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发表于 2008-12-21 00:23:09 |只看该作者
b. These procedures will be used only at airports with an operating control tower. c. Most approach charts will depict some NAVAID information which is for supplemental navigational guidance only. d. Unless indicating a Class B airspace floor, all depicted altitudes are for noise abatement purposes and are recommended only. Pilots are not prohibited from flying other than recommended altitudes if operational requirements dictate. e. When landmarks used for navigation are not visible at night, the approach will be annotated “PROCEDURE NOT AUTHORIZED AT NIGHT.” f. CVFPs usually begin within 20 flying miles from the airport.

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发表于 2008-12-21 00:23:22 |只看该作者
g. Published weather minimums for CVFPs are based on minimum vectoring altitudes rather than the recommended altitudes depicted on charts. h. CVFPs are not instrument approaches and do not have missed approach segments. i. ATC will not issue clearances for CVFPs when the weather is less than the published minimum. j. ATC will clear aircraft for a CVFP after the pilot reports siting a charted landmark or a preceding aircraft. If instructed to follow a preceding aircraft, pilots are responsible for maintaining a safe approach interval and wake turbulence separation. 7/31/08 AIM AIM 2/14/08 5-4-51 Arrival Procedures k. Pilots should advise ATC if at any point they are unable to continue an approach or lose sight of a preceding aircraft. Missed approaches will be handled as a go-around. 5-4-24. Contact Approach a. Pilots operating in accordance with an IFR flight plan, provided they are clear of clouds and have at least 1 mile flight visibility and can reasonably expect to continue to the destination airport in those conditions, may request ATC authorization for a contact approach. b. Controllers may authorize a contact approach provided: 1. The contact approach is specifically requested by the pilot. ATC cannot initiate this approach. EXAMPLE- Request contact approach. 2. The reported ground visibility at the destination airport is at least 1 statute mile. 3. The contact approach will be made to an airport having a standard or special instrument approach procedure. 4. Approved separation is applied between aircraft so cleared and between these aircraft and other IFR or special VFR aircraft. EXAMPLE- Cleared contact approach (and, if required) at or below (altitude) (routing) if not possible (alternative procedures) and advise. c. A contact approach is an approach procedure that may be used by a pilot (with prior authorization from ATC) in lieu of conducting a standard or special IAP to an airport. It is not intended for use by a pilot on an IFR flight clearance to operate to an airport not having a published and functioning IAP. Nor is it intended for an aircraft to conduct an instrument approach to one airport and then, when “in the clear,” discontinue that approach and proceed to another airport. In the execution of a contact approach, the pilot assumes the responsibility for obstruction clearance. If radar service is being received, it will automatically terminate when the pilot is instructed to change to advisory frequency. 5-4-25. Landing Priority A clearance for a specific type of approach (ILS, MLS, ADF, VOR or Straight-in Approach) to an aircraft operating on an IFR flight plan does not mean that landing priority will be given over other traffic. ATCTs handle all aircraft, regardless of the type of flight plan, on a “first-come, first-served” basis. Therefore, because of local traffic or runway in use, it may be necessary for the controller in the interest of safety, to provide a different landing sequence. In any case, a landing sequence will be issued to each aircraft as soon as possible to enable the pilot to properly adjust the aircraft’s flight path. 5-4-26. Overhead Approach Maneuver a. Pilots operating in accordance with an IFR flight plan in Visual Meteorological Conditions (VMC) may request ATC authorization for an overhead maneuver. An overhead maneuver is not an instrument approach procedure. Overhead maneuver patterns are developed at airports where aircraft have an operational need to conduct the maneuver. An aircraft conducting an overhead maneuver is considered to be VFR and the IFR flight plan is cancelled when the aircraft reaches the initial point on the initial approach portion of the maneuver. (See FIG 5-4-27.) The existence of a standard overhead maneuver pattern does not eliminate the possible requirement for an aircraft to conform to conventional rectangular patterns if an overhead maneuver cannot be approved. Aircraft operating to an airport without a functioning control tower must initiate cancellation of an IFR flight plan prior to executing the overhead maneuver. Cancellation of the IFR flight plan must be accomplished after crossing the landing threshold on the initial portion of the maneuver or after landing. Controllers may authorize an overhead maneuver and issue the following to arriving aircraft: 1. Pattern altitude and direction of traffic. This information may be omitted if either is standard. PHRASEOLOGY- PATTERN ALTITUDE (altitude). RIGHT TURNS. 2. Request for a report on initial approach. PHRASEOLOGY- REPORT INITIAL. 3/15/07 7110.65R CHG 2 AIM 7/31/08 AIM 2/14/5-4-52 Arrival Procedures 3. “Break” information and a request for the pilot to report. The “Break Point” will be specified if nonstandard. Pilots may be requested to report “break” if required for traffic or other reasons. PHRASEOLOGY- BREAK AT (specified point). REPORT BREAK. FIG 5-4-27 Overhead Maneuver 3 - 5 NM X X INITIAL POINT APPROACH INITIAL X ROLL OUT BREAK POINT 180° TURN 180° TURN 3/15/07 7110.65R CHG 2 AIM 7/31/08 AIM 2/14/08 5-5-1 Pilot/Controller Roles and Responsibilities Section 5. Pilot/Controller Roles and Responsibilities 5-5-1. General a. The roles and responsibilities of the pilot and controller for effective participation in the ATC system are contained in several documents. Pilot responsibilities are in the CFRs and the air traffic controllers' are in the FAA Order JO 7110.65, Air_Traffic Control, and supplemental FAA direc- tives. Additional and supplemental information for pilots can be found in the current Aeronautical Information Manual (AIM), Notices to Airmen, Advisory Circulars and aeronautical charts. Since there are many other excellent publications produced by nongovernment organizations, as well as other government organizations, with various updating cycles, questions concerning the latest or most current material can be resolved by cross-checking with the above mentioned documents. b. The pilot-in-command of an aircraft is directly responsible for, and is the final authority as to the safe operation of that aircraft. In an emergency requiring immediate action, the pilot-in-command may deviate from any rule in the General Subpart A and Flight Rules Subpart B in accordance with 14 CFR Section 91.3. c. The air traffic controller is responsible to give first priority to the separation of aircraft and to the issuance of radar safety alerts, second priority to other services that are required, but do not involve separation of aircraft and third priority to additional services to the extent possible. d. In order to maintain a safe and efficient air traffic system, it is necessary that each party fulfill their responsibilities to the fullest. e. The responsibilities of the pilot and the controller intentionally overlap in many areas providing a degree of redundancy. Should one or the other fail in any manner, this overlapping responsi- bility is expected to compensate, in many cases, for failures that may affect safety. f. The following, while not intended to be all inclusive, is a brief listing of pilot and controller responsibilities for some commonly used procedures or phases of flight. More detailed explanations are contained in other portions of this publication, the appropriate CFRs, ACs and similar publications. The information provided is an overview of the principles involved and is not meant as an interpretation of the rules nor is it intended to extend or diminish responsibilities. 5-5-2. Air Traffic Clearance a. Pilot. 1. Acknowledges receipt and understanding of an ATC clearance. 2. Reads back any hold short of runway instructions issued by ATC. 3. Requests clarification or amendment, as appropriate, any time a clearance is not fully understood or considered unacceptable from a safety standpoint. 4. Promptly complies with an air traffic clearance upon receipt except as necessary to cope with an emergency. Advises ATC as soon as possible and obtains an amended clearance, if deviation is necessary. NOTE- A clearance to land means that appropriate separation on the landing runway will be ensured. A landing clearance does not relieve the pilot from compliance with any previously issued altitude crossing restriction. b. Controller. 1. Issues appropriate clearances for the opera- tion to be conducted, or being conducted, in accordance with established criteria. 2. Assigns altitudes in IFR clearances that are at or above the minimum IFR altitudes in controlled airspace. 3. Ensures acknowledgement by the pilot for issued information, clearances, or instructions. 4. Ensures that readbacks by the pilot of altitude, heading, or other items are correct. If incorrect, distorted, or incomplete, makes corrections as appropriate. AIM 2/14/08 5-5-2 Pilot/Controller Roles and Responsibilities 5-5-3. Contact Approach a. Pilot. 1. Must request a contact approach and makes it in lieu of a standard or special instrument approach. 2. By requesting the contact approach, indicates that the flight is operating clear of clouds, has at least one mile flight visibility, and reasonably expects to continue to the destination airport in those conditions. 3. Assumes responsibility for obstruction clear- ance while conducting a contact approach. 4. Advises ATC immediately if unable to continue the contact approach or if encounters less than 1 mile flight visibility. 5. Is aware that if radar service is being received, it may be automatically terminated when told to contact the tower. REFERENCE- Pilot/Controller Glossary Term- Radar Service Terminated. b. Controller. 1. Issues clearance for a contact approach only when requested by the pilot. Does not solicit the use of this procedure. 2. Before issuing the clearance, ascertains that reported ground visibility at destination airport is at least 1 mile. 3. Provides approved separation between the aircraft cleared for a contact approach and other IFR or special VFR aircraft. When using vertical separation, does not assign a fixed altitude, but clears the aircraft at or below an altitude which is at least 1,000 feet below any IFR traffic but not below Minimum Safe Altitudes prescribed in 14 CFR Section 91.119. 4. Issues alternative instructions if, in their judgment, weather conditions may make completion of the approach impracticable. 5-5-4. Instrument Approach a. Pilot. 1. Be aware that the controller issues clearance for approach based only on known traffic. 2. Follows the procedure as shown on the IAP, including all restrictive notations, such as: (a) Procedure not authorized at night; (b) Approach not authorized when local area altimeter not available; (c) Procedure not authorized when control tower not in operation; (d) Procedure not authorized when glide slope not used; (e) Straight-in minimums not authorized at night; etc. (f) Radar required; or (g) The circling minimums published on the instrument approach chart provide adequate obstruc- tion clearance and pilots should not descend below the circling altitude until the aircraft is in a position to make final descent for landing. Sound judgment and knowledge of the pilot's and the aircraft's capabilities are the criteria for determining the exact maneuver in each instance since airport design and the aircraft position, altitude and airspeed must all be considered. REFERENCE- AIM, Approach and Landing Minimums, Paragraph 5-4-20. 3. Upon receipt of an approach clearance while on an unpublished route or being radar vectored: (a) Complies with the minimum altitude for IFR; and (b) Maintains the last assigned altitude until established on a segment of a published route or IAP, at which time published altitudes apply. b. Controller. 1. Issues an approach clearance based on known traffic. 2. Issues an IFR approach clearance only after the aircraft is established on a segment of published route or IAP, or assigns an appropriate altitude for the aircraft to maintain until so established. 5-5-5. Missed Approach a. Pilot. 1. Executes a missed approach when one of the following conditions exist: (a) Arrival at the Missed Approach Point_(MAP) or the Decision Height (DH) and visual reference to the runway environment is insufficient to complete the landing. (b) Determines that a safe approach or landing is not possible (see subparagraph 5-4-21h). AIM 2/14/08 5-5-3 Pilot/Controller Roles and Responsibilities (c) Instructed to do so by ATC. 2. Advises ATC that a missed approach will be made. Include the reason for the missed approach unless the missed approach is initiated by ATC. 3. Complies with the missed approach instruc- tions for the IAP being executed from the MAP, unless other missed approach instructions are specified by ATC. 4. If executing a missed approach prior to reaching the MAP, fly the lateral navigation path of the instrument procedure to the MAP. Climb to the altitude specified in the missed approach procedure, except when a maximum altitude is specified between the final approach fix (FAF) and the MAP. In that case, comply with the maximum altitude restriction. Note, this may require a continued descent on the final approach. 5. Following a missed approach, requests clearance for specific action; i.e., another approach, hold for improved conditions, proceed to an alternate airport, etc. b. Controller. 1. Issues an approved alternate missed approach procedure if it is desired that the pilot execute a procedure other than as depicted on the instrument approach chart. 2. May vector a radar identified aircraft executing a missed approach when operationally advantageous to the pilot or the controller. 3. In response to the pilot's stated intentions, issues a clearance to an alternate airport, to a holding fix, or for reentry into the approach sequence, as traffic conditions permit. 5-5-6. Radar Vectors a. Pilot. 1. Promptly complies with headings and altitudes assigned to you by the controller. 2. Questions any assigned heading or altitude believed to be incorrect. 3. If operating VFR and compliance with any radar vector or altitude would cause a violation of any CFR, advises ATC and obtains a revised clearance or instructions. b. Controller. 1. Vectors aircraft in Class A, Class B, Class C, Class D, and Class E airspace: (a) For separation. (b) For noise abatement. (c) To obtain an operational advantage for the pilot or controller. 2. Vectors aircraft in Class A, Class B, Class C, Class D, Class E, and Class G airspace when requested by the pilot. 3. Vectors IFR aircraft at or above minimum vectoring altitudes. 4. May vector VFR aircraft, not at an ATC assigned altitude, at any altitude. In these cases, terrain separation is the pilot's responsibility. 5-5-7. Safety Alert a. Pilot. 1. Initiates appropriate action if a safety alert is received from ATC. 2. Be aware that this service is not always available and that many factors affect the ability of the controller to be aware of a situation in which unsafe proximity to terrain, obstructions, or another aircraft may be developing. b. Controller. 1. Issues a safety alert if aware an aircraft under their control is at an altitude which, in the controller's judgment, places the aircraft in unsafe proximity to terrain, obstructions or another aircraft. Types of safety alerts are: (a) Terrain or Obstruction Alert. Immedi- ately issued to an aircraft under their control if aware the aircraft is at an altitude believed to place the aircraft in unsafe proximity to terrain or obstructions. (b) Aircraft Conflict Alert. Immediately issued to an aircraft under their control if aware of an aircraft not under their control at an altitude believed to place the aircraft in unsafe proximity to each other. With the alert, they offer the pilot an alternative, if feasible. 2. Discontinue further alerts if informed by the pilot action is being taken to correct the situation or that the other aircraft is in sight. AIM 2/14/08 5-5-4 Pilot/Controller Roles and Responsibilities 5-5-8. See and Avoid a. Pilot. When meteorological conditions permit, regardless of type of flight plan or whether or not under control of a radar facility, the pilot is responsible to see and avoid other traffic, terrain, or obstacles. b. Controller. 1. Provides radar traffic information to radar identified aircraft operating outside positive control airspace on a workload permitting basis. 2. Issues safety alerts to aircraft under their control if aware the aircraft is at an altitude believed to place the aircraft in unsafe proximity to terrain, obstructions, or other aircraft. 5-5-9. Speed Adjustments a. Pilot. 1. Advises ATC any time cruising airspeed varies plus or minus 5 percent or 10 knots, whichever is greater, from that given in the flight plan. 2. Complies with speed adjustments from ATC unless: (a) The minimum or maximum safe airspeed for any particular operation is greater or less than the requested airspeed. In such cases, advises ATC. NOTE- It is the pilot's responsibility and prerogative to refuse speed adjustments considered excessive or contrary to the aircraft's operating specifications. (b) Operating at or above 10,000 feet MSL on an ATC assigned SPEED ADJUSTMENT of more than 250 knots IAS and subsequent clearance is received for descent below 10,000 feet MSL. In such cases, pilots are expected to comply with 14 CFR Section 91.117(a). 3. When complying with speed adjustment assignments, maintains an indicated airspeed within plus or minus 10 knots or 0.02 Mach number of the specified speed. b. Controller. 1. Assigns speed adjustments to aircraft when necessary but not as a substitute for good vectoring technique. 2. Adheres to the restrictions published in the FAAO JO 7110.65, Air Traffic Control, as to when speed adjustment procedures may be applied. 3. Avoids speed adjustments requiring alternate decreases and increases. 4. Assigns speed adjustments to a specified IAS (KNOTS)/Mach number or to increase or decrease speed using increments of 10 knots or multiples thereof. 5. Advises pilots to resume normal speed when speed adjustments are no longer required. 6. Gives due consideration to aircraft capabili- ties to reduce speed while descending. 7. Does not assign speed adjustments to aircraft at or above FL 390 without pilot consent. 5-5-10. Traffic Advisories (Traffic Information) a. Pilot. 1. Acknowledges receipt of traffic advisories. 2. Informs controller if traffic in sight. 3. Advises ATC if a vector to avoid traffic is desired. 4. Does not expect to receive radar traffic advisories on all traffic. Some aircraft may not appear on the radar display. Be aware that the controller may be occupied with higher priority duties and unable to issue traffic information for a variety of reasons. 5. Advises controller if service is not desired. b. Controller. 1. Issues radar traffic to the maximum extent consistent with higher priority duties except in Class_A airspace. 2. Provides vectors to assist aircraft to avoid observed traffic when requested by the pilot. 3. Issues traffic information to aircraft in the Class_B, Class C, and Class D surface areas for sequencing purposes. AIM 2/14/08 5-5-5 Pilot/Controller Roles and Responsibilities 5-5-11. Visual Approach a. Pilot. 1. If a visual approach is not desired, advises ATC. 2. Complies with controller's instructions for vectors toward the airport of intended landing or to a visual position behind a preceding aircraft. 3. The pilot must, at all times, have either the airport or the preceding aircraft in sight. After being cleared for a visual approach, proceed to the airport in a normal manner or follow the preceding aircraft. Remain clear of clouds while conducting a visual approach. 4. If the pilot accepts a visual approach clearance to visually follow a preceding aircraft, you are required to establish a safe landing interval behind the aircraft you were instructed to follow. You are responsible for wake turbulence separation. 5. Advise ATC immediately if the pilot is unable to continue following the preceding aircraft, cannot remain clear of clouds, needs to climb, or loses sight of the airport. 6. Be aware that radar service is automatically terminated, without being advised by ATC, when the pilot is instructed to change to advisory frequency. 7. Be aware that there may be other traffic in the traffic pattern and the landing sequence may differ from the traffic sequence assigned by approach control or ARTCC. b. Controller. 1. Do not clear an aircraft for a visual approach unless reported weather at the airport is ceiling at or above 1,000 feet and visibility is 3 miles or greater. When weather is not available for the destination airport, inform the pilot and do not initiate a visual approach to that airport unless there is reasonable assurance that descent and flight to the airport can be made visually. 2. Issue visual approach clearance when the pilot reports sighting either the airport or a preceding aircraft which is to be followed. 3. Provide separation except when visual separation is being applied by the pilot. 4. Continue flight following and traffic in- formation until the aircraft has landed or has been instructed to change to advisory frequency. 5. Inform the pilot when the preceding aircraft is a heavy. 6. When weather is available for the destination airport, do not initiate a vector for a visual approach unless the reported ceiling at the airport is 500 feet or more above the MVA and visibility is 3 miles or more. If vectoring weather minima are not available but weather at the airport is ceiling at or above 1,000 feet and visibility of 3 miles or greater, visual approaches may still be conducted. 7. Informs the pilot conducting the visual approach of the aircraft class when pertinent traffic is known to be a heavy aircraft. 5-5-12. Visual Separation a. Pilot. 1. Acceptance of instructions to follow another aircraft or to provide visual separation from it is an acknowledgment that the pilot will maneuver the aircraft as necessary to avoid the other aircraft or to maintain in-trail separation. Pilots are responsible to maintain visual separation until flight paths (altitudes and/or courses) diverge. 2. If instructed by ATC to follow another aircraft or to provide visual separation from it, promptly notify the controller if you lose sight of that aircraft, are unable to maintain continued visual contact with it, or cannot accept the responsibility for your own separation for any reason. 3. The pilot also accepts responsibility for wake turbulence separation under these conditions. b. Controller. Applies visual separation only: 1. Within the terminal area when a controller has both aircraft in sight or by instructing a pilot who sees the other aircraft to maintain visual separation from it. 2. Pilots are responsible to maintain visual separation until flight paths (altitudes and/or courses) diverge. 3. Within en route airspace when aircraft are on opposite courses and one pilot reports having seen the other aircraft and that the aircraft have passed each other. AIM 2/14/08 5-5-6 Pilot/Controller Roles and Responsibilities 5-5-13. VFR-on-top a. Pilot. 1. This clearance must be requested by the pilot on an IFR flight plan, and if approved, allows the pilot the choice (subject to any ATC restrictions) to select an altitude or flight level in lieu of an assigned altitude. NOTE- VFR-on-top is not permitted in certain airspace areas, such as Class A airspace, certain restricted areas, etc. Consequently, IFR flights operating VFR-on-top will avoid such airspace. REFERENCE- AIM, IFR Clearance VFR-on-top, Paragraph 4-4-8. AIM, IFR Separation Standards, Paragraph 4-4-11. AIM, Position Reporting, Paragraph 5-3-2. AIM, Additional Reports, Paragraph 5-3-3. 2. By requesting a VFR-on-top clearance, the pilot assumes the sole responsibility to be vigilant so as to see and avoid other aircraft and to: (a) Fly at the appropriate VFR altitude as prescribed in 14 CFR Section 91.159. (b) Comply with the VFR visibility and distance from clouds criteria in 14 CFR Sec- tion_91.155, Basic VFR weather minimums. (c) Comply with instrument flight rules that are applicable to this flight; i.e., minimum IFR altitudes, position reporting, radio communications, course to be flown, adherence to ATC clearance, etc. 3. Should advise ATC prior to any altitude change to ensure the exchange of accurate traffic information. b. Controller. 1. May clear an aircraft to maintain VFR-on-top if the pilot of an aircraft on an IFR flight plan requests the clearance. 2. Informs the pilot of an aircraft cleared to climb to VFR-on-top the reported height of the tops or that no top report is available; issues an alternate clearance if necessary; and once the aircraft reports reaching VFR-on-top, reclears the aircraft to maintain VFR-on-top. 3. Before issuing clearance, ascertain that the aircraft is not in or will not enter Class A airspace. 5-5-14. Instrument Departures a. Pilot. 1. Prior to departure considers the type of terrain and other obstructions on or in the vicinity of the departure airport. 2. Determines if obstruction avoidance can be maintained visually or that the departure procedure should be followed. 3. Determines whether a departure procedure and/or DP is available for obstruction avoidance. 4. At airports where IAPs have not been published, hence no published departure procedure, determines what action will be necessary and takes such action that will assure a safe departure. b. Controller. 1. At locations with airport traffic control service, when necessary, specifies direction of takeoff, turn, or initial heading to be flown after takeoff. 2. At locations without airport traffic control service but within Class E surface area when necessary to specify direction of takeoff, turn, or initial heading to be flown, obtains pilot's concur- rence that the procedure will allow the pilot to comply with local traffic patterns, terrain, and obstruction avoidance. 3. Includes established departure procedures as part of the ATC clearance when pilot compliance is necessary to ensure separation. 5-5-15. Minimum Fuel Advisory a. Pilot. 1. Advise ATC of your minimum fuel status when your fuel supply has reached a state where, upon reaching destination, you cannot accept any undue delay. 2. Be aware this is not an emergency situation, but merely an advisory that indicates an emergency situation is possible should any undue delay occur. 3. On initial contact the term “minimum fuel” should be used after stating call sign. EXAMPLE- Salt Lake Approach, United 621, “minimum fuel.” 4. Be aware a minimum fuel advisory does not imply a need for traffic priority. AIM 2/14/08 5-5-7 Pilot/Controller Roles and Responsibilities 5. If the remaining usable fuel supply suggests the need for traffic priority to ensure a safe landing, you should declare an emergency due to low fuel and report fuel remaining in minutes. REFERENCE- Pilot/Controller Glossary Item- Fuel Remaining. b. Controller. 1. When an aircraft declares a state of minimum fuel, relay this information to the facility to whom control jurisdiction is transferred. 2. Be alert for any occurrence which might delay the aircraft. 5-5-16. RNAV and RNP Operations a. Pilot. 1. If unable to comply with the requirements of an RNAV or RNP procedure, pilots must advise air traffic control as soon as possible. For example, “N1234, failure of GPS system, unable RNAV, request amended clearance.” 2. Pilots are not authorized to fly a published RNAV or RNP procedure (instrument approach, departure, or arrival procedure) unless it is retrievable by the procedure name from the aircraft navigation database and conforms to the charted procedure. 3. Whenever possible, RNAV routes (Q- or T-route) should be extracted from the database in their entirety, rather than loading RNAV route waypoints from the database into the flight plan individually. However, selecting and inserting individual, named fixes from the database is permitted, provided all fixes along the published route to be flown are inserted.

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发表于 2008-12-21 00:23:43 |只看该作者
4. Pilots must not change any database waypoint type from a fly-by to fly-over, or vice versa. No other modification of database waypoints or the creation of user-defined waypoints on published RNAV or RNP procedures is permitted, except to: (a) Change altitude and/or airspeed waypoint constraints to comply with an ATC clearance/ instruction. (b) Insert a waypoint along the published route to assist in complying with ATC instruction, example, “Descend via the WILMS arrival except cross 30 north of BRUCE at/or below FL 210.” This is limited only to systems that allow along-track waypoint construction. 5. Pilots of FMS-equipped aircraft, who are assigned an RNAV DP or STAR procedure and subsequently receive a change of runway, transition or procedure, shall verify that the appropriate changes are loaded and available for navigation. 6. For RNAV_1 DPs and STARs, pilots must use a CDI, flight director and/or autopilot, in lateral navigation mode. Other methods providing an equivalent level of performance may also be acceptable. 7. For RNAV_1 DPs and STARs, pilots of aircraft without GPS, using DME/DME/IRU, must ensure the aircraft navigation system position is confirmed, within 1,000 feet, at the start point of take-off roll. The use of an automatic or manual runway update is an acceptable means of compliance with this requirement. Other methods providing an equivalent level of performance may also be acceptable. 8. For procedures or routes requiring the use of GPS, if the navigation system does not automatically alert the flight crew of a loss of GPS, the operator must develop procedures to verify correct GPS operation. 9. RNAV terminal procedures (DP and STAR) may be amended by ATC issuing radar vectors and/or clearances direct to a waypoint. Pilots should avoid premature manual deletion of waypoints from their active “legs” page to allow for rejoining procedures. AIM 2/14/08 5-6-1 National Security and Interception Procedures Section 6. National Security and Interception Procedures 5-6-1. National Security a. National security in the control of air traffic is governed by 14 CFR Part 99. b. All aircraft entering domestic U.S. airspace from points outside must provide for identification prior to entry. To facilitate early aircraft identification of all aircraft in the vicinity of U.S. and international airspace boundaries, Air Defense Identification Zones (ADIZ) have been established. REFERENCE- AIM, ADIZ Boundaries and Designated Mountainous Areas, Paragraph 5-6-5. c. Operational requirements for aircraft oper- ations associated with an ADIZ are as follows: 1. Flight Plan. Except as specified in subpara- graphs d and e below, an IFR or DVFR flight plan must be filed with an appropriate aeronautical facility as follows: (a) Generally, for all operations that enter an ADIZ. (b) For operations that will enter or exit the U.S. and which will operate into, within or across the Contiguous U.S. ADIZ regardless of true airspeed. (c) The flight plan must be filed before departure except for operations associated with the Alaskan ADIZ when the airport of departure has no facility for filing a flight plan, in which case the flight plan may be filed immediately after takeoff or when within range of the aeronautical facility. 2. Two-way Radio. For the majority of opera- tions associated with an ADIZ, an operating two-way radio is required. See 14 CFR Section 99.1 for exceptions. 3. Transponder Requirements. Unless other- wise authorized by ATC, each aircraft conducting operations into, within, or across the Contiguous U.S. ADIZ must be equipped with an operable radar beacon transponder having altitude reporting capa- bility (Mode_C), and that transponder must be turned on and set to reply on the appropriate code or as assigned by ATC. 4. Position Reporting. (a) For IFR flight. Normal IFR position reporting. (b) For DVFR flights. The estimated time of ADIZ penetration must be filed with the aeronautical facility at least 15 minutes prior to penetration except for flight in the Alaskan ADIZ, in which case report prior to penetration. (c) For inbound aircraft of foreign regis- try. The pilot must report to the aeronautical facility at least one hour prior to ADIZ penetration. 5. Aircraft Position Tolerances. (a) Over land, the tolerance is within plus or minus five minutes from the estimated time over a reporting point or point of penetration and within 10_NM from the centerline of an intended track over an estimated reporting point or penetration point. (b) Over water, the tolerance is plus or minus five minutes from the estimated time over a reporting point or point of penetration and within 20 NM from the centerline of the intended track over an estimated reporting point or point of penetration (to include the Aleutian Islands). 6. Land-Based ADIZ. Land-Based ADIZ are activated and deactivated over U.S. metropolitan areas as needed, with dimensions, activation dates and other relevant information disseminated via NOTAM. (a) In addition to requirements outlined in subparagraphs c1 through c3, pilots operating within a Land-Based ADIZ must report landing or leaving the Land-Based ADIZ if flying too low for radar coverage. (b) Pilots unable to comply with all require- ments shall remain clear of Land-Based ADIZ. Pilots entering a Land-Based ADIZ without authorization or who fail to follow all requirements risk interception by military fighter aircraft. AIM 2/14/08 5-6-2 National Security and Interception Procedures d. Except when applicable under 14 CFR Section_99.7, 14 CFR Part 99 does not apply to aircraft operations: 1. Within the 48 contiguous states and the District of Columbia, or within the State of Alaska, and remains within 10 miles of the point of departure; 2. Over any island, or within three nautical miles of the coastline of any island, in the Hawaii ADIZ; or 3. Associated with any ADIZ other than the Contiguous U.S. ADIZ, when the aircraft true airspeed is less than 180 knots. e. Authorizations to deviate from the requirements of Part 99 may also be granted by the ARTCC, on a local basis, for some operations associated with an ADIZ. f. An airfiled VFR Flight Plan makes an aircraft subject to interception for positive identification when entering an ADIZ. Pilots are, therefore, urged to file the required DVFR flight plan either in person or by telephone prior to departure. g. Special Security Instructions. 1. During defense emergency or air defense emergency conditions, additional special security instructions may be issued in accordance with the Security Control of Air Traffic and Air Navigation Aids (SCATANA) Plan. 2. Under the provisions of the SCATANA Plan, the military will direct the action to be taken-in regard to landing, grounding, diversion, or dispersal of aircraft and the control of air navigation aids in the defense of the U.S. during emergency conditions. 3. At the time a portion or all of SCATANA is implemented, ATC facilities will broadcast appropri- ate instructions received from the military over available ATC frequencies. Depending on instruc- tions received from the military, VFR flights may be directed to land at the nearest available airport, and IFR flights will be expected to proceed as directed by ATC. 4. Pilots on the ground may be required to file a flight plan and obtain an approval (through FAA) prior to conducting flight operation. 5. In view of the above, all pilots should guard an ATC or FSS frequency at all times while conducting flight operations. 5-6-2. Interception Procedures a. General. 1. Identification intercepts during peacetime operations are vastly different than those conducted under increased states of readiness. Unless otherwise directed by the control agency, intercepted aircraft will be identified by type only. When specific information is required (i.e., markings, serial numbers, etc.) the interceptor aircrew will respond only if the request can be conducted in a safe manner. During hours of darkness or Instrument Meteorologi- cal Conditions (IMC), identification of unknown aircraft will be by type only. The interception pattern described below is the typical peacetime method used by air interceptor aircrews. In all situations, the interceptor aircrew will use caution to avoid startling the intercepted aircrew and/or passengers. 2. All aircraft operating in the U.S. national airspace, if capable, will maintain a listening watch on VHF guard 121.5 or UHF 243.0. It is incumbent on all aviators to know and understand their responsibilities if intercepted. Additionally, if the U.S. military intercepts an aircraft and flares are dispensed in the area of that aircraft, aviators will pay strict attention, contact air traffic control immediately on the local frequency or on VHF guard 121.5 or UHF_243.0 and follow the intercept's visual ICAO signals. Be advised that noncompliance may result in the use of force. b. Intercept phases (See FIG 5-6-1). 1. Phase One- Approach Phase. During peacetime, intercepted aircraft will be approached from the stern. Generally two interceptor aircraft will be employed to accomplish the identification. The flight leader and wingman will coordinate their individual positions in conjunction with the ground controlling agency. Their relation- ship will resemble a line abreast formation. At night or in IMC, a comfortable radar trail tactic will be used. Safe vertical separation between interceptor aircraft and unknown aircraft will be maintained at all times. AIM 2/14/08 5-6-3 National Security and Interception Procedures FIG 5-6-1 Interception Procedures PATTERNS FOR IDENTIFICATION OF (TYPICAL) INTERCEPTION INTERCEPTED AIRCRAFT IDENTIFICATION PHASE APPROACH PHASE (DAY) POST INTERCEPT PHASE INTERCEPTORS TRANSPORT WINGMAN FLIGHT LEAD During Night/IMC, will be below flight path. Note: approach from 2. Phase Two- Identification Phase. The intercepted aircraft should expect to visually acquire the lead interceptor and possibly the wingman during this phase in visual meteorological conditions (VMC). The wingman will assume a surveillance position while the flight leader approaches the unknown aircraft. Intercepted aircraft personnel may observe the use of different drag devices to allow for speed and position stabilization during this phase. The flight leader will then initiate a gentle closure toward the intercepted aircraft, stopping at a distance no closer than absolutely necessary to obtain the information needed. The interceptor aircraft will use every possible precaution to avoid startling intercepted aircrew or passengers. Additionally, the interceptor aircrews will constantly keep in mind that maneuvers considered normal to a fighter aircraft may be considered hazardous to passengers and crews of nonfighter aircraft. When interceptor aircrews know or believe that an unsafe condition exists, the identification phase will be terminated. As previously stated, during darkness or IMC identification of unknown aircraft will be by type only. Positive vertical separation will be maintained by interceptor aircraft throughout this phase. 3. Phase Three- Post Intercept Phase. Upon identification phase completion, the flight leader will turn away from the intercepted aircraft. The wingman will remain well clear and accomplish a rejoin with the leader. AIM 2/14/08 5-6-4 National Security and Interception Procedures c. Communication interface between interceptor aircrews and the ground controlling agency is essential to ensure successful intercept completion. Flight Safety is paramount. An aircraft which is intercepted by another aircraft shall immediately: 1. Follow the instructions given by the intercepting aircraft, interpreting and responding to the visual signals. 2. Notify, if possible, the appropriate air traffic services unit. 3. Attempt to establish radio communication with the intercepting aircraft or with the appropriate intercept control unit, by making a general call on the emergency frequency 243.0 MHz and repeating this call on the emergency frequency 121.5 MHz, if practicable, giving the identity and position of the aircraft and the nature of the flight. 4. If equipped with SSR transponder, select Mode 3/A Code 7700, unless otherwise instructed by the appropriate air traffic services unit. If any instructions received by radio from any sources conflict with those given by the intercepting aircraft by visual or radio signals, the intercepted aircraft shall request immediate clarification while continu- ing to comply with the instructions given by the intercepting aircraft. 5-6-3. Law Enforcement Operations by Civil and Military Organizations a. Special law enforcement operations. 1. Special law enforcement operations include in-flight identification, surveillance, interdiction, and pursuit activities performed in accordance with official civil and/or military mission responsibilities. 2. To facilitate accomplishment of these special missions, exemptions from specified sections of the CFRs have been granted to designated departments and agencies. However, it is each organization's responsibility to apprise ATC of their intent to operate under an authorized exemption before initiating actual operations. 3. Additionally, some departments and agencies that perform special missions have been assigned coded identifiers to permit them to apprise ATC of ongoing mission activities and solicit special air_traffic assistance. AIM 2/14/08 5-6-5 National Security and Interception Procedures 5-6-4. Interception Signals TBL 5-6-1 and TBL 5-6-2. TBL 5-6-1 Intercepting Signals INTERCEPTING SIGNALS Signals initiated by intercepting aircraft and responses by intercepted aircraft (as set forth in ICAO Annex 2-Appendix 1, 2.1) Series INTERCEPTING Aircraft Signals Meaning INTERCEPTED Aircraft Responds Meaning 1 DAY-Rocking wings from a position slightly above and ahead of, and normally to the left of, the intercepted aircraft and, after acknowledgement, a slow level turn, normally to the left, on to the desired heading. NIGHT-Same and, in addition, flashing navigational lights at irregular intervals. NOTE 1-Meteorological conditions or terrain may require the intercepting aircraft to take up a position slightly above and ahead of, and to the right of, the intercepted aircraft and to make the subsequent turn to the right. NOTE 2-If the intercepted aircraft is not able to keep pace with the intercepting aircraft, the latter is expected to fly a series of race-track patterns and to rock its wings each time it passes the intercepted aircraft. You have been intercepted. Follow me. AEROPLANES: DAY-Rocking wings and following. NIGHT-Same and, in addition, flashing navigational lights at irregular intervals. HELICOPTERS: DAY or NIGHT-Rocking aircraft, flashing navigational lights at irregular intervals and following. Understood, will comply. 2 DAY or NIGHT-An abrupt break-away maneuver from the intercepted aircraft consisting of a climbing turn of 90 degrees or more without crossing the line of flight of the intercepted aircraft. You may proceed. AEROPLANES: DAY or NIGHT-Rocking wings. HELICOPTERS: DAY or NIGHT-Rocking aircraft. Understood, will comply. 3 DAY-Circling aerodrome, lowering land- ing gear and overflying runway in direction of landing or, if the intercepted aircraft is a helicopter, overflying the helicopter land- ing area. NIGHT-Same and, in addition, showing steady landing lights. Land at this aerodrome. AEROPLANES: DAY-Lowering landing gear, following the intercepting aircraft and, if after overflying the runway landing is consid- ered safe, proceeding to land. NIGHT-Same and, in addition, showing steady landing lights (if carried). HELICOPTERS: DAY or NIGHT-Following the intercepting aircraft and proceeding to land, showing a steady landing light (if carried). Understood, will comply. AIM 2/14/08 5-6-6 National Security and Interception Procedures TBL 5-6-2 Intercepting Signals INTERCEPTING SIGNALS Signals and Responses During Aircraft Intercept Signals initiated by intercepted aircraft and responses by intercepting aircraft (as set forth in ICAO Annex 2-Appendix 1, 2.2) Series INTERCEPTED Aircraft Signals Meaning INTERCEPTING Aircraft Responds Meaning 4 DAY or NIGHT-Raising landing gear (if fitted) and flashing landing lights while passing over runway in use or helicopter landing area at a height exceeding 300m (1,000 ft) but not exceeding 600m (2,000_ft) (in the case of a helicopter, at a height exceeding 50m (170 ft) but not exceeding 100m (330 ft) above the aerodrome level, and continuing to circle runway in use or helicopter landing area. If unable to flash landing lights, flash any other lights available. Aerodrome you have designated is inadequate. DAY or NIGHT-If it is desired that the intercepted aircraft follow the intercepting aircraft to an alternate aerodrome, the intercepting aircraft raises its landing gear (if fitted) and uses the Series 1 signals prescribed for intercepting aircraft. If it is decided to release the intercepted aircraft, the intercepting aircraft uses the Series 2 signals prescribed for intercepting aircraft. Understood, follow me. Understood, you may proceed. 5 DAY or NIGHT-Regular switching on and off of all available lights but in such a manner as to be distinct from flashing lights. Cannot comply. DAY or NIGHT-Use Series 2 signals prescribed for intercepting aircraft. Understood. 6 DAY or NIGHT-Irregular flashing of all available lights. In distress. DAY or NIGHT-Use Series 2 signals prescribed for intercepting aircraft. Understood. AIM 2/14/08 5-6-7 National Security and Interception Procedures 5-6-5. ADIZ Boundaries and Designated Mountainous Areas (See FIG 5-6-2.) FIG 5-6-2 Air Defense Identification Zone Boundaries Designated Mountainous Areas .................................. ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... .. .. . .. .. ............................................... .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................... ............. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ........................... ... ........... AIM 2/14/08 6-1-1 General Chapter 6. Emergency Procedures Section 1. General 6-1-1. Pilot Responsibility and Authority a. The pilot-in-command of an aircraft is directly responsible for and is the final authority as to the operation of that aircraft. In an emergency requiring immediate action, the pilot-in-command may deviate from any rule in 14 CFR Part 91, Subpart A, General, and Subpart B, Flight Rules, to the extent required to meet that emergency. REFERENCE14 CFR Section 91.3(b). b. If the emergency authority of 14 CFR Section_91.3(b) is used to deviate from the provisions of an ATC clearance, the pilot-in-command must notify ATC as soon as possible and obtain an amended clearance. c. Unless deviation is necessary under the emergency authority of 14 CFR Section 91.3, pilots of IFR flights experiencing two-way radio commu- nications failure are expected to adhere to the procedures prescribed under “IFR operations, two-way radio communications failure.” REFERENCE14 CFR Section 91.185. 6-1-2. Emergency Condition- Request Assistance Immediately a. An emergency can be either a distress or urgency condition as defined in the Pilot/Controller Glossary. Pilots do not hesitate to declare an emergency when they are faced with distress conditions such as fire, mechanical failure, or structural damage. However, some are reluctant to report an urgency condition when they encounter situations which may not be immediately perilous, but are potentially catastrophic. An aircraft is in at least an urgency condition the moment the pilot becomes doubtful about position, fuel endurance, weather, or any other condition that could adversely affect flight safety. This is the time to ask for help, not after the situation has developed into a distress condition. b. Pilots who become apprehensive for their safety for any reason should request assistance immediately. Ready and willing help is available in the form of radio, radar, direction finding stations and other aircraft. Delay has caused accidents and cost lives. Safety is not a luxury! Take action! AIM 2/14/08 6-2-1 Emergency Services Available to Pilots Section 2. Emergency Services Available to Pilots 6-2-1. Radar Service for VFR Aircraft in Difficulty a. Radar equipped ATC facilities can provide radar assistance and navigation service (vectors) to VFR aircraft in difficulty when the pilot can talk with the controller, and the aircraft is within radar coverage. Pilots should clearly understand that authorization to proceed in accordance with such radar navigational assistance does not constitute authorization for the pilot to violate CFRs. In effect, assistance is provided on the basis that navigational guidance information is advisory in nature, and the responsibility for flying the aircraft safely remains with the pilot. b. Experience has shown that many pilots who are not qualified for instrument flight cannot maintain control of their aircraft when they encounter clouds or other reduced visibility conditions. In many cases, the controller will not know whether flight into instrument conditions will result from ATC instruc- tions. To avoid possible hazards resulting from being vectored into IFR conditions, a pilot in difficulty should keep the controller advised of the current weather conditions being encountered and the weather along the course ahead and observe the following: 1. If a course of action is available which will permit flight and a safe landing in VFR weather conditions, noninstrument rated pilots should choose the VFR condition rather than requesting a vector or approach that will take them into IFR weather conditions; or 2. If continued flight in VFR conditions is not possible, the noninstrument rated pilot should so advise the controller and indicating the lack of an instrument rating, declare a distress condition; or 3. If the pilot is instrument rated and current, and the aircraft is instrument equipped, the pilot should so indicate by requesting an IFR flight clearance. Assistance will then be provided on the basis that the aircraft can operate safely in IFR weather conditions. 6-2-2. Transponder Emergency Operation a. When a distress or urgency condition is encountered, the pilot of an aircraft with a coded radar beacon transponder, who desires to alert a ground radar facility, should squawk Mode 3/A, Code_7700/Emergency and Mode C altitude report- ing and then immediately establish communications with the ATC facility. b. Radar facilities are equipped so that Code 7700 normally triggers an alarm or special indicator at all control positions. Pilots should understand that they might not be within a radar coverage area. Therefore, they should continue squawking Code 7700 and establish radio communications as soon as possible. 6-2-3. Direction Finding Instrument Approach Procedure a. Direction Finder (DF) equipment has long been used to locate lost aircraft and to guide aircraft to areas of good weather or to airports. Now at most DF equipped airports, DF instrument approaches may be given to aircraft in a distress or urgency condition. b. Experience has shown that most emergencies requiring DF assistance involve pilots with little flight experience. With this in mind, DF approach procedures provide maximum flight stability in the approach by using small turns, and wings-level descents. The DF specialist will give the pilot headings to fly and tell the pilot when to begin descent. c. DF IAPs are for emergency use only and will not be used in IFR weather conditions unless the pilot has declared a distress or urgency condition. d. To become familiar with the procedures and other benefits of DF, pilots are urged to request practice DF guidance and approaches in VFR weather conditions. DF specialists welcome the practice and will honor such requests, workload permitting. AIM 2/14/08 6-2-2 Emergency Services Available to Pilots 6-2-4. Intercept and Escort a. The concept of airborne intercept and escort is based on the Search and Rescue (SAR) aircraft establishing visual and/or electronic contact with an aircraft in difficulty, providing in-flight assistance, and escorting it to a safe landing. If bailout, crash landing or ditching becomes necessary, SAR operations can be conducted without delay. For most incidents, particularly those occurring at night and/or during instrument flight conditions, the availability of intercept and escort services will depend on the proximity of SAR units with suitable aircraft on alert for immediate dispatch. In limited circumstances, other aircraft flying in the vicinity of an aircraft in difficulty can provide these services. b. If specifically requested by a pilot in difficulty or if a distress condition is declared, SAR coordinators will take steps to intercept and escort an aircraft. Steps may be initiated for intercept and escort if an urgency condition is declared and unusual circumstances make such action advisable. c. It is the pilot's prerogative to refuse intercept and escort services. Escort services will normally be provided to the nearest adequate airport. Should the pilot receiving escort services continue onto another location after reaching a safe airport, or decide not to divert to the nearest safe airport, the escort aircraft is not obligated to continue and further escort is discretionary. The decision will depend on the circumstances of the individual incident. 6-2-5. Emergency Locator Transmitter (ELT) a. General. 1. ELTs are required for most General Aviation airplanes. REFERENCE14 CFR SECTION 91.207. 2. ELTs of various types were developed as a means of locating downed aircraft. These electronic, battery operated transmitters operate on one of three frequencies. These operating frequencies are 121.5_MHz, 243.0 MHz, and the newer 406 MHz. ELTs operating on 121.5 MHz and 243.0 MHz are analog devices. The newer 406 MHz ELT is a digital transmitter that can be encoded with the owner's contact information or aircraft data. The latest 406_MHz ELT models can also be encoded with the aircraft's position data which can help SAR forces locate the aircraft much more quickly after a crash. The 406 MHz ELTs also transmits a stronger signal when activated than the older 121.5 MHz ELTs. (a) The Federal Communications Commis- sion (FCC) requires 406 MHz ELTs be registered with the National Oceanic and Atmospheric Administration (NOAA) as outlined in the ELTs documentation. The FAA's 406 MHz ELT Technical Standard Order (TSO) TSO-C126 also requires that each 406 MHz ELT be registered with NOAA. The reason is NOAA maintains the owner registration database for U.S. registered 406 MHz alerting devices, which includes ELTs. NOAA also operates the United States' portion of the Cospas-Sarsat satellite distress alerting system designed to detect activated ELTs and other distress alerting devices. (b) In the event that a properly registered 406_MHz ELT activates, the Cospas-Sarsat satellite system can decode the owner's information and provide that data to the appropriate search and rescue_(SAR) center. In the United States, NOAA provides the alert data to the appropriate U.S. Air Force Rescue Coordination Center (RCC) or U.S. Coast Guard Rescue Coordination Center. That RCC can then telephone or contact the owner to verify the status of the aircraft. If the aircraft is safely secured in a hangar, a costly ground or airborne search is avoided. In the case of an inadvertent 406 MHz ELT activation, the owner can deactivate the 406 MHz ELT. If the 406 MHz ELT equipped aircraft is being flown, the RCC can quickly activate a search. 406_MHz ELTs permit the Cospas-Sarsat satellite system to narrow the search area to a more confined area compared to that of a 121.5 MHz or 243.0 MHz ELT. 406 MHz ELTs also include a low-power 121.5_MHz homing transmitter to aid searchers in finding the aircraft in the terminal search phase. (c) Each analog ELT emits a distinctive downward swept audio tone on 121.5 MHz and 243.0_MHz. (d) If “armed” and when subject to crashgenerated forces, ELTs are designed to automatically activate and continuously emit their respective signals, analog or digital. The transmitters will operate continuously for at least 48 hours over a wide temperature range. A properly installed, maintained, and functioning ELT can expedite search and rescue AIM 2/14/08 6-2-3 Emergency Services Available to Pilots operations and save lives if it survives the crash and is activated. (e) Pilots and their passengers should know how to activate the aircraft's ELT if manual activation is required. They should also be able to verify the aircraft's ELT is functioning and transmitting an alert after a crash or manual activation. (f) Because of the large number of 121.5 MHz ELT false alerts and the lack of a quick means of verifying the actual status of an activated 121.5 MHz or 243.0 MHz analog ELT through an owner registration database, U.S. SAR forces do not respond as quickly to initial 121.5/243.0 MHz ELT alerts as the SAR forces do to 406 MHz ELT alerts. Compared to the almost instantaneous detection of a 406 MHz ELT, SAR forces' normal practice is to wait for either a confirmation of a 121.5/243.0 MHz alert by additional satellite passes or through confirmation of an overdue aircraft or similar notification. In some cases, this confirmation process can take hours. SAR forces can initiate a response to 406 MHz alerts in minutes compared to the potential delay of hours for a 121.5/243.0 MHz ELT. 3. The Cospas-Sarsat system has announced the termination of satellite monitoring and reception of the 121.5 MHz and 243.0 MHz frequencies in 2009. The Cospas-Sarsat system will continue to monitor the 406 MHz frequency. What this means for pilots is that after the termination date, those aircraft with only 121.5 MHz or 243.0 MHz ELT's onboard will have to depend upon either a nearby Air Traffic Control facility receiving the alert signal or an overflying aircraft monitoring 121.5 MHz or 243.0_MHz detecting the alert. To ensure adequate monitoring of these frequencies and timely alerts after 2009, all airborne pilots should periodically monitor these frequencies to try and detect an activated 121.5/243.0_MHz ELT.

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b. Testing. 1. ELTs should be tested in accordance with the manufacturer's instructions, preferably in a shielded or screened room or specially designed test container to prevent the broadcast of signals which could trigger a false alert. 2. When this cannot be done, aircraft operation- al testing is authorized as follows: (a) Analog 121.5/243 MHz ELTs should only be tested during the first 5 minutes after any hour. If operational tests must be made outside of this period, they should be coordinated with the nearest FAA Control Tower or FSS. Tests should be no longer than three audible sweeps. If the antenna is removable, a dummy load should be substituted during test procedures. (b) Digital 406 MHz ELTs should only be tested in accordance with the unit's manufacturer's instructions. (c) Airborne tests are not authorized. c. False Alarms. 1. Caution should be exercised to prevent the inadvertent activation of ELTs in the air or while they are being handled on the ground. Accidental or unauthorized activation will generate an emergency signal that cannot be distinguished from the real thing, leading to expensive and frustrating searches. A false ELT signal could also interfere with genuine emergency transmissions and hinder or prevent the timely location of crash sites. Frequent false alarms could also result in complacency and decrease the vigorous reaction that must be attached to all ELT signals. 2. Numerous cases of inadvertent activation have occurred as a result of aerobatics, hard landings, movement by ground crews and aircraft mainte- nance. These false alarms can be minimized by monitoring 121.5 MHz and/or 243.0 MHz as follows: (a) In flight when a receiver is available. (b) Before engine shut down at the end of each flight. (c) When the ELT is handled during installa- tion or maintenance. (d) When maintenance is being performed near the ELT. (e) When a ground crew moves the aircraft. (f) If an ELT signal is heard, turn off the aircraft's ELT to determine if it is transmitting. If it has been activated, maintenance might be required before the unit is returned to the “ARMED” position. You should contact the nearest Air Traffic facility and notify it of the inadvertent activation. AIM 2/14/08 6-2-4 Emergency Services Available to Pilots d. Inflight Monitoring and Reporting. 1. Pilots are encouraged to monitor 121.5 MHz and/or 243.0 MHz while inflight to assist in identifying possible emergency ELT transmissions. On receiving a signal, report the following information to the nearest air traffic facility: (a) Your position at the time the signal was first heard. (b) Your position at the time the signal was last heard. (c) Your position at maximum signal strength. (d) Your flight altitudes and frequency on which the emergency signal was heard: 121.5 MHz or 243.0 MHz. If possible, positions should be given relative to a navigation aid. If the aircraft has homing equipment, provide the bearing to the emergency signal with each reported position. 6-2-6. FAA K-9 Explosives Detection Team Program a. The FAA's Office of Civil Aviation Security Operations manages the FAA K-9 Explosives Detection Team Program which was established in 1972. Through a unique agreement with law enforcement agencies and airport authorities, the FAA has strategically placed FAA-certified K-9 teams (a team is one handler and one dog) at airports throughout the country. If a bomb threat is received while an aircraft is in flight, the aircraft can be directed to an airport with this capability. The FAA provides initial and refresher training for all handlers, provides single purpose explosive detector dogs, and requires that each team is annually evaluated in five areas for FAA certification: aircraft (widebody and narrowbody), vehicles, terminal, freight (cargo), and luggage. If you desire this service, notify your company or an FAA air traffic control facility. b. The following list shows the locations of current FAA K-9 teams: TBL 6-2-1 FAA Sponsored Explosives Detection Dog/Handler Team Locations Airport Symbol Location ATL Atlanta, Georgia BHM Birmingham, Alabama BOS Boston, Massachusetts BUF Buffalo, New York CLT Charlotte, North Carolina ORD Chicago, Illinois CVG Cincinnati, Ohio DFW Dallas, Texas DEN Denver, Colorado DTW Detroit, Michigan IAH Houston, Texas JAX Jacksonville, Florida MCI Kansas City, Missouri LAX Los Angeles, California MEM Memphis, Tennessee MIA Miami, Florida MKE Milwaukee, Wisconsin MSY New Orleans, Louisiana MCO Orlando, Florida PHX Phoenix, Arizona PIT Pittsburgh, Pennsylvania PDX Portland, Oregon SLC Salt Lake City, Utah SFO San Francisco, California SJU San Juan, Puerto Rico SEA Seattle, Washington STL St. Louis, Missouri TUS Tucson, Arizona TUL Tulsa, Oklahoma c. If due to weather or other considerations an aircraft with a suspected hidden explosive problem were to land or intended to land at an airport other than those listed in b above, it is recommended that they call the FAA's Washington Operations Center (telephone 202-267-3333, if appropriate) or have an air traffic facility with which you can communicate contact the above center requesting assistance. AIM 2/14/08 6-2-5 Emergency Services Available to Pilots 6-2-7. Search and Rescue a. General. SAR is a lifesaving service provided through the combined efforts of the federal agencies signatory to the National SAR Plan, and the agencies responsible for SAR within each state. Operational resources are provided by the U.S. Coast Guard, DOD components, the Civil Air Patrol, the Coast Guard Auxiliary, state, county and local law enforcement and other public safety agencies, and private volunteer organizations. Services include search for missing aircraft, survival aid, rescue, and emergency medical help for the occupants after an accident site is located. b. National Search and Rescue Plan. By federal interagency agreement, the National Search and Rescue Plan provides for the effective use of all available facilities in all types of SAR missions. These facilities include aircraft, vessels, pararescue and ground rescue teams, and emergency radio fixing. Under the plan, the U.S. Coast Guard is responsible for the coordination of SAR in the Maritime Region, and the USAF is responsible in the Inland Region. To carry out these responsibilities, the Coast Guard and the Air Force have established Rescue Coordination Centers (RCCs) to direct SAR activities within their regions. For aircraft emergen- cies, distress, and urgency, information normally will be passed to the appropriate RCC through an ARTCC or FSS. c. Coast Guard Rescue Coordination Centers. (See TBL 6-2-2.) TBL 6-2-2 Coast Guard Rescue Coordination Centers Coast Guard Rescue Coordination Centers Alameda, CA 510-437-3701 Miami, FL 305-415-6800 Boston, MA 617-223-8555 New Orleans, LA 504-589-6225 Cleveland, OH 216-902-6117 Portsmouth, VA 757-398-6390 Honolulu, HI 808-541-2500 Seattle, WA 206-220-7001 Juneau, AK 907-463-2000 San Juan, PR 787-289-2042 d. Air Force Rescue Coordination Centers. (See TBL 6-2-3 and TBL 6-2-4.) TBL 6-2-3 Air Force Rescue Coordination Center 48 Contiguous States Air Force Rescue Coordination Center Tyndall AFB, Florida Phone Commercial 850-283-5955 WATS 800-851-3051 DSN 523-5955 TBL 6-2-4 Air Command Rescue Coordination Center Alaska Alaskan Air Command Rescue Coordination Center Fort Richardson, Alaska Phone Commercial 907-428-7230 800-420-7230 (outside Anchorage) DSN 317-384-6726 e. Joint Rescue Coordination Center. (See TBL 6-2-5.) TBL 6-2-5 Joint Rescue Coordination Center Hawaii Honolulu Joint Rescue Coordination Center HQ 14th CG District Honolulu Phone Commercial 808-541-2500 DSN 448-0301 f. Emergency and Overdue Aircraft. 1. ARTCCs and FSSs will alert the SAR system when information is received from any source that an aircraft is in difficulty, overdue, or missing. (a) Radar facilities providing radar flight following or advisories consider the loss of radar and radios, without service termination notice, to be a possible emergency. Pilots receiving VFR services from radar facilities should be aware that SAR may be initiated under these circumstances. (b) A filed flight plan is the most timely and effective indicator that an aircraft is overdue. Flight plan information is invaluable to SAR forces for search planning and executing search efforts. AIM 2/14/08 6-2-6 Emergency Services Available to Pilots 2. Prior to departure on every flight, local or otherwise, someone at the departure point should be advised of your destination and route of flight if other than direct. Search efforts are often wasted and rescue is often delayed because of pilots who thoughtlessly takeoff without telling anyone where they are going. File a flight plan for your safety. 3. According to the National Search and Rescue Plan, “The life expectancy of an injured survivor decreases as much as 80 percent during the first 24_hours, while the chances of survival of uninjured survivors rapidly diminishes after the first 3 days.” 4. An Air Force Review of 325 SAR missions conducted during a 23-month period revealed that “Time works against people who experience a distress but are not on a flight plan, since 36 hours normally pass before family concern initiates an (alert).” g. VFR Search and Rescue Protection. 1. To receive this valuable protection, file a VFR or DVFR Flight Plan with an FAA FSS. For maximum protection, file only to the point of first intended landing, and refile for each leg to final destination. When a lengthy flight plan is filed, with several stops en route and an ETE to final destination, a mishap could occur on any leg, and unless other information is received, it is probable that no one would start looking for you until 30 minutes after your ETA at your final destination. 2. If you land at a location other than the intended destination, report the landing to the nearest FAA FSS and advise them of your original destination. 3. If you land en route and are delayed more than 30 minutes, report this information to the nearest FSS and give them your original destination. 4. If your ETE changes by 30 minutes or more, report a new ETA to the nearest FSS and give them your original destination. Remember that if you fail to respond within one-half hour after your ETA at final destination, a search will be started to locate you. 5. It is important that you close your flight plan IMMEDIATELY AFTER ARRIVAL AT YOUR FINAL DESTINATION WITH THE FSS DESIGNATED WHEN YOUR FLIGHT PLAN WAS FILED. The pilot is responsible for closure of a VFR or DVFR flight plan; they are not closed automatically. This will prevent needless search efforts. 6. The rapidity of rescue on land or water will depend on how accurately your position may be determined. If a flight plan has been followed and your position is on course, rescue will be expedited. h. Survival Equipment. 1. For flight over uninhabited land areas, it is wise to take and know how to use survival equipment for the type of climate and terrain. 2. If a forced landing occurs at sea, chances for survival are governed by the degree of crew proficiency in emergency procedures and by the availability and effectiveness of water survival equipment. i. Body Signal Illustrations. 1. If you are forced down and are able to attract the attention of the pilot of a rescue airplane, the body signals illustrated on these pages can be used to transmit messages to the pilot circling over your location. 2. Stand in the open when you make the signals. 3. Be sure the background, as seen from the air, is not confusing. 4. Go through the motions slowly and repeat each signal until you are positive that the pilot understands you. AIM 2/14/08 6-2-7 Emergency Services Available to Pilots j. Observance of Downed Aircraft. 1. Determine if crash is marked with a yellow cross; if so, the crash has already been reported and identified. 2. If possible, determine type and number of aircraft and whether there is evidence of survivors. 3. Fix the position of the crash as accurately as possible with reference to a navigational aid. If possible, provide geographic or physical description of the area to aid ground search parties. 4. Transmit the information to the nearest FAA or other appropriate radio facility. 5. If circumstances permit, orbit the scene to guide in other assisting units until their arrival or until you are relieved by another aircraft. 6. Immediately after landing, make a complete report to the nearest FAA facility, or Air Force or Coast Guard Rescue Coordination Center. The report can be made by a long distance collect telephone call. AIM 2/14/08 6-2-8 Emergency Services Available to Pilots FIG 6-2-1 Ground-Air Visual Code for Use by Survivors V X N Y NO. MESSAGE CODE SYMBOL 1 Require assistance Require medical assistance No or Negative Yes or Affirmative Proceeding in this direction IF IN DOUBT, USE INTERNATIONAL SYMBOL INSTRUCTIONS 2 3 4 5 S O S 1. Lay out symbols by using strips of fabric or parachutes, pieces of wood, stones, or any available material. 2. Provide as much color contrast as possible between material used for symbols and background against which symbols are exposed. 3. Symbols should be at least 10 feet high or larger. Care should be taken to lay out symbols exactly as shown. 4. In addition to using symbols, every effort is to be made to attract attention by means of radio, flares, smoke, or other available means. 5. On snow covered ground, signals can be made by dragging, shoveling or tramping. Depressed areas forming symbols will appear black from the air. 6. Pilot should acknowledge message by rocking wings from side to side. FIG 6-2-2 Ground-Air Visual Code for use by Ground Search Parties L L L L L X X N N NO. MESSAGE CODE SYMBOL 1 2 3 4 5 6 7 Operation completed. We found personnel. have all We have found only some personnel. We able continue. Returning to base. are not to Have divided two Each proceeding indicated. into groups. in direction Information received that in aircraft is this direction. Nothing found. Will continue search. Note: These visual signals have been accepted for international use and appear in Annex 12 to the Convention on International Civil Aviation. AIM 2/14/08 6-2-9 Emergency Services Available to Pilots FIG 6-2-3 Urgent Medical Assistance ASSISTANCE-URGENT only when stake NEED MEDICAL Used life is at FIG 6-2-4 All OK ALL OK-NOT WAIT Wave arm overhead DO one FIG 6-2-5 Short Delay CAN PROCEED SHORTLY One WAIT IF PRACTICABLE arm horizontal FIG 6-2-6

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165#
发表于 2008-12-21 00:24:06 |只看该作者
Long Delay NEED OR LONG Both arms MECHANICAL HELP PARTS - DELAY horizontal AIM 2/14/08 6-2-10 Emergency Services Available to Pilots FIG 6-2-7 Drop Message Make throwing motion FIG 6-2-8 Receiver Operates OUR RECEIVER IS OPERATING Cup hands over ears FIG 6-2-9 Do Not Land Here DO NOT TO LAND HERE waved ATTEMPT Both arms across face FIG 6-2-10 Land Here horizontally, and point direction landing - LAND HERE Both arms forward squatting in of Repeat AIM 2/14/08 6-2-11 Emergency Services Available to Pilots FIG 6-2-11 Negative (Ground) (NO) White cloth NEGATIVE waved horizontally FIG 6-2-12 Affirmative (Ground) cloth waved AFFIRMATIVE (YES) White vertically FIG 6-2-13 Pick Us Up PICK ABANDONED US UP- PLANE Both arms vertical FIG 6-2-14 Affirmative (Aircraft) Affirmative reply from aircraft: AFFIRMATIVE (YES) Dip nose of plane several times AIM 2/14/08 6-2-12 Emergency Services Available to Pilots FIG 6-2-15 Negative (Aircraft) NEGATIVE NO) Fishtail (plane Negative reply from aircraft: FIG 6-2-16 Message received and understood (Aircraft) received understood aircraft: Day moonlight - Green signal lamp Message and by or - Rocking wings Night flashed from FIG 6-2-17 Message received and NOT understood (Aircraft) and NOT understood by moonlight - Making complete right-circle Red flashes from signal Message received aircraft: Day or a hand Night-lamp. AIM 2/14/08 6-3-1 Distress and Urgency Procedures Section 3. Distress and Urgency Procedures 6-3-1. Distress and Urgency Communications a. A pilot who encounters a distress or urgency condition can obtain assistance simply by contacting the air traffic facility or other agency in whose area of responsibility the aircraft is operating, stating the nature of the difficulty, pilot's intentions and assistance desired. Distress and urgency communica- tions procedures are prescribed by the International Civil Aviation Organization (ICAO), however, and have decided advantages over the informal procedure described above. b. Distress and urgency communications proce- dures discussed in the following paragraphs relate to the use of air ground voice communications. c. The initial communication, and if considered necessary, any subsequent transmissions by an aircraft in distress should begin with the signal MAYDAY, preferably repeated three times. The signal PAN-PAN should be used in the same manner for an urgency condition. d. Distress communications have absolute priority over all other communications, and the word MAYDAY commands radio silence on the frequency in use. Urgency communications have priority over all other communications except distress, and the word PAN-PAN warns other stations not to interfere with urgency transmissions. e. Normally, the station addressed will be the air_traffic facility or other agency providing air traffic services, on the frequency in use at the time. If the pilot is not communicating and receiving services, the station to be called will normally be the air traffic facility or other agency in whose area of responsibil- ity the aircraft is operating, on the appropriate assigned frequency. If the station addressed does not respond, or if time or the situation dictates, the distress or urgency message may be broadcast, or a collect call may be used, addressing “Any Station (Tower)(Radio)(Radar).” f. The station addressed should immediately acknowledge a distress or urgency message, provide assistance, coordinate and direct the activities of assisting facilities, and alert the appropriate search and rescue coordinator if warranted. Responsibility will be transferred to another station only if better handling will result. g. All other stations, aircraft and ground, will continue to listen until it is evident that assistance is being provided. If any station becomes aware that the station being called either has not received a distress or urgency message, or cannot communicate with the aircraft in difficulty, it will attempt to contact the aircraft and provide assistance. h. Although the frequency in use or other frequencies assigned by ATC are preferable, the following emergency frequencies can be used for distress or urgency communications, if necessary or desirable: 1. 121.5 MHz and 243.0 MHz. Both have a range generally limited to line of sight. 121.5 MHz is guarded by direction finding stations and some military and civil aircraft. 243.0 MHz is guarded by military aircraft. Both 121.5 MHz and 243.0 MHz are guarded by military towers, most civil towers, FSSs, and radar facilities. Normally ARTCC emergency frequency capability does not extend to radar coverage limits. If an ARTCC does not respond when called on 121.5 MHz or 243.0 MHz, call the nearest tower or FSS. 2. 2182 kHz. The range is generally less than 300 miles for the average aircraft installation. It can be used to request assistance from stations in the maritime service. 2182 kHz is guarded by major radio stations serving Coast Guard Rescue Coordination Centers, and Coast Guard units along the sea coasts of the U.S. and shores of the Great Lakes. The call “Coast Guard” will alert all Coast Guard Radio Stations within range. 2182 kHz is also guarded by most commercial coast stations and some ships and boats. AIM 2/14/08 6-3-2 Distress and Urgency Procedures 6-3-2. Obtaining Emergency Assistance a. A pilot in any distress or urgency condition should immediately take the following action, not necessarily in the order listed, to obtain assistance: 1. Climb, if possible, for improved communica- tions, and better radar and direction finding detection. However, it must be understood that unauthorized climb or descent under IFR conditions within controlled airspace is prohibited, except as permitted by 14_CFR Section 91.3(b). 2. If equipped with a radar beacon transponder (civil) or IFF/SIF (military): (a) Continue squawking assigned Mode A/3 discrete code/VFR code and Mode C altitude encoding when in radio contact with an air traffic facility or other agency providing air traffic services, unless instructed to do otherwise. (b) If unable to immediately establish com- munications with an air traffic facility/agency, squawk Mode A/3, Code 7700/Emergency and Mode_C. 3. Transmit a distress or urgency message consisting of as many as necessary of the following elements, preferably in the order listed: (a) If distress, MAYDAY, MAYDAY, MAY- DAY; if urgency, PAN-PAN, PAN-PAN, PAN-PAN. (b) Name of station addressed. (c) Aircraft identification and type. (d) Nature of distress or urgency. (e) Weather. (f) Pilots intentions and request. (g) Present position, and heading; or if lost, last known position, time, and heading since that position. (h) Altitude or flight level. (i) Fuel remaining in minutes. (j) Number of people on board. (k) Any other useful information. REFERENCE- Pilot/Controller Glossary Term- Fuel Remaining. b. After establishing radio contact, comply with advice and instructions received. Cooperate. Do not hesitate to ask questions or clarify instructions when you do not understand or if you cannot comply with clearance. Assist the ground station to control communications on the frequency in use. Silence interfering radio stations. Do not change frequency or change to another ground station unless absolutely necessary. If you do, advise the ground station of the new frequency and station name prior to the change, transmitting in the blind if necessary. If two-way communications cannot be established on the new frequency, return immediately to the frequency or station where two-way communications last existed. c. When in a distress condition with bailout, crash landing or ditching imminent, take the following additional actions to assist search and rescue units: 1. Time and circumstances permitting, transmit as many as necessary of the message elements in subparagraph a3 above, and any of the following that you think might be helpful: (a) ELT status. (b) Visible landmarks. (c) Aircraft color. (d) Number of persons on board. (e) Emergency equipment on board. 2. Actuate your ELT if the installation permits. 3. For bailout, and for crash landing or ditching if risk of fire is not a consideration, set your radio for continuous transmission. 4. If it becomes necessary to ditch, make every effort to ditch near a surface vessel. If time permits, an FAA facility should be able to get the position of the nearest commercial or Coast Guard vessel from a Coast Guard Rescue Coordination Center. 5. After a crash landing, unless you have good reason to believe that you will not be located by search aircraft or ground teams, it is best to remain with your aircraft and prepare means for signaling search aircraft. AIM 2/14/08 6-3-3 Distress and Urgency Procedures 6-3-3. Ditching Procedures FIG 6-3-1 Single Swell (15 knot wind) SWELL DITCHING HEADING WIND FIG 6-3-2 Double Swell (15 knot wind) SWELL PRIMARY SECONDARY SWELL HEADING WIND DITCHING FIG 6-3-3 Double Swell (30 knot wind) PRIMARY SWELL SECONDARY SWELL WIND DITCHING HEADING FIG 6-3-4 (50 knot wind) SWELL WIND Aircraft with low landing speeds - land into the wind. Aircraft with high landing speeds - choose compromise heading between wind and swell. Both - land on back side of swell. AIM 2/14/08 6-3-4 Distress and Urgency Procedures FIG 6-3-5 Wind-Swell-Ditch Heading GOOD GOOD BACK SIDE POOR FACE GOOD FAIR BEST DIRECTION OF SWELL MOVEMENT Landing parallel to the maor swell Landing on the face and back of swell a. A successful aircraft ditching is dependent on three primary factors. In order of importance they are: 1. Sea conditions and wind. 2. Type of aircraft. 3. Skill and technique of pilot. b. Common oceanographic terminology. 1. Sea. The condition of the surface that is the result of both waves and swells. 2. Wave (or Chop). The condition of the surface caused by the local winds. 3. Swell. The condition of the surface which has been caused by a distance disturbance. 4. Swell Face. The side of the swell toward the observer. The backside is the side away from the observer. These definitions apply regardless of the direction of swell movement. 5. Primary Swell. The swell system having the greatest height from trough to crest. 6. Secondary Swells. Those swell systems of less height than the primary swell. 7. Fetch. The distance the waves have been driven by a wind blowing in a constant direction, without obstruction. 8. Swell Period. The time interval between the passage of two successive crests at the same spot in the water, measured in seconds. 9. Swell Velocity. The speed and direction of the swell with relation to a fixed reference point, measured in knots. There is little movement of water in the horizontal direction. Swells move primarily in a vertical motion, similar to the motion observed when shaking out a carpet. 10. Swell Direction. The direction from which a swell is moving. This direction is not necessarily the result of the wind present at the scene. The swell may be moving into or across the local wind. Swells, once set in motion, tend to maintain their original direction for as long as they continue in deep water, regardless of changes in wind direction. AIM 2/14/08 6-3-5 Distress and Urgency Procedures 11. Swell Height. The height between crest and trough, measured in feet. The vast majority of ocean swells are lower than 12 to 15 feet, and swells over 25 feet are not common at any spot on the oceans. Successive swells may differ considerably in height. c. In order to select a good heading when ditching an aircraft, a basic evaluation of the sea is required. Selection of a good ditching heading may well minimize damage and could save your life. It can be extremely dangerous to land into the wind without regard to sea conditions; the swell system, or systems, must be taken into consideration. Remember one axiom- AVOID THE FACE OF A SWELL. 1. In ditching parallel to the swell, it makes little difference whether touchdown is on the top of the crest or in the trough. It is preferable, however, to land on the top or back side of the swell, if possible. After determining which heading (and its reciprocal) will parallel the swell, select the heading with the most into the wind component. 2. If only one swell system exists, the problem is relatively simple-even with a high, fast system. Unfortunately, most cases involve two or more swell systems running in different directions. With more than one system present, the sea presents a confused appearance. One of the most difficult situations occurs when two swell systems are at right angles. For example, if one system is eight feet high, and the other three feet, plan to land parallel to the primary system, and on the down swell of the secondary system. If both systems are of equal height, a compromise may be advisable-select an intermediate heading at 45 degrees down swell to both systems. When landing down a secondary swell, attempt to touch down on the back side, not on the face of the swell. 3. If the swell system is formidable, it is considered advisable, in landplanes, to accept more crosswind in order to avoid landing directly into the swell. 4. The secondary swell system is often from the same direction as the wind. Here, the landing may be made parallel to the primary system, with the wind and secondary system at an angle. There is a choice to two directions paralleling the primary system. One direction is downwind and down the secondary swell, and the other is into the wind and into the secondary swell, the choice will depend on the velocity of the wind versus the velocity and height of the secondary swell. d. The simplest method of estimating the wind direction and velocity is to examine the windstreaks on the water. These appear as long streaks up and down wind. Some persons may have difficulty determining wind direction after seeing the streaks on the water. Whitecaps fall forward with the wind but are overrun by the waves thus producing the illusion that the foam is sliding backward. Knowing this, and by observing the direction of the streaks, the wind direction is easily determined. Wind velocity can be estimated by noting the appearance of the whitecaps, foam and wind streaks.

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166#
发表于 2008-12-21 00:24:13 |只看该作者
1. The behavior of the aircraft on making contact with the water will vary within wide limits according to the state of the sea. If landed parallel to a single swell system, the behavior of the aircraft may approximate that to be expected on a smooth sea. If landed into a heavy swell or into a confused sea, the deceleration forces may be extremely great-resulting in breaking up of the aircraft. Within certain limits, the pilot is able to minimize these forces by proper sea evaluation and selection of ditching heading.

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167#
发表于 2008-12-21 00:24:19 |只看该作者
2. When on final approach the pilot should look ahead and observe the surface of the sea. There may be shadows and whitecaps-signs of large seas. Shadows and whitecaps close together indicate short and rough seas. Touchdown in these areas is to be avoided. Select and touchdown in any area (only about 500 feet is needed) where the shadows and whitecaps are not so numerous. 3. Touchdown should be at the lowest speed and rate of descent which permit safe handling and optimum nose up attitude on impact. Once first impact has been made, there is often little the pilot can do to control a landplane.

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168#
发表于 2008-12-21 00:24:27 |只看该作者
e. Once preditching preparations are completed, the pilot should turn to the ditching heading and commence let-down. The aircraft should be flown low over the water, and slowed down until ten knots or so above stall. At this point, additional power should be used to overcome the increased drag caused by the nose up attitude. When a smooth stretch of water appears ahead, cut power, and touchdown at the best recommended speed as fully stalled as possible. By cutting power when approaching a relatively smooth area, the pilot will prevent overshooting and AIM 2/14/08

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169#
发表于 2008-12-21 00:24:38 |只看该作者
6-3-6 Distress and Urgency Procedures will touchdown with less chance of planing off into a second uncontrolled landing. Most experienced seaplane pilots prefer to make contact with the water in a semi-stalled attitude, cutting power as the tail makes contact. This technique eliminates the chance of misjudging altitude with a resultant heavy drop in a fully stalled condition. Care must be taken not to drop the aircraft from too high altitude or to balloon due to excessive speed. The altitude above water depends on the aircraft. Over glassy smooth water, or at night without sufficient light, it is very easy, for even the most experienced pilots to misjudge altitude by 50 feet or more. Under such conditions, carry enough power to maintain nine to twelve degrees nose up attitude, and 10 to 20 percent over stalling speed until contact is made with the water. The proper use of power on the approach is of great importance. If power is available on one side only, a little power should be used to flatten the approach; however, the engine should not be used to such an extent that the aircraft cannot be turned against the good engines right down to the stall with a margin of rudder movement available. When near the stall, sudden application of excessive unbalanced power may result in loss of directional control. If power is available on one side only, a slightly higher than normal glide approach speed should be used. This will insure good control and some margin of speed after leveling off without excessive use of power. The use of power in ditching is so important that when it is certain that the coast cannot be reached, the pilot should, if possible, ditch before fuel is exhausted. The use of power in a night or instrument ditching is far more essential than under daylight contact conditions. 1. If no power is available, a greater than normal approach speed should be used down to the flare-out. This speed margin will allow the glide to be broken early and more gradually, thereby giving the pilot time and distance to feel for the surface - decreasing the possibility of stalling high or flying into the water. When landing parallel to a swell system, little difference is noted between landing on top of a crest or in the trough. If the wings of aircraft are trimmed to the surface of the sea rather than the horizon, there is little need to worry about a wing hitting a swell crest. The actual slope of a swell is very gradual. If forced to land into a swell, touchdown should be made just after passage of the crest. If contact is made on the face of the swell, the aircraft may be swamped or thrown violently into the air, dropping heavily into the next swell. If control surfaces remain intact, the pilot should attempt to maintain the proper nose above the horizon attitude by rapid and positive use of the controls. f. After Touchdown. In most cases drift, caused by crosswind can be ignored; the forces acting on the aircraft after touchdown are of such magnitude that drift will be only a secondary consideration. If the aircraft is under good control, the “crab” may be kicked out with rudder just prior to touchdown. This is more important with high wing aircraft, for they are laterally unstable on the water in a crosswind and may roll to the side in ditching. REFERENCE- This information has been extracted from Appendix H of the “National Search and Rescue Manual.” 6-3-4. Special Emergency (Air Piracy) a. A special emergency is a condition of air piracy, or other hostile act by a person(s) aboard an aircraft, which threatens the safety of the aircraft or its passengers. b. The pilot of an aircraft reporting a special emergency condition should: 1. If circumstances permit, apply distress or urgency radio-telephony procedures. Include the details of the special emergency. REFERENCE- AIM, Distress and Urgency Communications, Paragraph 6-3-1. 2. If circumstances do not permit the use of prescribed distress or urgency procedures, transmit: (a) On the air/ground frequency in use at the time. (b) As many as possible of the following elements spoken distinctly and in the following order: (1) Name of the station addressed (time and circumstances permitting). (2) The identification of the aircraft and present position. (3) The nature of the special emergency condition and pilot intentions (circumstances permitting). AIM 2/14/08 6-3-7 Distress and Urgency Procedures (4) If unable to provide this information, use code words and/or transponder as follows: Spoken Words TRANSPONDER SEVEN FIVE ZERO ZERO Meaning I am being hijacked/forced to a new destination Transponder Setting Mode_3/A, Code 7500 NOTE- Code 7500 will never be assigned by ATC without prior notification from the pilot that the aircraft is being subjected to unlawful interference. The pilot should refuse the assignment of Code 7500 in any other situation and inform the controller accordingly. Code 7500 will trigger the special emergency indicator in all radar ATC facilities. c. Air traffic controllers will acknowledge and confirm receipt of transponder Code 7500 by asking the pilot to verify it. If the aircraft is not being subjected to unlawful interference, the pilot should respond to the query by broadcasting in the clear that the aircraft is not being subjected to unlawful interference. Upon receipt of this information, the controller will request the pilot to verify the code selection depicted in the code selector windows in the transponder control panel and change the code to the appropriate setting. If the pilot replies in the affirmative or does not reply, the controller will not ask further questions but will flight follow, respond to pilot requests and notify appropriate authorities. d. If it is possible to do so without jeopardizing the safety of the flight, the pilot of a hijacked passenger aircraft, after departing from the cleared routing over which the aircraft was operating, will attempt to do one or more of the following things, insofar as circumstances may permit: 1. Maintain a true airspeed of no more than 400_knots, and preferably an altitude of between 10,000 and 25,000_feet. 2. Fly a course toward the destination which the hijacker has announced. e. If these procedures result in either radio contact or air intercept, the pilot will attempt to comply with any instructions received which may direct the aircraft to an appropriate landing field. 6-3-5. Fuel Dumping a. Should it become necessary to dump fuel, the pilot should immediately advise ATC. Upon receipt of information that an aircraft will dump fuel, ATC will broadcast or cause to be broadcast immediately and every 3 minutes thereafter the following on appropriate ATC and FSS radio frequencies: EXAMPLE- Attention all aircraft - fuel dumping in progress over - (location) at (altitude) by (type aircraft) (flight direction). b. Upon receipt of such a broadcast, pilots of aircraft affected, which are not on IFR flight plans or special VFR clearances, should clear the area specified in the advisory. Aircraft on IFR flight plans or special VFR clearances will be provided specific separation by ATC. At the termination of the fuel dumping operation, pilots should advise ATC. Upon receipt of such information, ATC will issue, on the appropriate frequencies, the following: EXAMPLE- ATTENTION ALL AIRCRAFT - FUEL DUMPING BY - (type aircraft) - TERMINATED. AIM 2/14/08 6-4-1 Two-way Radio Communications Failure

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170#
发表于 2008-12-21 00:24:46 |只看该作者
Section 4. Two-way Radio Communications Failure 6-4-1. Two-way Radio Communications Failure a. It is virtually impossible to provide regulations and procedures applicable to all possible situations associated with two-way radio communications failure. During two-way radio communications failure, when confronted by a situation not covered in the regulation, pilots are expected to exercise good judgment in whatever action they elect to take. Should the situation so dictate they should not be reluctant to use the emergency action contained in 14_CFR Section 91.3(b). b. Whether two-way communications failure constitutes an emergency depends on the circum- stances, and in any event, it is a determination made by the pilot. 14_CFR Section 91.3(b) authorizes a pilot to deviate from any rule in Subparts A and B to the extent required to meet an emergency. c. In the event of two-way radio communications failure, ATC service will be provided on the basis that the pilot is operating in accordance with 14_CFR Section 91.185. A pilot experiencing two-way communications failure should (unless emergency authority is exercised) comply with 14_CFR Section_91.185 quoted below: NOTE- Capitalization, print and examples changed/added for emphasis.

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