ITU-R M 1041-1994 Future Amateur Radio Systems (FARS)《未来业余无线系统》.pdf

1、ITU-R RECMN*M. 3043 94 = 4855232 0523293 b2b Rec. ITU-R M.1041 RECOMMENDATION ITU-R M.1041 1 EUTURE AMATEUR RADIO SYSTEMS (FARS) (Question ITU-R 4818) ( 1994) The ITU Radiocommunication Assembly, considering a) Question ITU-R 48-318; b) that different future systems are under study; c) that system c

2、ompatibility is necessary for international operation; d) the need for flexible systems capable of adapting to new developments and natural disasters; e) interference within these services: that the amateur and amateur-satellite bands below 3 GHz are heavily used, and there is a need to reduce f) th

3、at the bands above 3 GHz will be subject to increasing use; g) usually require use of terrestrial or satellite radio-relays; that to communicate at distances beyond line of sight, propagation characteristics of the bands above 144 MHz h) that there is increasing need for data and image communication

4、s; j) reduce the cost of systems, that commonality of hardware, software and protocols is desirable in order to achieve economies of scale and recommends that future systems in the amateur and amateur-satellite services should incorporate the following objectives and characteristics, and take into a

5、ccount the following frequency band considerations: 1. Objectives General objectives for future systems in the amateur and amateur-satellite services should: 2.2 General 1.1.1 Promote design of robust systems capable of providing communication during natural disasters. 1.2.2 countries. Accommodate t

6、he needs of amateur operators in urban, rural and remote areas, including those in developing 1.2.3 fund their own stations. Make systems widely available to amateur operators at an acceptable cost, recognizing that amateur operators 1.2.4 Develop compatible and interoperable terrestrial and satelli

7、te systems. 2.1.5 Provide a flexible architecture that will facilitate introduction of technology advancements. 2.1.6 Minimize radiated power. 2 RW. ITU-R M.1041 1.2 Technical 1.2.1 Promote increased spectrum efficiency, e.g., through use of automatic power control, automatic link establishment (ALE

8、), adaptive antennas, diversity reception, digital signal processing, and access techniques such as TDMA and CDMA. 1.2.2 1.2.3 Ensure information integrity through error control techniques. Encourage the development of common interfaces for the interconnection of equipment. 1.3 Operational 1.3.1 1.3

9、.2 Provide for operational flexibility and self-organization. Support international roaming within the amateur services. 1.3.3 automatic language translation, data bases, etc. Permit amateur stations to gain access to particular services made possible by advances in technology, e.g., 1.4 Services Su

10、pport, among others, the following: 1.4.1 Morse code In accordance with ITU-T Recommendation F. 1 Division B. 1.4.2 Narrow-band direct-printing International Telegraph Alphabet No. 2, as defined in IT-T Recommendation F.l Division C, and Recommendation ITU-R M.625 except for modified station identif

11、ication. 1.4.3 Telephony Telephony of commercial quality. 1.4.4 Facsimile In accordance with appropriate ITU-T Recommendations, subject to radio environments. 1.4.5 Data transmission Synchronous and asynchronous in accordance with appropriate ITU-T Recommendations, consistent with bandwidth limitati

12、ons. 1.4.6 Television Slow and fast scan television using appropriate regional standards. 1.4.7 New transmission modes Experimentation and development of new modes of transmission in order to advance the state of the art. 2. Technical characteristics Amateur and amateur-satellite systems should have

13、 technical characteristics that provide worldwide interoperability , and allow origination, relay and termination of communications independent of other radio services. Design emphasis should be placed on reliability, robustness and flexibility of reconfiguration for efficient emergency communicatio

14、ns. Multiple access techniques (e.g., frequency, time and code division) and modulation techniques should be selected for optimum spectrum efficiency, frequency reuse, resistance to interference and immunity to adverse propagation conditions. ITU-R RECMNUM- IDYL 94 Y855212 0523273 4T7 RC ITU-R M.104

15、1 3 3. Operational characteristics Systems should be capable of operation in urban, residential and rural areas, and should be suitable for use in fixed andor mobile applications. Mobile systems should include personal pocket terminals and systems suitable for operation in vehicles. Small, inexpensi

16、ve systems capable of being upgraded should be available for new users and those in developing countries. Satellite systems should be designed to serve both industrialized and developing countries. Systems should facilitate education of operators and technicians. 4. Frequency band considerations 4.1

17、 Spectrum requirements Worldwide common frequency bands to facilitate international working, international roaming and commonality of equipment. 4.2 Spectrum utilization Frequency bands should be chosen for operations to carry out the desired communication with minimum power, maximum frequency reuse and sharing, minimum interference to other services, and spectrum efficiency. More consideration should be given to using bands above 3 GHz.