Home   Cart   Quotation   Policy   About-Us
www.ChineseStandard.net
SEARCH

MHT4041-2014 English PDF

US$699.00 · In stock
Delivery: <= 5 days. True-PDF full-copy in English will be manually translated and delivered via email.
MHT4041-2014: The technical specification of civil aviation AFTN/SITA communication system
Status: Valid
Standard IDUSDBUY PDFLead-DaysStandard Title (Description)Status
MH/T 4041-2014699 Add to Cart 5 days The technical specification of civil aviation AFTN/SITA communication system Valid

Similar standards

MH/T 4039   MH/T 4040   MH/T 4038   

Basic data

Standard ID: MH/T 4041-2014 (MH/T4041-2014)
Description (Translated English): The technical specification of civil aviation AFTN/SITA communication system
Sector / Industry: Civil Aviation Industry Standard (Recommended)
Word Count Estimation: 28,282
Date of Issue: 28/2/2014
Date of Implementation: 1/5/2014
Issuing agency(ies): Civil Aviation Administration of China

MHT4041-2014: The technical specification of civil aviation AFTN/SITA communication system

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
The technical specification of civil aviation AFTN/SITA communication system ICS 03.220.50 V 54 MH Civil Aviation Industry Standard of the People's Republic of China Technical specifications for civil aviation automatic reporting system 2014-02-08 released 2014-05-01 implementation Issued by Civil Aviation Administration of China

Table of contents

Foreword...II 1 Scope...1 2 Normative references...1 3 Terms and definitions...1 4 Codes and abbreviations...2 5 Communication protocol and interface...2 6 Telegram format...4 7 Relay system...22 8 Telegraph Terminal...24

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard was proposed and interpreted by the Air Traffic Management Bureau of the Civil Aviation Administration of China. This standard was approved by the Aircraft Airworthiness Certification Department of the Civil Aviation Administration of China. This standard is under the jurisdiction of the China Academy of Civil Aviation Science and Technology. Drafting organization of this standard. Air Traffic Management Bureau of Civil Aviation Administration of China. The main drafters of this standard. Li Xin, Liu Shujun, Wang Weiqing, Wang Tianyu, Zhang Chunkui, Li Lincan, Du Ming, Zhang Shiping, Tang Yanfeng. MH Technical specifications for civil aviation automatic reporting system

1 Scope

This standard specifies the communication protocol and interface, telegram format, transmission system and telegraph terminal technical requirements of civil aviation automatic transmission system. begging. This standard applies to the design, construction and operation of the automatic reporting system for civil aviation air traffic management.

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document.

3 Terms and definitions

The following terms and definitions apply to this document. 3.1 Channel The virtual channel for interconnection between the relay system and the user terminal or the relay system. 3.2 Routing address The receiving address in the telegram. 3.3 Management console Configure the relevant parameters of the reporting system, and at the same time can monitor the operating status of the entire reporting system, record system logs and alarm information terminal.

4 Codes and abbreviations

4.1 Code The following codes apply to this document. 4.2 Abbreviations The following abbreviations apply to this document. DCE data circuit-terminating equipment DTE data terminal equipment (data terminal equipment) FR frame relay ITU International Telecommunications Union (International Telecommunications Union) LAPB link access procedure balanced PVC permanent virtual circuit (permanent virtual circuit) SVC switched virtual circuit (switched virtual circuit)

5 Communication protocol and interface

5.1 Interface type The transmission equipment interface of the automatic reporting system is divided into three types. synchronous interface, asynchronous interface and Ethernet interface. Access to the automatic reporting system User equipment should adopt the interface type and corresponding communication protocol specified in this standard. 5.2 Interface technical requirements 5.3 Synchronization interface 5.4 Asynchronous interface 5.4.1 RS232 interface 5.4.2 Current loop access The requirements for current (specifically double current) loop access are as follows. --Physical interface. The interface connection adopts three wires (transmitting wire, receiving wire, signal ground wire) mode; --Current loop working requirements. voltage is DC ± 24 V, current is DC 4 mA ± 2 mA; --Communication protocol. asynchronous communication protocol; --Interface rate. 50 bit/s, 100 bit/s, 300 bit/s, 600 bit/s, 1.200 bit/s; --Transmission code. When IA-5 is encoded, it contains 7 or 8 data bits, 1 or 2 stop bits, and no parity bit; the transmission code is ITA-2 When encoding, it contains 5 data bits, 1.5 stop bits and no parity bit; --Hardware interface. Three wires (transmitting wire, receiving wire, signal ground wire) are directly interconnected. 5.5 Ethernet interface The requirements for Ethernet access are as follows. --Physical interface. Comply with TIA/EIA-568-A-5 and TIA/EIA-568-B.2 related to EIA-568A interface and EIA-568B interface Regulations --Communication protocol. comply with IEEE 802.3 regulations; --Network protocol. IPX/SPX, TCP/IP, UDP/IP; --Interface rate. 10 Mbit/s, 100 Mbit/s, 1 000 Mbit/s; --Interface hardware. The interface is RJ-45 crystal head, and the interface line is shielded or unshielded twisted pair.

6 Telegram format

6.1 Name, logo and description of telegram types 6.1.1.2.1 The message header shall contain the start tag of the telegram, circuit identification, message sequence number, supplementary information and spaces. 6.1.1.2.2 When using ITA-2, the following information should be arranged in order. ――The telegram start mark ZCZC; ――A space; ――The sending terminal identification in the circuit identification is represented by one character; ――The receiving terminal identification in the circuit identification is represented by one character; ――The circuit identification number is represented by one character. If it is a number, you need to add a number key before the number; ――A space; --number key; ——The message serial number is represented by a 3-digit, 4-digit or 5-digit number; ――A space; ――The supplementary service indication is a 2-digit date and a 4-digit UTC time. 6.1.1.2.3 When using IA-5, the following information should be arranged in order. a) The start of the telegram is marked SOH; b) a space; c) The sending terminal identification in the circuit identification is represented by one character; d) The receiving terminal identification is represented by one character; e) The circuit identification number is represented by a character or number; f) a space; g) The message sequence number is represented by a 3-digit, 4-digit or 5-digit number; h) a space; i) The supplementary service indication is a 2-digit date and a 4-digit UTC time. 6.1.1.3 Receiving address line 6.1.1.3.1 General requirements The address line specifies the destination address of the message. The composition of the address is composed in the following order. a) Reroute (optional); b) Short address line (ie supplementary address line (optional)); c) Normal address line. Most SITA telegrams only contain normal address lines. If the address part contains multiple elements, each element should have an address before it Start character. 6.1.1.3.2 Reroute (optional) Only when the main route is abnormal, the diversion line will be used in the message. The diversion line should follow the header (in the short address line and the normal address Before the line), it should contain the following parts. a) Address start tag. ――Different according to different encoding methods; ――When using ITA-2 code, it should include a carriage return, a line feed and a letter key; ――When using Padded Baudot encoding, it should include a carriage return and a line feed; ――When using IA-5 encoding, it should contain a carriage return and a line feed; ――SITA messages only allow the combination of carriage return and line feed, and both sender and receiver should keep the same configuration; b) Diversion mark. consists of the letters QSP and a space; c) Route selection mark. ――It has the following two functions. ――Notify the SITA center that needs to implement the rerouting, the telegram is carried on the alternate route and has not been erroneously transferred; ――Notify the destination of the rerouting, the telegram was transferred via the alternate route; ――The format varies according to the application method. When rerouting between local users in the SITA Center, the routing standard used The record consists of 8 characters. ――The first 4 Arabic numerals indicate the destination of the request for rerouting; ――A letter X in the middle; ――The last 3 characters represent the local SITA center code (city or airport code), which is responsible for rerouting; ――When rerouting between SITA centers, it consists of 7 characters. ――The first 3 characters are the sign of the destination address (city or airport code); ――A letter X in the middle; ――The last 3 characters represent the local SITA center code (city or airport code), which is responsible for rerouting; ――Only when an agreement relationship has been established with the redirected destination can the message redirection operation be performed;

7 Relay system

7.1 Composition 7.1.1 The automatic reporting system consists of a business processing subsystem, a communication subsystem and a monitoring subsystem. 7.1.2 The business processing subsystem mainly deals with the code conversion of input telegrams, the identification of telegram format, the decomposition of telegram content, and the processing of official telegrams. Management, responsible routing inspection, generation of official telegrams, routing of telegrams, queue management of telegrams to be sent, composition and output of outgoing telegrams Telegram format encapsulation and code system changes are processed by core telegram processes, and it is responsible for telegram storage and forwarding and historical records of telegram processes. The core server of the business processing subsystem shall have a redundant configuration. The built-in large-capacity storage system of the server should meet the requirements of hard disk, fan, memory, Hot-swappable requirements for power supplies and other components. 7.1.3 The communication subsystem is mainly responsible for the communication interface between the forwarding system and the external data network, mainly including synchronous X.25 and frame interruption, Asynchronous RS-232-C and dual-stream interface and Ethernet interface. The hardware equipment of the communication subsystem should have redundant configuration, and by adding relevant The hardware interface expands the access capability of the system and increases the number of users accessing the network and the type of protocol. 7.1.4 The monitoring subsystem is mainly responsible for the parameter configuration of the transmission system, the manual processing of business telegrams, the query of historical telegrams and the telegram process The tracking and other functions should have the ability to monitor the overall reporting system, have statistics, record system traffic and user management functions. 7.2 Function 7.2.1 Communication types 7.2.1.1 Asynchronous mode Should support Modem and non-Modem two communication methods, non-Modem methods include asynchronous X.28 and asynchronous dual-stream two; support full duplex Management mode; supports transmission rate setting. 7.2.1.2 TCP/IP mode Should support full-duplex processing mode; support Ethernet transmission. 7.2.1.3 Synchronization method Should support X.25 and frame relay two communication methods, X.25 methods include PVC and SVC; support full duplex processing mode; support transmission Rate setting. 7.2.2 Management operations It should be able to adapt to the requirements of the forwarding business, add, modify, delete, and query communication channels at any time, and ensure the relative independence of operational influences. The adjustment of the channel configuration should take effect immediately. When modifying or deleting the channel, make sure that the channel is being output or will be output The security of the telegram. It should be able to independently control the input and output directions of the channel. It should be able to automatically maintain the order of receiving and sending telegrams on each channel Serial number. For the main equipment used in system communication, corresponding communication parameter adjustment, setting, and management functions should be provided. 7.2.3 Telegram management The telegram routing management function should be provided to facilitate the control of telegram forwarding. Route retrieval should be able to support two matching methods. full address and fuzzy address formula. The routing function should realize the temporary rerouting of telegrams, the filtering processing based on the telegram receiving and generating addresses, the group sending processing of telegrams, and Should provide. ――Manual processing function for error messages; -Means to solve the backlog of messages or message loops caused by communication failures; ――Search and output functions of historical telegrams; ――Automatic and manual retransmission mechanism of telegram; ――Four-code translation function for received and sent telegrams; ――AFTN/SITA message conversion function; ――Setting functions of telegram forbidden words, double signature, telegram grade, and command telegram; ――The function of automatically generating official telegrams and responding to official telegrams. 7.2.4 Human Machine Interface A good Chinese operation interface should be provided, and a convenient and quick menu selection function should be provided. The user interface can accept input operations from a keyboard or a designated input device. For the function setting screen, corresponding online help should be provided. The help information includes the purpose of function setting and the meaning of related fields, control For the required operations in the user interface, the screen should have corresponding operation prompts. The function parameter settings in the system should be configured in the user interface. 7.2.5 User Management The functions of user authority division and password setting shall be provided, and the classified management of users shall be implemented to facilitate the division of responsibilities of different personnel. Should provide Audit processing, when users are doing login, logout, configuration, and maintenance operations, an audit log can be generated to record users, operations, and operations Time information provides a basis for judging fault responsibility in the future. The same user should only log in on one management terminal at the same time. 7.2.6 Data Statistics It should be able to follow the channel, telegram serial number, telegram prefix, telegram type, telegram receiving address, telegram generating address, telegram’s The keyword and time period classification of the message make statistics on the telegram and store the statistical results. 7.2.7 Monitoring processing 7.2.7.1 System monitoring shall meet the following requirements. ——Intuitively express the monitored object; ——It can reflect the changes in the monitoring elements of the monitoring object in real time; ——The changes in the monitoring elements of the monitoring objects can be expressed in a simple and easy-to-understand form. 7.2.7.2 The system should be able to monitor the following objects and elements. ――The connection and working status of each channel; ――Communication port status of the equipment used; -Channel input and output telegram; ――The working status of the main and standby machines (if there are main and standby system configurations). 7.2.8 Alarm handling 7.2.8.1 The system alarm shall meet the following requirements. ――The alarm information can be displayed in the form of sound and image in time, which is easy to attract the attention of operators; ――Alarm information is divided by type and displayed in the same alarm screen for easy viewing by operators; ――Only the current alarm information is displayed on the screen, and the query processing screen is provided for the past alarm information; ――Provide alarm information settings, and users can select alarm methods and types of alarm information. 7.2.8.2 The system alarm information is divided into. ――Wrong report alarm. alarm information generated due to message format or processing; ――Channel alarm. alarm information generated due to channel connection error; ――Equipment alarm. alarm information (storage) caused by equipment communication port failure; ――Log alarm. alarm information generated due to too long or too large number of log files. 7.2.9 Fault tolerance processing 7.2.9.1 Data storage A certain redundancy algorithm should be adopted to ensure the safety of data storage, and each system should not affect the system due to the failure of the storage device in the system Run. 7.2.9.2 Local communication network There should be no single point of failure in the communication between the internal devices of the system. 7.2.9.3 Communication link selection It should be able to meet the principle of failure replacement of non-critical modules through automatic and manual methods. 7.2.9.4 Communication interface The external communication interface of the redundant system shall satisfy the principle of complete takeover of a single system. 7.2.9.5 Degraded fault tolerance The capability of "failure weakening" should be provided. The normal transfer of telegrams should be realized in the degraded mode. 7.2.10 Printout 7.2.10.1 The printout content should include. ――Configuration information of channels, routes, and users in the system; ――Log in the system; ――Statistics of various reports generated in billing; ――The telegram that can be queried and browsed in the system. 7.2.10.2 It shall support the output of needle line printers, ink-jet printers and laser printers. 7.3 Operating environment 7.3.1 The system should be able to operate normally in the following environment. ――Working temperature. 0 ℃~40 ℃; ――Relative humidity. 20%~80%. 7.3.2 Equipment power supply requirements. voltage 220 V±20 V, frequency 50 Hz; 7.3.3 If the working environment requires, the equipment should be able to work normally in plateau areas, and the extreme altitude should not exceed 5 000 m.

8 Telegraph terminal

8.1 Functional requirements 8.1.1 It shall have the functions of processing various civil aviation messages, and processing official telegrams and reminders sent by the forwarding center. 8.1.2 It should be able to correctly parse various civil aviation messages, and correctly extract each element in the message, including. prefix, serial number, rank, One or more information items such as receiving address, withdrawal address, generating address, date and time group, double signature, remarks, and text. For failed parsing The telegram should be able to specify the cause of the error. 8.1.3 It shall have a message editing function that supports free editing format and template format. 8.1.4 It shall have functions such as address storage, address extraction, telegram storage and extraction, and the establishment and extraction of telegram templates. 8.1.5 It shall have the function of converting between international code and four-character code. It can check whether the message is correct or not between sending messages. It should be able to prompt and point out the reason for the message error. 8.1.6 The received message should be able to prompt and actively display, and have the conversion display function of international code and four-character code. 8.1.7 The sent and received messages should be automati......
Image     

Tips & Frequently Asked Questions:

Question 1: How long will the true-PDF of MHT4041-2014_English be delivered?

Answer: Upon your order, we will start to translate MHT4041-2014_English as soon as possible, and keep you informed of the progress. The lead time is typically 3 ~ 5 working days. The lengthier the document the longer the lead time.

Question 2: Can I share the purchased PDF of MHT4041-2014_English with my colleagues?

Answer: Yes. The purchased PDF of MHT4041-2014_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.

Question 3: Does the price include tax/VAT?

Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countries

Question 4: Do you accept my currency other than USD?

Answer: Yes. If you need your currency to be printed on the invoice, please write an email to Sales@ChineseStandard.net. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay.