Search Knowledgebase