CAR-ANS Part 15 Aeronautical Information Services 2nd Edition PDF
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2023
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This document is a Civil Aviation Regulation (CAR-ANS) Part 15, 2nd Edition, focusing on aeronautical information services. It details rules and regulations for handling this information in the Philippines, based on ICAO Annex 15. The document covers purpose, authority, and applicability to various flight operations.
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CIVIL AVIATION REGULATIONS AIR NAVIGATION SERVICES Part 15 AERONAUTICAL INFORMATION SERVICES CIVIL AVIATION AUTHORITY OF THE PHILIPPINES Old MIA Road, Pasay City1301 Metro Manila INTENTIONALLY LEFT BLANK CAR-ANS...
CIVIL AVIATION REGULATIONS AIR NAVIGATION SERVICES Part 15 AERONAUTICAL INFORMATION SERVICES CIVIL AVIATION AUTHORITY OF THE PHILIPPINES Old MIA Road, Pasay City1301 Metro Manila INTENTIONALLY LEFT BLANK CAR-ANS PART 15 INTENTIONALLY LEFT BLANK 2nd Edition 15-ii July 2023 CAR-ANS PART 15 FOREWORD This Civil Aviation Regulation was formulated and issued by the Civil Aviation Authority of the Philippines (CAAP), establishing rules and regulations in the handling of aeronautical information to ensure the flow of such information/data necessary for the safety, regularity and efficiency of international air navigation. This Civil Aviation Regulation was developed based on the Standards and Recommended Practices prescribed by the International Civil Aviation Organization (ICAO) as contained in Annex 15 which was first adopted by the Council on 15 May 1953 pursuant to the provisions of Article 37 of the Convention of International Civil Aviation (Chicago 1944), and consequently became applicable on 1 April 1954. Correspondingly, Article 38 of the Convention imposed an obligation to the CAAP to notify ICAO of any differences between its national regulations and practices and the International Standards contained in Annex 15 and any amendments thereto, especially when such differences are important for the safety of air navigation. Further, CAAP is encouraged to inform the ICAO of any differences which may subsequently occur, or of withdrawal of any differences previously notified. July 2023 15-iii 2nd Edition CAR-ANS PART 15 INTENTIONALLY LEFT BLANK 2nd Edition 15-iv July 2023 CAR-ANS PART 15 I. PURPOSE This Civil Aviation Regulation provides the rules and regulations in governing the provisions of aeronautical information services in the Philippines. II. AUTHORITY The regulations contained herein are issued by authority of the Director General of CAAP by the virtue of Board Resolution No. 2012- 054 and shall be complied with by all concerned. III. APPLICABILITY The regulations embodied herein shall apply to all those involved in flight operations, including flight crews, flight planning and flight simulators, and the air traffic services units responsible for flight information services and the services responsible for pre-flight information IV. REPEALING PROVISIONS All previous Administrative Orders, Memorandum Circulars or part thereof as they pertain to aeronautical information services which are inconsistent with the provisions of this Civil Aviation Regulation are hereby repealed, amended or modified accordingly. V. SEPARABILITY PROVISIONS The provisions of this Civil Aviation Regulation are hereby declared separable. If any portion thereof shall be held invalid or unconstitutional, such invalidity or unconstitutionality shall not affect the other provisions which shall be in full force and effect. VI. DISTRIBUTION This Civil Aviation Regulation will be distributed to all aeronautical information service providers and those involved in AIS related activities. July 2023 15-v 2nd Edition CAR-ANS PART 15 INTENTIONALLY LEFT BLANK 2nd Edition 15-vi July 2023 CAR-ANS PART 15 RECORD OF AMENDMENTS AND CORRIGENDA Amendments Number Date applicable Subject(s) Entered by 1 07 November 2014 Incorporated Amendment 36 to Annex 15 amending LT GEN William provisions regarding the addition of new definition for K Hotchkiss III aerodrome and provisions relating to the operational use of AFP (Ret) the public Internet; the reporting of volcanic ash deposition; quality management systems; the use of automation enabling digital data exchange; electronic aeronautical information publications; the NOTAM Format; and electronic terrain and obstacle data. Added tables for terrain data numerical requirements; obstacle data numerical requirements; terrain attributes, and obstacle attribute. 2 07 November 2014 Incorporated Amendment 37 to Annex 15 amending LT GEN William provisions regarding the addition of new definitions for K Hotchkiss III aerodrome mapping data, aerodrome mapping database, AFP (Ret) aeronautical information management, air traffic management, confidence level, and integrity classification (aeronautical data); revised definitions relating to aeronautical information service, AIS product, and metadata; made changes regarding the use of the terms “information” and “data”; State (CAAP) and AIS provider responsibilities and functions; information management requirements; data quality; use of automation; aerodrome mapping data; AIP specifications; terrain and obstacle data; integrity classifications. 3 14 March 2016 Incorporated Amendment 38 to Annex 15 amending CAPT Antonio G provisions regarding the addition of Procedure design Buendia, Jr. criteria and charting requirements to support performance- based navigation (PBN) as well as helicopter point-in-space (PinS) approach and departure operations; revision of Aeronautical Data Publication Resolution and Integrity Classification of Appendix 15F; and revision in the instructions for the completion of the ashtam format regarding the colour code for the level of alert and the status of activity of the volcano. 4 29 December 2016 Incorporated Amendment 39 to Annex 15 amending CAPT. Jim C. provisions regarding the publication of information on Sydiongco runway end safety area (RESA) and arresting system in the aeronautical information publication (AIP); En-route airway directional use restrictions; Performance-Based Communication and Surveillance (PBCS) and satellite voice communications (SATVOICE); and amendment concerning the use of a global reporting format for assessing and reporting runway conditions. 5 16 May 2019 Incorporated Amendment 40 to ICAO Annex 15 amending Captain. Jim C. provisions regarding restructure of Annex 15 to facilitate Sydiongco incorporation of aeronautical information management (AIM) requirements; changes to the technical content of Annex 15 to facilitate the transition from AIS to AIM; and a consequential amendment in support of space weather information. 6 14 November 2020 Incorporated Amendment 41 to ICAO Annex 15 amending Captain. Jim C. provisions concerning the improvement of the promulgation Sydiongco of information on hazardous activities to civil aviation through NOTAM, also addressing the specific case of conflict zones activities potentially hazardous to civil aircraft 7 11 June 2021 Incorporated Amendment 42 to ICAO Annex 15 amending Captain. Jim C. provisions regarding postponement of the applicability date Sydiongco of Amendment 40 regarding definition of SNOWTAM. July 2023 15-vii 2nd Edition CAR-ANS PART 15 Second July 2022 Incorporated Memorandum Circular No. 006-2023 regarding Captain Manuel change of the cover page of CAR-ANS Part 15; deletion of Antonio L. Edition the word governing in title of CAR-ANS Part 15; added the Tamayo definition of High Seas; and added sub chapter 15.1.1.2 8 Acronyms and Abbreviations. Corrigenda Number Date applicable Subject(s) Entered by 2nd Edition 15-viii July 2023 CAR-ANS PART 15 LIST OF EFFECTIVE PAGES Part Page Amendment No. Page Date Part 15 Aeronautical Information Services Foreword 15-iii 2nd Edition July 2023 Record of Amendments 15-vii – 15-viii 2nd Edition July 2023 and Corrigenda List of Effective Pages 15-ix – 15-x 2nd Edition July 2023 Table of Contents 15-xi 2nd Edition July 2023 Page 15.1-1 2nd Edition July 2023 15.1-2 2nd Edition July 2023 15.1-3 2nd Edition July 2023 15.1-4 2nd Edition July 2023 15.1-5 2nd Edition July 2023 15.1-6 2nd Edition July 2023 15.1-7 2nd Edition July 2023 15.1-8 2nd Edition July 2023 15.1-9 2nd Edition July 2023 15.1-10 2nd Edition July 2023 15.1-11 2nd Edition July 2023 15.1-12 2nd Edition July 2023 15.1-13 2nd Edition July 2023 15.2-1 2nd Edition July 2023 15.2-2 2nd Edition July 2023 15.2-3 2nd Edition July 2023 15.2-4 2nd Edition July 2023 15.3-1 2nd Edition July 2023 15.3-2 2nd Edition July 2023 15.3-3 2nd Edition July 2023 15.3-4 2nd Edition July 2023 15.4-1 2nd Edition July 2023 15.5-1 2nd Edition July 2023 15.5-2 2nd Edition July 2023 15.5-3 2nd Edition July 2023 15.5-4 2nd Edition July 2023 15.5-5 2nd Edition July 2023 15.5-6 2nd Edition July 2023 15.5-7 2nd Edition July 2023 15.5-8 2nd Edition July 2023 15.5-9 2nd Edition July 2023 15.6-1 2nd Edition July 2023 15.6-2 2nd Edition July 2023 July 2023 15-ix 2nd Edition CAR-ANS PART 15 15.6-3 2nd Edition July 2023 15.6-4 2nd Edition July 2023 15.6-5 2nd Edition July 2023 15.6-6 2nd Edition July 2023 2nd Edition 15-x July 2023 CAR-ANS PART 15 TABLE OF CONTENTS PAGE FOREWORD…………………………………………………………………………..….. 15-iii RECORD OF AMENDMENTS AND CORRIGENDA………….…………….….... 15-vii LIST OF EFFECTIVE PAGES ………………………………………………………… 15-ix 15.1 GENERAL…….……………………………………………...……….…..……… 15.1-1 15.1.1 Definitions ………………………………………………………… 15.1-1 15.1.1.2 Acronyms and Abbreviations …………………………………… 15.1-11 15.1.2 Common reference systems for air navigation ………………. 15.1-12 15.1.3 Miscellaneous specifications …………………………………… 15.1-14 15.2 RESPONSIBILITIES AND FUNCTIONS ……………………………………… 15.2-1 15.2.1 State Responsibilities……………………………………………... 15.2-1 15.2.2 AIS Responsibilities and Functions……………………………… 15.2-1 15.2.3 Exchange of Aeronautical Data and Aeronautical Information…………………………………….. 15.2-2 15.2.4 Copyright……………………………………………………………. 15.2-3 15.2.5 Cost Recovery……………………………………………………… 15.2-4 15.3 AERONAUTICAL INFORMATION MANAGEMENT …………………………. 15.3-1 15.3.1 Information Management Requirements ………………..……… 15.3-1 15.3.2 Data Quality Specifications ………………………………………. 15.3-1 15.3.3 Aeronautical Data and Aeronautical Information Verification and Validation …………………………. 15.3-2 15.3.4 Data Error Detection ……………………………......................... 15.3-2 15.3.5 Use of Automation ……………………………………………….. 15.3-3 15.3.6 Quality Management System …………………………………… 15.3-3 15.3.7 Human Factors Consideration ………………………………….. 15.3-4 15.4 SCOPE OF AERONAUTICAL DATA AND AERONAUTICAL INFORMATION ………………………………………………………………… 15.4-1 15.4.1 Scope of aeronautical data and aeronautical information ………………………………………….. 15.4-1 15.4.2 Metadata ………………………………………………………….... 15.4-1 15.5 AERONAUTICAL INFORMATION PRODUCTS AND SERVICES …………. 15.5-1 15.5.1 General …………………………………………………………….. 15.5-1 15.5.2 Aeronautical Information in a Standardized Presentation ……………….……………………… 15.5-1 15.5.3 Digital Data Sets ………………………………………………….. 15.5-3 15.5.4 Distribution Services ……………………………………………… 15.5-8 15.5.5 Pre-flight Information Service ……………………………………. 15.5-9 July 2023 15-xi 2nd Edition CAR-ANS PART 15 15.5.6 Post-flight Information Service ……………………………………. 15.5-9 15.6 AERONAUTICAL INFORMATION UPDATES ………………………………… 15.6-1 15.6.1 General Specifications……………………………………………. 15.6-1 15.6.2 Aeronautical Information Regulation and Control (AIRAC) …... 15.6-1 15.7.3 Aeronautical Information Product Updates …………………….. 15.6-3 2nd Edition 15-xii July 2023 CAR-ANS PART 15 15.1 GENERAL In conformance with the ICAO SARPS as contained in Annex 15, the object of the aeronautical information services (AIS) is to ensure the flow of aeronautical data and aeronautical information necessary for global air traffic management (ATM) system safety, regularity, economy and efficiency in an environmentally sustainable manner. The role and importance of aeronautical data and aeronautical information changed significantly with the implementation of area navigation (RNAV), performance-based navigation (PBN), airborne computer-based navigation systems, performance-based communication (PBC), performance-based surveillance (PBS), data link systems and satellite voice communications (SATVOICE). Corrupt, erroneous, late or missing aeronautical data and aeronautical information can potentially affect the safety of air navigation. This CAR-ANS Part 15 for Aeronautical Information Services is to be used in conjunction with the Manual of Standards for Aeronautical Information Services (MOS-AIS). This CAR-ANS Part 15 for Aeronautical Information Services is to be used in conjunction with the Procedures for Air Navigation Services — ICAO Abbreviations and Codes (PANS-ABC, ICAO Document 8400). Guidance material on the organization and operation of aeronautical information services is contained in the Aeronautical Information Services Manual (ICAO Document 8126). 15.1.1 DEFINITIONS When the following terms are used in the CAR-ANS Part 15 for Aeronautical Information Services, they have the following meanings: Aerodrome. A defined area on land or water (including any buildings, installations, and equipment) intended to be used either wholly or in part for the arrival, departure and surface movement of aircraft. Aerodrome mapping data (AMD). Data collected for the purpose of compiling aerodrome mapping information. Note.— Aerodrome mapping data are collected for purposes that include the improvement of the user’s situational awareness, surface navigation operations, training, charting and planning. Aerodrome mapping database (AMDB). A collection of aerodrome mapping data organized and arranged as a structured data set. Aeronautical chart – A representation of a portion of the Earth, its culture and relief, specifically designated to meet the requirements of air navigation. Aeronautical data – A representation of aeronautical facts, concepts or instructions in a formalized manner suitable for communication, interpretation or processing. Aeronautical fixed service (AFS) – A telecommunication service between specified fixed points provided primarily for the safety of air navigation and for the regular, efficient and economical operation of air services. July 2023 15.1-1 2nd Edition CAR-ANS PART 15 Aeronautical information – Information resulting from the assembly, analysis and formatting of aeronautical data. Aeronautical Information Circular (AIC) – A notice containing information that does not qualify for the origination of a NOTAM or for inclusion in the AIP, but which relates to flight safety, air navigation, technical, administrative or legislative matters. Aeronautical information management (AIM). The dynamic, integrated management of aeronautical information through the provision and exchange of quality-assured digital aeronautical data in collaboration with all parties. Aeronautical information product – Aeronautical data and aeronautical information provided either as digital data sets or as a standardized presentation in paper or electronic media. Aeronautical information products include: — Aeronautical Information Publication (AIP), including Amendments and Supplements; — Aeronautical Information Circulars (AIC); — aeronautical charts; — NOTAM; and — digital data sets. Note.—Aeronautical information products are intended primarily to satisfy international requirements for the exchange of aeronautical information. Aeronautical Information Publication (AIP) – A publication issued by or with the authority of a State and containing aeronautical information of a lasting character essential to air navigation. Aeronautical Information Service (AIS) – A service established within the defined area of coverage responsible for the provision of aeronautical data and aeronautical information necessary for the safety, regularity and efficiency of air navigation. AIP Amendment – Permanent changes to the information contained in the AIP. AIP Supplement – Temporary changes to the information contained in the AIP which are provided by means of special pages. AIRAC – An acronym (Aeronautical Information Regulation and Control) signifying a system aimed at advance notification based on common effective dates, of circumstances that necessitate significant changes in operating practices. Air Defense Identification Zone (ADIZ) – Special designated airspace of defined dimensions within which aircraft are required to comply with special identification and/or reporting procedures additional to those related to the provision of air traffic services (ATS). Air traffic management (ATM) – The dynamic, integrated management of air traffic and airspace including air traffic services, airspace management and air traffic flow management — safely, economically and efficiently — through the provision of 2nd Edition 15.1-2 July 2023 CAR-ANS PART 15 facilities and seamless services in collaboration with all parties and involving airborne and ground-based functions. Application – Manipulation and processing of data in support of user requirements (ISO 19104*). ∗ All ISO Standards are listed at the end of this Chapter. Area navigation (RNAV). A method of navigation which permits aircraft operation on any desired flight path within the coverage of ground or space-based navigation aids or within the limits of the capability of self-contained aids, or a combination of these. Note. – Area navigation includes performance-based navigation as well as other operations that do not meet the definition of performance-based navigation. ASHTAM – A special series NOTAM notifying by means of a specific format change in activity of a volcano, a volcanic eruption, and/or volcanic ash cloud that is of significance to aircraft operations. Assemble – A process of merging data from multiple sources into a database and establishing a baseline for subsequent processing. Note. – The assemble phase includes checking the data and ensuring that detected errors and omissions are rectified. ATS surveillance service – Term used to indicate a service provided directly by means of an ATS surveillance system. ATS surveillance system – A generic term meaning variously, ADS-B, PSR, SSR or any comparable ground-based system that enables the identification of aircraft. Note. – A comparable ground-based system is one that has been demonstrated, by comparative assessment or other methodology, to have a level of safety and performance equal to or better than monopulse SSR. Automatic dependent surveillance – broadcast (ADS-B). A means by which aircraft, aerodrome vehicles and other objects can automatically transmit and/or receive date such as identification, position and additional data, as appropriate, in a broadcast mode via a data link. Automatic dependent surveillance – Contract (ADS-C) – A means by which the terms of an ADS-C agreement will be exchanged between the ground system and the aircraft, via a data link, specifying under what conditions ADS-C reports would be initiated, and what data would be contained in the reports. Note. – The abbreviated term “ADS contract” is commonly used to refer to ADS event contract, ADS demand contract, ADS periodic contract or an emergency mode. Automatic Terminal Information Service (ATIS) – The automatic provision of current, routine information to arriving and departing aircraft throughout 24 hours or a specified portion thereof. July 2023 15.1-3 2nd Edition CAR-ANS PART 15 Data link-Automatic Terminal Information Service (D-ATIS) – The provision of ATIS via data link. Voice-automatic terminal information service (Voice-ATIS) – The provision of ATIS by means of continuous and repetitive voice broadcasts. Bare Earth – Surface of the earth including bodies of water and permanent ice and snow, and excluding vegetation and man-made objects. Calendar – Discrete temporal reference system that provides the basis for defining temporal position to a resolution of one day (ISO 19108*). Canopy – Bare Earth supplemented by vegetation height. Confidence level. The probability that the true value of a parameter is within a certain interval around the estimate of its value. Note.— The interval is usually referred to as the accuracy of the estimate. Controller-Pilot Data Link Communications (CPDLC) – A means of communication between controller and pilot, using data link for ATC communications. Culture – All man-made features constructed on the surface of the Earth, such as cities, railways and canals. Cyclic redundancy check (CRC) – A mathematical algorithm applied to the digital expression of data that provides a level of assurance against loss or alteration of data. Danger Area - An airspace of defined dimensions within which activities dangerous to the flight of aircraft may exist at specified times. Data accuracy – A degree of conformance between the estimated or measured value and the true value. Data completeness – The degree of confidence that all of the data needed to support the intended use is provided. Data format – A structure of data elements, records and files arranged to meet standards, specifications or data quality requirements. Data integrity (assurance level) – A degree of assurance that an aeronautical data and its value has not been lost or altered since the origination or authorized amendment. Data product – Data set or data set series that conforms to a data product specification (ISO 19131*). Data product specification – Detailed description of a data set or data set series together with additional information that will enable it to be created, supplied to and used by another party (ISO 19131*). Note. – A data product specification provides a description of the universe of discourse and a specification for mapping the universe of discourse to a data set. It may be used for production, sales, end-use or other purpose. 2nd Edition 15.1-4 July 2023 CAR-ANS PART 15 Data quality – A degree or level of confidence that the data provided meet the requirements of the data user in terms of accuracy, resolution, integrity (or equivalent assurance level), traceability, timeliness, completeness and format. Data resolution – A number of units or digits to which a measured or calculated value is expressed and used. Data set – Identifiable collection of data (ISO 19101*). Data set series – Collection of data sets sharing the same product specification (ISO 19115*). Data timeliness - The degree of confidence that the data is applicable to the period of its intended use. Data traceability - The degree that a system or a data product can provide a record of the changes made to that product and thereby enable an audit trail to be followed from the end-user to the originator. Datum – Any quantity or set of quantities that may serve as a reference or basis for the calculation of other quantities (ISO 19104*). Digital Elevation Model (DEM) – The representation of terrain surface by continuous elevation values at all intersections of a defined grid, referenced to common datum. Note. – Digital Terrain Model (DTM) is sometimes referred to as DEM. Direct Transit Arrangements – Special arrangements approved by the public authorities concerned by whose traffic is pausing briefly in its passage through the Republic of the Philippines may remain under their direct control. Ellipsoid height (Geodetic height) – The height related to the reference ellipsoid, measured along the ellipsoidal outer normal through the point in question. Feature – Abstraction of real world phenomena (ISO 19101*). Feature attribute – Characteristic of a feature (ISO 19101*). Note. – A feature attribute has a name, a data type and a value domain associated with it. Feature operation – Operation that every instance of a feature type may perform (ISO 19110*). Note. – An operation upon the feature type dam is to raise the dam. The result of this operation is to raise the level of water in the reservoir. Feature relationship – Relationship that links instances of one feature type with instances of the same or a different feature type (ISO 19101*). Feature type – Class of real world phenomena with common properties (ISO 19110*). Note. – In a feature catalogue, the basic level of classification is the feature type. July 2023 15.1-5 2nd Edition CAR-ANS PART 15 Geodesic distance – The shortest distance between any two points on a mathematically defined ellipsoidal surface. Geodetic datum – A minimum set of parameters required to define location and orientation of the local reference system with respect to the global reference system/frame. Geoid – The equipotential surface in the gravity field of the Earth which coincides with the undisturbed mean sea level (MSL) extended continuously through the continents. Note. – The geoid is irregular in shape because of local gravitational disturbances (wind tides, salinity, current, etc.) and the direction of gravity is perpendicular to the geoid at every point. Geoid undulation – The distance of the geoid above (positive) or below (negative) the mathematical reference ellipsoid. Note. – In respect to the World Geodetic System – 1984 (WGS-84) defined ellipsoid, the difference between the WGS-84 ellipsoidal height and orthometric height represent WGS-84 geoid undulation. Gregorian calendar – Calendar in general use; first introduced in 1582 to define a year that more closely approximates the tropical year than the Julian calendar (ISO 19108*). Note. – In the Gregorian calendar, common years have 365 days and leap years 366 days divided into twelve sequential months. High Seas – All waters beyond the territorial waters (12NM) where no country has jurisdiction. (Reference: Article 1 of Convention on the High Seas and United Nations Convention on the Law of the Sea). Height – The vertical distance of a level, point or an object considered as a point, measured from a specific datum. Heliport – An aerodrome or a defined area on a structure intended to be used wholly or in part for the arrival, departure and surface movement of helicopters. Human Factors principles – Principles which apply to aeronautical design, certification, training, operations and maintenance and which seek safe interface between the human and other system components by proper consideration to human performance. Integrity classification (aeronautical data). Classification based upon the potential risk resulting from the use of corrupted data. Aeronautical data is classified as: a) routine data: there is a very low probability when using corrupted routine data that the continued safe flight and landing of an aircraft would be severely at risk with the potential for catastrophe; b) essential data: there is a low probability when using corrupted essential data that the continued safe flight and landing of an aircraft would be severely at risk with the potential for catastrophe; and c) critical data: there is a high probability when using corrupted critical data that the continued safe flight and landing of an aircraft would be severely at risk with the potential for catastrophe. 2nd Edition 15.1-6 July 2023 CAR-ANS PART 15 International Airport - Any airport designated by the Director General in whose territory it is situated as an airport of entry and departure for international air traffic, where the formalities incident to customs, immigration, public health, animal and plant quarantine and similar procedures are carried out. International NOTAM Office (NOF) – An office designated by the Director General for the exchange of NOTAMs internationally. Logon address – A specified code used for data link logon to an ATS unit. Maneuvering Area - That part of an aerodrome to be used for the take-off, landing and taxiing, excluding aprons. Metadata – Data about data (ISO 19115*). Note. – A structured description of the content, quality, condition or other characteristics of data. Minimum en-route altitude (MEA) – The altitude for an en-route segment that provides adequate reception of relevant navigation facilities and ATS communications, complies with the airspace structure and provides the required obstacle clearance. Minimum obstacle clearance altitude (MOCA) – The minimum altitude for a defined segment of flight that provides the required obstacle clearance. Movement area - That part of an aerodrome to be used for the take-off, landing and taxiing of aircraft, consisting of the maneuvering area and the apron(s). Navigation specification. A set of aircraft and flight crew requirements needed to support performance-based navigation operations within a defined airspace. There are two kinds of navigation specifications: Required navigation performance (RNP) specification. A navigation specification based on area navigation that includes the requirement for performance monitoring and alerting, designated by the prefix RNP, e.g. RNP 4, RNP APCH. Area navigation (RNAV) specification. A navigation specification based on area navigation that does not include the requirement for performance monitoring and alerting, designated by the prefix RNAV, e.g. RNAV 5, RNAV 1. Note 1 – The Performance-based Navigation (PBN) Manual (ICAO Document 9613), Volume II, contains detailed guidance on navigation specifications. Note 2 – The term RNP, previously defined as “a statement of the navigation performance necessary for operation within a defined airspace”, has been removed from this Annex as the concept of RNP has been overtaken by the concept of PBN. The term RNP in this Annex is now solely used in the context of navigation specifications that require performance monitoring and alerting, e.g. RNP 4 refers to the aircraft and operating requirements, including a 4 NM lateral performance with on-board performance monitoring and alerting that are detailed in ICAO Document 9613. July 2023 15.1-7 2nd Edition CAR-ANS PART 15 Next intended user – The entity that receives the aeronautical data or information from the aeronautical information service. NOTAM – A notice distributed by means of telecommunication containing information concerning the establishment, condition or change in any aeronautical facility, service, procedure or hazard, the timely knowledge of which is essential to personnel concerned with flight operations. Obstacle – All fixed (whether temporary or permanent) and mobile objects, or parts thereof, that: a) are located on an area intended for the surface movement of aircraft; or b) extend above a defined surface intended to protect aircraft in flight; or c) stand outside those defined surfaces that have been assessed as being a hazard to air navigation. Obstacle/terrain data collection surface – A defined surface intended for the purpose of collecting obstacle/terrain data. Origination (aeronautical data or aeronautical information). The creation of the value associated with new data or information or the modification of the value of existing data or information. Originator (aeronautical data or aeronautical information). An entity that is accountable for data or information origination and/or from which the AIS organization receives aeronautical data and aeronautical information. Orthometric height – Height of a point related to the geoid, generally presented as an MSL elevation. Performance-based communication PBC). Communication based on performance specifications applied to the provision of air traffic services. Note. – An RCP specification includes communication performance requirements that are allocated to system components in terms of the communication to be provided and associated transaction time, continuity, availability, integrity, safety and functionality needed for the proposed operation in the context of a particular airspace concept. Performance-based navigation (PBN). Area navigation based on performance requirements for aircraft operating along an ATS route, on an instrument approach procedure or in a designated airspace. Note. – Performance requirements are expressed in navigation specifications (RNAV specification, RNP specification) in terms of accuracy, integrity, continuity, availability and functionality needed for the proposed operation in the context of a particular airspace concept. Performance-based surveillance (PBS). Surveillance based on performance specifications applied to the provision of air traffic services. Note. – An RSP specification includes surveillance performance requirements that are allocated to system components in terms of the surveillance to be provided and associated data delivery time, continuity, availability, integrity, accuracy of the 2nd Edition 15.1-8 July 2023 CAR-ANS PART 15 surveillance data, safety and functionality needed for the proposed operation in the context of a particular airspace concept. Portrayal – Presentation of information to humans (ISO 19117*). Position (geographical) – Set of coordinates (latitude and longitude) referenced to the mathematical reference ellipsoid which define the position of a point on the surface of the Earth. Post spacing – angular or linear distance between two adjacent elevation points. Precision – The smallest difference that can be reliably distinguished by a measurement process. Note. – In reference to geodetic surveys, precision is a degree of refinement in performance of an operation or a degree of perfection in the instruments and methods used when taking measurement Pre-flight information bulletin (PIB) – A presentation of current NOTAM information of operational significance, prepared prior to flight. Prohibited Area - An airspace of defined dimensions, above the land areas or territorial waters of the Republic of the Philippines, within which the flight of aircraft is prohibited. Quality – Degree to which a set of inherent characteristics fulfils requirements (ISO 9000*). Note 1. –The term “quality” can be used with adjectives such as poor, good or excellent. Note 2. – “Inherent”, as opposed to “assigned”, means existing in something, especially as a permanent characteristic. Quality assurance – Part of quality management focused on providing confidence that quality requirements will be fulfilled (ISO 9000*). Quality control – Part of quality management focused on fulfilling quality requirements (ISO 9000*). Quality management – Coordinated activities to direct and control an organization with regard to quality (ISO 9000*). Radio navigation service. A service providing guidance information or position data for the efficient and safe operation of aircraft supported by one or more radio navigation aids. Required communication performance (RCP) specification. A set of requirements for air traffic service provision and associated ground equipment, aircraft capability, and operations needed to support performance-based communication. Required surveillance performance (RSP) specification. A set of requirements for air traffic service provision and associated ground equipment, aircraft capability, and operations needed to support performance-based surveillance. July 2023 15.1-9 2nd Edition CAR-ANS PART 15 Requirement – Need or expectation that is stated, generally implied or obligatory (ISO 9000*). Note 1. – “Generally implied” means that it is custom or common practice for the organization, its customers and other interested parties, that the need or expectation under consideration is implied. Note 2. – A qualifier can be used to denote a specific type of requirement, e.g. product requirement, quality management requirement, customer requirement. Note 3. – A specified requirement is one which is stated for example, in a document. Note 4. – Requirements can be generated by different interested parties. Restricted Area – An airspace of defined dimensions, above the land areas or territorial waters of the Republic of the Philippines within which the flight of aircraft is restricted in accordance with certain specified conditions. Route Stage – A route or portion of a route flown without an intermediate landing. SNOWTAM. (Applicable until 3 November 2021) A special series NOTAM notifying the presence or removal of hazardous conditions due to snow, ice, slush or standing water associated with snow, slush and ice on the movement area, by means of a specific format. SNOWTAM (Applicable as of 04 November 2021) - A special series NOTAM given in a standard format providing a surface condition report notifying the presence or cessation of hazardous conditions due to snow, ice, slush, frost, standing water or water associated with snow, slush, ice or frost on the movement area. Station declination – An alignment variation between the zero degree radial of a VOR and true north, determined at the time the VOR station is calibrated. Terrain. The surface of the Earth containing naturally occurring features such as mountains, hills, ridges, valleys, bodies of water, permanent ice and snow, and excluding obstacles. Traceability – Ability to trace the history, application or location of that which is under consideration (ISO 9000*). Note. – When considering product, traceability can relate to: - the origin of materials and parts; - the processing history; and - the distribution and location of the product after delivery. Validation – Confirmation, through the provision of objective evidence, that the requirements for a specific intended use or application have been fulfilled (ISO 9000*). Verification – Confirmation, through the provision of objective evidence, that specified requirements have been fulfilled (ISO 9000*). Note – The term “verified” is used to designate the corresponding status. 2nd Edition 15.1-10 July 2023 CAR-ANS PART 15 VOLMET – Meteorological information for aircraft in flight. Data link-VOLMET (D-VOLMET) – Provision of current aerodrome routine meteorological reports (METAR) and aerodrome special meteorological reports (SPECI), aerodrome forecasts (TAF), SIGMET, special air-reports not covered by a SIGMET and, where available, AIRMET via data link. VOLMET broadcast – Provision, as appropriate, of current METAR, SPECI, TAF and SIGMET by means of continuous and repetitive voice broadcasts. * ISO Standard 9000 - Quality Management Systems – Fundamentals and Vocabulary 19101 - Geographic information – Reference model 19104 - Geographic information – Terminology 19108 - Geographic information – Temporal schema 19109 - Geographic information – Rules for application schema 19110 - Geographic information – Feature cataloguing schema 19115 - Geographic information – Metadata 19117 - Geographic information – Portrayal 19131 - Geographic information – Data product specification 15.1.1.2 ACRONYMS AND ABBREVIATIONS ADS-B Automatic Dependents Surveillance - Broadcast ADS-C Automatic Dependents Surveillance - Contract AMD Aerodrome Mapping Data AMDB Aerodrome Mapping Database AFS Aeronautical Fixed Service AIC Aeronautical Information Circular AIM Aeronautical Information Management AIP Aeronautical Information Publication AIRAC Aeronautical Information Regulation and Control AIS Aeronautical Information Service ADIZ Air Defence Identification Zone ATIS Automatic Terminal Information Service ATM Air Traffic Management ATS Air Traffic Services CPDLC Controller-Pilot Data Link Communications CRC Cyclic Redundancy Check DEM Digital Elevation Model GPS Global Positioning System ICAO International Civil Aviation Organization July 2023 15.1-11 2nd Edition CAR-ANS PART 15 IERS International Earth Rotation Service IFR Instrument Flight Procedure ISO International Organization for Standardization ITRF IERS Terrestrial Reference System MEA Minimum En-route Altitude MET Meteorology MOCA Minimum Obstacle Clearance Altitude MSL Mean Sea Level NOTAM Notice to Airmen PBC Performance-based Communication PBN Performance-based Navigation PBS Performance-based Surveillance PIB Pre-flight Information Bulleting RNAV Area Navigation RCP Required Communication Performance specification RSP Required Surveillance Performance specification SAR Search and Rescue UTC Coordinated Universal Time VFR Visual Flight Rules WGS World Geodetic System 15.1.2 Common reference systems for air navigation 15.1.2.1 Horizontal reference system 15.1.2.1.1 The World Geodetic System — 1984 (WGS-84) shall be used as the horizontal (geodetic) reference system for international air navigation. Consequently, published aeronautical geographical coordinates (indicating latitude and longitude) shall be expressed in terms of the WGS-84 geodetic reference datum. Note.— Comprehensive guidance material concerning WGS-84 is contained in the World Geodetic System — 1984 (WGS-84) Manual (ICAO Document 9674). 15.1.2.1.2 In precise geodetic applications and some air navigation applications, temporal changes in the tectonic plate motion and tidal effects on the Earth’s crust should be modelled and estimated. To reflect the temporal effect, an epoch should be included with any set of absolute station coordinates. Note 1.— The epoch of the WGS-84 (G873) reference frame is 1997.0 while the epoch of the latest updated WGS-84 (G1150) reference frame, which includes a plate motion model, is 2001.0. (G indicates that the coordinates were obtained through Global Positioning System (GPS) techniques, and the number following G indicates the GPS week when these coordinates were implemented 2nd Edition 15.1-12 July 2023 CAR-ANS PART 15 in the United States’ National Geospatial- Intelligence Agency’s precise ephemeris estimation process.). Note 2.— The set of geodetic coordinates of globally distributed permanent GPS tracking stations for the most recent realization of the WGS-84 reference frame (WGS-84 (G1150)) is provided in ICAO Document 9674. For each permanent GPS tracking station, the accuracy of an individually estimated position in WGS-84 (G1150) has been in the order of 1 cm (1σ). Note 3.— Another precise worldwide terrestrial coordinate system is the International Earth Rotation Service (IERS) Terrestrial Reference System (ITRS), and the realization of ITRS is the IERS Terrestrial Reference Frame (ITRF). Guidance material regarding the ITRS is provided in Appendix C of ICAO Document 9674. The most current realization of the WGS-84 (G1150) is referenced to the ITRF 2000 epoch. The WGS-84 (G1150) is consistent with the ITRF 2000 and in practical realization the difference between these two systems is in the one to two centimeter range worldwide, meaning WGS-84 (G1150) and ITRF 2000 are essentially identical. 15.1.2.2 Vertical reference system 15.1.2.2.1 Mean sea level (MSL) datum shall be used as the vertical reference system for international air navigation. Note 1.— The geoid globally most closely approximates MSL. It is defined as the equipotential surface in the gravity field of the Earth which coincides with the undisturbed MSL extended continuously through the continents. Note 2.— Gravity-related heights (elevations) are also referred to as orthometric heights while distances of points above the ellipsoid are referred to as ellipsoidal heights. 15.1.2.2.2 The Earth Gravitational Model — (EGM-96) shall be used as the global gravity 1996 model for international air navigation. 15.1.2.2.3 At those geographical positions where the accuracy of EGM-96 does not meet the accuracy requirements for elevation and geoid undulation on the basis of EGM-96 data, regional, national or local geoid models containing high resolution (short wavelength) gravity field data shall be developed and used. When a geoid model other than the EGM-96 model is used, a description of the model used, including the parameters required for height transformation between the model and EGM-96, shall be provided in the Aeronautical Information Publication (AIP). Note.— Specifications concerning determination and reporting (accuracy of field work and data integrity) of elevation and geoid undulation at specific positions at aerodromes/heliports are given in the MOS AIS, Appendix 1. July 2023 15.1-13 2nd Edition CAR-ANS PART 15 15.1.2.3 Temporal reference system 15.1.2.3.1 Gregorian calendar and Coordinated Universal Time (UTC) shall be used as the temporal reference system for all AIS publications. Note 1.— A value in the time domain is a temporal position measured relative to a temporal reference system. Note 2.— Coordinated Universal Time (UTC) is a time scale maintained by the Bureau International de l’Heure (BIH) and the IERS and forms the basis of a coordinated dissemination of standard frequencies and time signals. Note 3.— See CAR-ANS Part 5, for guidance material relating to UTC. Note 4.— ISO Standard 8601 specifies the use of the Gregorian calendar and 24-hour local or UTC for information interchange while ISO Standard 19108 prescribes the Gregorian calendar and UTC as the primary temporal reference system for use with geographic information. 15.1.2.3.2 When a different temporal reference system is used for some applications, the feature catalogue, or the metadata associated with an application schema or a data set, as appropriate, shall include either a description of that system or a citation for a document that describes that temporal reference system. Note — ISO Standard 191108, Annex D, describes some aspects of calendars that may have to be considered in such a description. 15.1.3 Miscellaneous specifications 15.1.3.1 Aeronautical information products intended for international distribution shall include English text for those parts expressed in plain language. 15.1.3.2 Place names shall be spelt in conformity with local usage, transliterated, when necessary, into the ISO-Basic Latin alphabet. 15.1.3.3 Units of measurement used in the origination, processing and distribution of aeronautical data and aeronautical information shall be consistent to the table contained in AIP Philippines GEN 2.1. 15.1.3.4 ICAO abbreviations shall be used in aeronautical information products whenever they are appropriate and their use will facilitate distribution of aeronautical data and aeronautical information. * ISO Standard 8601 — Data elements and interchange formats — Information interchange — Representation of dates and times 9000 — Quality Management Systems — Fundamentals and Vocabulary 19101 — Geographic information — Reference model 19104 — Geographic information — Terminology 19108 — Geographic information — Temporal schema 19109 — Geographic information — Rules for application schema 2nd Edition 15.1-14 July 2023 CAR-ANS PART 15 19110 — Geographic information — Feature cataloguing schema 19115 — Geographic information — Metadata 19117 — Geographic information — Portrayal 19131 — Geographic information — Data product specification _____________________________ July 2023 15.1-15 2nd Edition CAR-ANS PART 15 INTENTIONALLY LEFT BLANK 2nd Edition 15.1-16 July 2023 CAR-ANS PART 15 15.2 RESPONSIBILITIES AND FUNCTIONS 15.2.1 State responsibilities 15.2.1.1 The Civil Aviation Authority of the Philippines (CAAP) provides aeronautical information services (AIS) through the Aeronautical Information Services (AIS) Philippines. 15.2.1.2 CAAP shall ensure that the provision of aeronautical data and aeronautical information covers the entire territory of the Republic of the Philippines and those areas over the high seas for which it is responsible for the provision of air traffic services (ATS). 15.2.1.3 CAAP shall remain responsible for the aeronautical data and aeronautical information provided in accordance with 15.2.1.2. 15.2.1.4 CAAP shall ensure that the aeronautical data and aeronautical information provided are of required quality in accordance with 15.3.2. 15.2.1.5 CAAP shall ensure that formal arrangements are established between originators of aeronautical data and aeronautical information and the AIS in relation to the timely and complete provision of aeronautical data and aeronautical information. Note.— The scope of aeronautical data and aeronautical information that would be the subject of formal arrangements is specified in 15.4. 15.2.2 AIS responsibilities and functions 15.2.2.1 An AIS shall ensure that aeronautical data and aeronautical information necessary for the safety, regularity and efficiency of air navigation are made available in a form suitable for the operational requirements of the air traffic management (ATM) community, including: a) those involved in flight operations, including flight crews, flight planning and flight simulators; and b) the ATS unit responsible for flight information service and the services responsible for pre-flight information. Note.— A description of the ATM community is contained in the Global Air Traffic Management Operational Concept (ICAO Document 9854). 15.2.2.2 An AIS shall receive, collate or assemble, edit, format, publish/store and distribute aeronautical data and aeronautical information concerning the entire territory of the State as well as those areas over the high seas in which the State is responsible for the provision of ATS. Aeronautical data and aeronautical information shall be provided as aeronautical information products. Note.— An AIS may include origination functions. July 2023 15.2-1 2nd Edition CAR-ANS PART 15 15.2.2.3 An AIS shall, in addition, obtain aeronautical data and aeronautical information to enable it to provide pre-flight information service and to meet the need for in-flight information: a) from the AIS of other States; and b) from other sources that may be available. Note.— One such source is the subject of a provision in 15.5.6. 15.2.2.4 Aeronautical data and aeronautical information obtained under 15.2.2.3 a) shall when distributed, be clearly identified as having the authority of the originating State. 15.2.2.5 Aeronautical data and aeronautical information obtained under 15.2.2.3 b) shall, if possible, be verified before distribution and if not verified shall, when distributed, be clearly identified as such. 15.2.2.6 An AIS shall promptly make available to the AIS of other States any aeronautical data and aeronautical information necessary for the safety, regularity or efficiency of air navigation required by them, to enable them to comply with 15.2.2.1. 15.2.3 Exchange of aeronautical data and aeronautical information 15.2.3.1 All elements of aeronautical information products provided by other States shall be addressed to AIS Philippines office. This office shall be qualified to deal with requests for aeronautical data and aeronautical information provided by other States. 15.2.3.2 Formal arrangements should be established between AIS Philippines and their users in relation to the provision of the service. Note.— Guidance material on such formal arrangements is contained in the Aeronautical Information Services Manual (ICAO Document 8126). 15.2.3.3 An AIS shall arrange, as necessary, to satisfy operational requirements for the issuance and receipt of NOTAM distributed by telecommunication. 15.2.3.4 Whenever practicable, direct contact between AIS shall be established in order to facilitate the international exchange of aeronautical data and aeronautical information. 15.2.3.5 Except as provided in 15.2.3.7, one copy of each of the following aeronautical information products (where available) that have been requested by the AIS Philippines shall be made available by the originating State and provided in the mutually agreed form(s), without charge, even where authority for publication/storage and distribution has been delegated to a non-governmental agency: a) Aeronautical Information Publication (AIP), including Amendments and Supplements; 2nd Edition 15.2-2 July 2023 CAR-ANS PART 15 b) Aeronautical Information Circulars (AIC); c) NOTAM; and d) Aeronautical Charts. 15.2.3.6 The exchange of more than one copy of the elements of aeronautical information products, and other air navigation documents, including those containing air navigation legislation and regulations, should be subject to bilateral agreement between the participating Contracting States and entities. 15.2.3.7 When aeronautical data and aeronautical information are provided in the form of digital data sets to be used by the AIS, they shall be provided on the basis of agreement between the Contracting States concerned. Note.— The intention is that States are able to access data for the purposes specified in 15.2.2.3. 15.2.3.8 The procurement of aeronautical data and aeronautical information, including the elements of aeronautical information products, and other air navigation documents, including those containing air navigation legislation and regulations, by other States and entities shall be subject to separate agreement between the participating States and entities. 15.2.3.9 Globally interoperable aeronautical data and aeronautical information exchange models shall be used for the provision of data sets. Note 1.— Specifications concerning globally interoperable aeronautical data and aeronautical information exchange models are contained in the MOS-AIS. Note 2.— Guidance material on globally interoperable aeronautical data and aeronautical information exchange models is contained in ICAO Document 8126. 15.2.4 Copyright Note.— In order to protect the investment in the products of AIS Philippines as well as to ensure better control of their use, CAAP may wish to apply copyright to those products in accordance with the national laws. 15.2.4.1 Any aeronautical information product which has been granted copyright protection and provided to another State in accordance with 15.2.3 shall only be made available to a third party on the condition that the third party is made aware that the product is copyright protected and provided that it is appropriately annotated that the product is subject to copyright. 15.2.4.2 When aeronautical data and aeronautical information are provided to other State in accordance with 15.2.3.7, the receiving State shall not provide the digital data sets to any party without the consent of the providing State. July 2023 15.2-3 2nd Edition CAR-ANS PART 15 15.2.5 Cost recovery The overhead cost of collecting and compiling aeronautical data and aeronautical information shall be included in the cost basis for airport and air navigation services charges, as appropriate, in accordance with the principles contained in ICAO’s Policies on Charges for Airports and Air Navigation Services (ICAO Document 9082). Note.— When costs of collection and compilation of aeronautical data and aeronautical information are recovered through airport and air navigation services charges, the charge to an individual customer for the supply of a particular aeronautical information product may be based on the costs of printing paper copies, production of electronic media and distribution. ________________________ 2nd Edition 15.2-4 July 2023 CAR-ANS PART 15 15.3. AERONAUTICAL INFORMATION MANAGEMENT 15.3.1 Information management requirements The information management resources and processes established by an aeronautical information services (AIS) shall be adequate to ensure the timely collection, processing, storing, integration, exchange and delivery of quality-assured aeronautical data and aeronautical information within the air traffic management (ATM) system. 15.3.2 Data quality specifications 15.3.2.1 Data accuracy The order of accuracy for aeronautical data shall be in accordance with its intended use. Note.— Specifications concerning the order of accuracy (including confidence level) for aeronautical data are contained in the MOS- AIS, Appendix 1. 15.3.2.2 Data resolution The order of resolution of aeronautical data shall be commensurate with the actual data accuracy. Note 1.— Specifications concerning the resolution of aeronautical data are contained in the MOS-AIS, Appendix 1. Note 2.— The resolution of the data contained in the database may be the same or finer than the publication resolution. 15.3.2.3 Data integrity 15.3.2.3.1 The integrity of aeronautical data shall be maintained throughout the data chain from origination to distribution to the next intended user. Note.— Specifications concerning the integrity classification related to aeronautical data are contained in the MOS-AIS, Appendix 1. 15.3.2.3.2 Based on the applicable integrity classification, procedures shall be put in place in order to: a) for routine data: avoid corruption throughout the processing of the data; b) for essential data: assure corruption does not occur at any stage of the entire process and include additional processes as needed to address potential risks in the overall system architecture to further assure data integrity at this level; and c) for critical data: assure corruption does not occur at any stage of the entire process and include additional integrity assurance processes to fully mitigate the effects of faults identified by thorough analysis of the overall system architecture as potential data integrity risks. July 2023 15.3-1 2nd Edition CAR-ANS PART 15 15.3.2.4 Data traceability Traceability of aeronautical data shall be ensured and retained as long as the data is in use. 15.3.2.5 Data timeliness Timeliness of aeronautical data shall be ensured by including limits on the effective period of the data elements. Note 1.— These limits may be associated with individual data elements or data sets. Note 2.— If the effective period is defined for a data set, it will account for the effective dates of all of the individual data elements. 15.3.2.6 Data completeness Completeness of aeronautical data shall be ensured in order to support its intended use. 15.3.2.7 Data format The format of delivered aeronautical data shall be adequate to ensure that the data is interpreted in a manner that is consistent with its intended use. 15.3.3 Aeronautical data and aeronautical information verification and validation 15.3.3.1 Material to be issued as part of an aeronautical information product shall be thoroughly checked before it is submitted to the AIS in order to ensure that all necessary information has been included and that it is correct in detail. 15.3.3.2 An AIS shall establish verification and validation procedures which ensure that upon receipt of aeronautical data and aeronautical information, quality requirements are met. 15.3.4 Data error detection 15.3.4.1 Digital data error detection techniques shall be used during the transmission and/or storage of aeronautical data and digital data sets. 15.3.4.2 Digital data error detection techniques shall be used in order to maintain the integrity levels as specified in 15.3.2.3. Note.— Detailed specifications concerning digital data error detection techniques are contained in the MOS-AIS. 2nd Edition 15.3-2 July 2023 CAR-ANS PART 15 15.3.5 Use of automation 15.3.5.1 Automation shall be applied in order to ensure the quality, efficiency and cost-effectiveness of aeronautical information services. Note.— Guidance material on the development of databases and the establishment of data exchange services is contained in ICAO Document 8126. 15.3.5.2 Due consideration to the integrity of data and information shall be given when automated processes are implemented and mitigating steps taken where risks are identified. Note.— Risks of altering the integrity of data and information may be introduced by automated processes in cases of unexpected systems behaviours. 15.3.5.3 In order to meet the data quality requirements, automation shall: a) enable digital aeronautical data exchange between the parties involved in the data processing chain; and b) use aeronautical information exchange models and data exchange models designed to be globally interoperable. 15.3.6 Quality management system 15.3.6.1 Quality management systems shall be implemented and maintained encompassing all functions of an AIS, as outlined in 15.2.2. The execution of such quality management systems shall be made demonstrable for each function stage. Note.— Guidance material is contained in the Manual on the Quality Management System for Aeronautical Information Services (ICAO Document 9839). 15.3.6.2 Quality management shall be applicable to the whole aeronautical data chain from data origination to distribution to the next intended user, taking into consideration the intended use of data. 15.3.6.3 The quality management system established in accordance with 15.3.6.1 shall follow the ISO 9000 series of quality assurance standards as a minimum and should be certified by an accredited certification body. 15.3.6.4 Within the context of the established quality management system, the competencies and the associated knowledge, skills and abilities required for each function shall be identified, and personnel assigned to perform those functions shall be appropriately trained. Processes shall be in place to ensure that personnel possess the competencies required to perform specific assigned functions. Appropriate records shall be maintained so that the qualifications of personnel can be confirmed. Initial and periodic assessments shall be established that require personnel to demonstrate the required competencies. Periodic assessments of personnel shall be used as a means to detect and correct shortfalls in knowledge, skills and abilities. July 2023 15.3-3 2nd Edition CAR-ANS PART 15 15.3.6.5 Each quality management system shall include the necessary policies, processes and procedures, including those for the use of metadata, to ensure and verify that aeronautical data is traceable throughout the aeronautical information data chain so as to allow any data anomalies or errors detected in use to be identified by root cause, corrected and communicated to affected users. 15.3.6.6 The established quality management system shall provide users with the necessary assurance and confidence that distributed aeronautical data and aeronautical information satisfy the aeronautical data quality requirements. 15.3.6.7 All necessary measures shall be taken to monitor compliance with the quality management system in place. 15.3.6.8 Demonstration of compliance of the quality management system applied shall be by audit. If nonconformity is identified, initiating action to correct its cause shall be determined and taken without undue delay. All audit observations and remedial actions shall be evidenced and properly documented. 15.3.7 Human factors considerations 15.3.7.1 The organization of an AIS as well as the design, contents, processing and distribution of aeronautical data and aeronautical information shall take into consideration human factors principles which facilitate their optimum utilization. 15.3.7.2 Due consideration shall be given to the integrity of information where human interaction is required and mitigating steps taken where risks are identified. Note.— This may be accomplished through the design of systems, operating procedures or improvements in the operating environment. ______________________ 2nd Edition 15.3-4 July 2023 CAR-ANS PART 15 15.4 SCOPE OF AERONAUTICAL DATA AND AERONAUTICAL INFORMATION Note.— The scope of aeronautical data and aeronautical information provides the minimum requirement to support aeronautical information products and services, aeronautical navigation data bases, air navigation applications and air traffic management (ATM) systems. 15.4.1 Scope of aeronautical data and aeronautical information 15.4.1.1 The aeronautical data and aeronautical information to be received and managed by the aeronautical information service (AIS) shall include at least the following sub-domains: a) national regulations, rules and procedures; b) aerodromes and heliports; c) airspace; d) air traffic services (ATS) routes; e) instrument flight procedures; f) radio navigation aids/systems; g) obstacles; h) terrain; and i) geographic information. Note 1.— Detailed specifications concerning the content of each sub-domain are contained in the MOS-AIS, Appendix 1. Note 2.— Aeronautical data and aeronautical information in each sub-domain may be originated by more than one organization or authority. 15.4.1.2 Determination and reporting of aeronautical data shall be in accordance with the accuracy and integrity classification required to meet the needs of the end-user of aeronautical data. Note.— Specifications concerning the accuracy and integrity classification related to aeronautical data are contained in the MOS-AIS, Appendix 1. 15.4.2 Metadata 15.4.2.1 Metadata shall be collected for aeronautical data processes and exchange points. 15.4.2.2 Metadata collection shall be applied throughout the aeronautical information data chain, from origination to distribution to the next intended user. Note.— Detailed specifications concerning metadata are contained in the MOS-AIS. __________________________ July 2023 15.4-1 2nd Edition CAR-ANS PART 15 INTENTIONALLY LEFT BLANK 2nd Edition 15.4-2 July 2023 CAR-ANS PART 15 15.5 AERONAUTICAL INFORMATION PRODUCTS AND SERVICES 15.5.1 General 15.5.1.1 Aeronautical information shall be provided in the form of aeronautical information products and associated services. Note.— Specifications concerning the order of resolution of aeronautical data provided for each aeronautical information product are contained in the MOS-AIS, Appendix 1. 15.5.1.2 When aeronautical data and aeronautical information are provided in multiple formats, processes shall be implemented to ensure data and information consistency between formats. 15.5.2 Aeronautical information in a standardized presentation 15.5.2.1 Aeronautical information provided in a standardized presentation shall include the aeronautical information publication (AIP), AIP Amendments, AIP Supplements, AIC, NOTAM and aeronautical charts. Note 1.— Detailed specifications about AIP, AIP Amendments, AIP Supplements, AIC and NOTAM are contained in the MOS- AIS. Note 2.— Cases where digital data sets may replace the corresponding elements of the standardized presentation are detailed in the MOS-AIS. 15.5.2.1.1 The AIP, AIP Amendment, AIP Supplement and AIC shall be provided on paper and/or as an electronic document. 15.5.2.1.2 The AIP, AIP Amendment, AIP Supplement and AIC when provided as an electronic document (eAIP) should allow for both displaying on electronic devices and printing on paper. 15.5.2.2 Aeronautical Information Publication Note 1.— The AIP is intended primarily to satisfy international requirements for the exchange of aeronautical information of a lasting character essential to air navigation. Note 2.— The AIP constitutes the basic information source for permanent information and long duration temporary changes. 15.5.2.2.1 AIP shall include: a) a statement of the competent authority responsible for the air navigation facilities, services or procedures covered by the AIP; b) the general conditions under which the services or facilities are available for international use; c) a list of significant differences between the national regulations and practices of the State and the related ICAO Standards, Recommended Practices and Procedures, given July 2023 15.5-1 2nd Edition CAR-ANS PART 15 in a form that would enable a user to differentiate readily between the requirements of the State and the related ICAO provisions; d) the choice made by a State in each significant case where an alternative course of action is provided for ICAO Standards, Recommended Practices and Procedures. 15.5.2.3 AIP Supplement 15.5.2.3.1 A checklist of valid AIP Supplements shall be regularly provided. Note.— Detailed specifications concerning the frequency for providing checklists of valid AIP Supplements are contained in the MOS-AIS. 15.5.2.4 Aeronautical Information Circulars 15.5.2.4.1 An AIC shall be used to provide: a) a long-term forecast of any major change in legislation, regulations, procedures or facilities; or b) information of a purely explanatory or advisory nature liable to affect flight safety; or c) information or notification of an explanatory or advisory nature concerning technical, legislative or purely administrative matters. 15.5.2.4.2 An AIC shall not be used for information that qualifies for inclusion in AIP and NOTAM. 15.5.2.4.3 The validity of AIC currently in force shall be reviewed at least once a year. 15.5.2.4.4 A checklist of currently valid AIC shall be regularly provided. Note.— Detailed specifications concerning the frequency for providing checklists of valid AIC are contained in the MOS-AIS. 15.5.2.5 Aeronautical charts Note.— CAR-ANS Part 4 — Aeronautical Charts provides regulations including provision requirements for each chart type. 15.5.2.5.1 The aeronautical charts listed below shall, when available for designated international aerodromes/heliports, form part of the AIP, or be provided separately to recipients of the AIP: a) Aerodrome/Heliport Chart — ICAO; b) Aerodrome Ground Movement Chart — ICAO; c) Aerodrome Obstacle Chart — ICAO Type A; d) Aerodrome Obstacle Chart — ICAO Type B (when available); e) Aerodrome Terrain and Obstacle Chart — ICAO (Electronic); 2nd Edition 15.5-2 July 2023 CAR-ANS PART 15 f) Aircraft Parking/Docking Chart — ICAO; g) Area Chart — ICAO; h) ATC Surveillance Minimum Altitude Chart — ICAO; i) Instrument Approach Chart — ICAO; j) Precision Approach Terrain Chart — ICAO; k) Standard Arrival Chart — Instrument (STAR) — ICAO; l) Standard Departure Chart — Instrument (SID) — ICAO; and m) Visual Approach Chart — ICAO. Note.— A page pocket may be used in the AIP to include the Aerodrome Terrain and Obstacle Chart — ICAO (Electronic) on appropriate electronic media. 15.5.2.5.2 The Enroute Chart — ICAO shall, when available, form part of the AIP, or be provided separately to recipients of the AIP. 15.5.2.5.3 The aeronautical charts listed below shall, when available, be provided as aeronautical information products: a) World Aeronautical Chart — ICAO 1:1 000 000; b) Aeronautical Chart — ICAO 1:500 000; c) Aeronautical Navigation Chart — ICAO Small Scale; d) Plotting Chart — ICAO chart; and e) ATC Surveillance Minimum Altitude Chart — ICAO. 15.5.2.5.4 Electronic aeronautical charts should be provided based on digital databases and the use of geographic information systems. 15.5.2.5.5 The chart resolution of aeronautical data shall be that as specified for a particular chart. Note.— Specifications concerning the chart resolution for aeronautical data are contained in the MOS-AIS, Appendix 1. 15.5.2.6 NOTAM Note.1 — Detailed specifications for NOTAM, including formats for ASHTAM, are contained in the MOS-AIS. A checklist of valid NOTAM shall be regularly provided. Note.2 — Detailed specifications concerning the frequency for providing checklists of valid NOTAM are contained in the MOS- AIS. 15.5.3 Digital data sets 15.5.3.1 General 15.5.3.1.1 Digital data shall be in the form of the following data sets: a) AIP data set; July 2023 15.5-3 2nd Edition CAR-ANS PART 15 b) terrain data sets; c) obstacle data sets; d) aerodrome mapping data sets; and e) instrument flight procedure data sets. Note.— Detailed specifications concerning the content of the digital data sets are contained in the MOS-AIS. 15.5.3.1.2 Each data set shall be provided to the next intended user together with at least the minimum set of metadata that ensures traceability. Note.— Detailed specifications concerning metadata are contained in the MOS-AIS. 15.5.3.1.3 A checklist of valid data sets shall be regularly provided. 15.5.3.2 AIP data set 15.5.3.2.1 An AIP data set should be provided covering the extent of information as provided in the AIP. 15.5.3.2.2 When it is not possible to provide a complete AIP data set, the data subset(s) that are available should be provided. 15.5.3.2.3 The AIP data set shall contain the digital representation of aeronautical information of lasting character (permanent information and long duration temporary changes) essential to air navigation. 15.5.3.3 Terrain and obstacle data sets Note 1.— Numerical requirements for terrain and obstacle data sets are contained in the MOS-AIS, Appendices 1 and 8. Note 2.— Requirements for terrain and obstacle data collection surfaces are contained in the MOS-AIS, Appendix 8. 15.5.3.3.1 The coverage areas for terrain and obstacle data sets shall be specified as: — Area 1: the entire territory of the Philippines; — Area 2: within the vicinity of an aerodrome, subdivided as follows: — Area 2a: a rectangular area around a runway that comprises the runway strip plus any clearway that exists; Note.— See MOS for Aerodromes Chapter 6 for dimensions for runway strips. — Area 2b: an area extending from the ends of Area 2a in the direction of departure, with a length of 10 km and a splay of 15 per cent to each side; — Area 2c: an area extending outside Area 2a and Area 2b at a distance of not more than 10 km from the boundary 2nd Edition 15.5-4 July 2023 CAR-ANS PART 15 of Area 2a; and — Area 2d: an area outside Areas 2a, 2b and 2c up to a distance of 45 km from the aerodrome reference point, or to an existing terminal control area (TMA) boundary, whichever is nearest; — Area 3: the area bordering an aerodrome movement area that extends horizontally from the edge of a runway to 90 m from the runway center line and 50 m from the edge of all other parts of the aerodrome movement area; and — Area 4: the area extending 900 m prior to the runway threshold and 60 m each side of the extended runway center line in the direction of the approach on a precision approach runway, Category II or III. 15.5.3.3.2 Where the terrain at a distance greater than 900 m (3 000 ft) from the runway threshold is mountainous or otherwise significant, the length of Area 4 should be extended to a distance not exceeding 2 000 m (6 500 ft) from the runway threshold. 15.5.3.3.3 Terrain data sets 15.5.3.3.3.1 Terrain data sets shall contain the digital representation of the terrain surface in the form of continuous elevation values at all intersections (points) of a defined grid, referenced to common datum. 15.5.3.3.3.2 Terrain data shall be provided for Area 1. 15.5.3.3.3.3 For aerodromes regularly used by international civil aviation, terrain data shall be provided for: a) Area 2a; b) the take-off flight path area; and c) an area bounded by the lateral extent of the aerodrome obstacle limitation surfaces. 15.5.3.3.3.4 For aerodromes regularly used by international civil aviation, additional terrain data should be provided within Area 2 as follows: a) in the area extending to a 10-km radius from the ARP; and b) within the area between 10 km and the TMA boundary or a 45-km radius (whichever is smaller), where terrain penetrates a horizontal terrain data collection surface specified as 120 m above the lowest runway elevation. 15.5.3.3.3.5 Arrangements should be made for coordinating the provision of terrain data for adjacent aerodromes where their respective coverage areas overlap to assure that the data for the same terrain is correct. 15.5.3.3.3.6 For those aerodromes located near territorial boundaries, arrangements should be made among States concerned to share terrain data. July 2023 15.5-5 2nd Edition CAR-ANS