关于船舶安装的北斗与GPS区别？

lly49418043

各位大神，我厂近期造的近海渔船，船上配备的北斗系统，是国家下发的那种，然后还需要配备GPS吗，他们两种设备的功能不是一样的么？小弟不才，请各位大佬指点一下，，，

xu_an_jing

正好今天有学生问起一类的问题,目前是不是基本配置还是GPS,同时配置北斗系统,自动化设备需要提供同时满足二种系统的接口.

Abbé_Faria

北斗军用的多，民用的GPS多，据传北斗的精度更高，支持国产

江海直达

Statutory Documents - IMO Publications and Documents - Resolutions - Maritime Safety Committee - Resolution MSC.379(93) - Performance Standards for Shipborne Beidou Satellite Navigation System (BDS) Receiver Equipment - (Adopted on 16 May 2014) - Annex - Performance Standards for Shipborne Beidou Satellite Navigation System (BDS) Receiver Equipment  
Annex - Performance Standards for Shipborne Beidou Satellite Navigation System (BDS) Receiver Equipment
1 Introduction

1.1 As a global navigation satellite system compatible with other navigation satellite systems worldwide, the BDS is a system independently developed and operated by China and is comprised of three major components: space constellation, ground control segment and user terminals. The space constellation consists of five geosynchronous earth orbit (GEO) satellites and 27 medium-earth orbit (MEO) satellites and three inclined geosynchronous satellite orbit (IGSO) satellites. The GEO satellites are positioned at longitudes of 058.75° E, 080° E, 110.5° E, 140° E and 160° E, respectively. The MEO satellites are operating in an orbit with an altitude of 21,500 km and an inclination of 55°, which are evenly distributed in three orbital planes. The IGSO satellites are operating in an orbit with an altitude of 36,000 km and an inclination of 55°, which are evenly distributed in three inclined geosynchronous orbital planes. The subsatellite track for the three IGSO satellites are coincided while the longitude of the intersection point is at 118° E. This geometry ensures that a minimum of four satellites are visible to users worldwide with a position dilution of precision (PDOP) ≤ 6. Each satellite transmits open service signal B1I on "L" bands with carrier frequency as 1561.098 MHz. B1I signal includes ranging code which could provide the open service. A navigation data message is superimposed on this code. BDS satellites are identified by Code Division Multiple Access (CDMA).

1.2 The BDS Open Service (OS) provides positioning, navigation and timing services, free of direct user charges. The BDS receiver equipment should be capable of receiving and processing the open service signal.

1.3 BDS receiver equipment intended for navigational purposes on ships with a speed not exceeding 70 knots, in addition to the general requirements specified in resolution A.694(17)footnote, should comply with the following minimum performance requirements.

1.4 The standards cover the basic requirements of position fixing, determination of course over ground (COG), speed over ground (SOG) and timing, either for navigation purposes or as input to other functions. The standards do not cover other computational facilities which may be in the equipment nor cover the requirements for other systems that may take input from the BDS receiver.

2 BDS receiver equipment

2.1 The term "BDS receiver equipment" as used in the performance standards includes all the components and units necessary for the system to properly perform its intended functions. The BDS receiver equipment should include the following minimum facilities:
.1 antenna capable of receiving BDS signals;
.2 BDS receiver and processor;
.3 means of accessing the computed latitude/longitude position;
.4 data control and interface; and
.5 position display and, if required, other forms of output.
If BDS forms part of an approved Integrated Navigation System (INS), requirements of 2.1.3, 2.1.4, 2.1.5 may be provided within the INS.

2.2 The antenna design should be suitable for fitting at a position on the ship which ensures a clear view of the satellite constellation, taking into consideration any obstructions that might exist on the ship.

3 Performance standards for BDS receiver equipment

The BDS receiver equipment should:
.1 be capable of receiving and processing the BDS positioning and velocity, and timing signals, and should use the ionospheric model broadcast to the receiver by the constellation to generate ionospheric corrections;
.2 provide position information in latitude and longitude in degrees, minutes and thousandths of minutesfootnote;
.3 provide time referenced to universal time coordinated UTC (NTSC)footnote;
.4 be provided with at least two outputs from which position information, UTC, course over ground (COG), speed over ground (SOG) and alarms can be supplied to other equipment. The output of position information should be based on the WGS 84 datum and should be in accordance with international standardsfootnote. The output of UTC, course over ground (COG), speed over ground (SOG) and alarms should be consistent with the requirements of 3.15 and 3.17;
.5 have static accuracy such that the position of the antenna is determined to be within 25 m horizontally (95%) and 30 m vertically (95%);
.6 have dynamic accuracy equivalent to the static accuracy specified in .5 above under the normal sea states and motion experienced in shipsfootnote;
.7 have position information in latitude and longitude in degrees, minutes and thousandths of minutes with a position resolution equal to or better than 0.001 min of latitude and longitude;
.8 be capable of selecting automatically the appropriate satellite-transmitted signals to determine the ship's position and velocity, and time with the required accuracy and update rate;
.9 be capable of acquiring satellite signals with input signals having carrier levels in the range of -130dBm to -120dBm. Once the satellite signals have been acquired, the equipment should continue to operate satisfactorily with satellite signals having carrier levels down to -133dBm;
.10 be capable of operating satisfactorily under normal interference conditions consistent with the requirements of resolution A.694(17);
.11 be capable of acquiring position, velocity and time to the required accuracy within 12 min where there is no valid almanac data;
.12 be capable of acquiring position, velocity and time to the required accuracy within 1 min where there is valid almanac data;
.13 be capable of reacquiring position, velocity and time to the required accuracy within 1 min when there has been a service interruption of 60 s or less;
.14 generate and output to a display and digital interfacefootnote a new position solution at least once every 1 s for conventional craft and at least once every 0.5 s for high-speed craft;
.15 provide the COG, SOG and UTC outputs, with a validity mark aligned with that on the position output. The accuracy requirements for COG and SOG should not be inferior to the relevant performance standards for headingfootnote and speed and distance measuring equipment (SDME)footnote and the accuracy should be obtained under the various dynamic conditions that could be experienced on board ships;
.16 provide at least one normally closed contact, which should indicate failure of the BDS receiver equipment;
.17 have a bidirectional interface to facilitate communication so that alarms can be transferred to external systems and so that audible alarms from the BDS receiver can be acknowledged from external systems; the interface should comply with the relevant international standardsfootnote; and
.18 have the facilities to process differential BDS (DBDS) data fed to it in accordance with the standards of ITU-Rfootnote and the appropriate RTCM standard and provide indication of the reception of DBDS signals and whether they are being applied to the ship's position. When a BDS receiver is equipped with a differential receiver, performance standards for static and dynamic accuracies (paragraphs 3.5 and 3.6 above) should be 10 m (95%).
4 Integrity checking, failure warnings and status indications

4.1 The BDS receiver equipment should also indicate whether the performance of BDS is outside the bounds of requirements for general navigation in the ocean, coastal, port approach and restricted waters, and inland waterway phases of the voyage as specified in either resolution A.1046(27) or appendix 2 to resolution A.915(22) and any subsequent amendments, as appropriate.

4.2 The BDS receiver equipment should, as a minimum
.1 provide a warning within 5 s of loss of position or if a new position based on the information provided by the BDS constellation has not been calculated for more than 1 s for conventional craft and 0.5 s for high-speed craft. Under such conditions the last known position and the time of last valid fix, with the explicit indication of the state allowing for no ambiguity, should be output until normal operation is resumed;
.2 use Receiver Autonomous Integrity Monitoring (RAIM) to provide integrity performance appropriate to the operation being undertaken; and
.3 provide a self-test function.
5 Protection

Precautions should be taken to ensure that no permanent damage can result from an accidental short circuit or grounding of the antenna or any of its input or output connections or any of the BDS receiver equipment inputs or outputs for a duration of five minutes.

Parent topic: Resolution MSC.379(93) - Performance Standards for Shipborne Beidou Satellite Navigation System (BDS) Receiver Equipment - (Adopted on 16 May 2014)

江海直达

Statutory Documents - IMO Publications and Documents - Circulars - Safety of Navigation - Circular SN.1/Circ.329 – Recognition of the BeiDou Satellite Navigation System (BDS) as a Component of the World-Wide Radionavigation System – (21 November 2014) - Circular  
Circular
  1 The Maritime Safety Committee, at its ninety-fourth session (17 to 21 November 2014), pursuant to operative paragraph 4 of resolution A.1046(27) on World-Wide Radionavigation System, recognized the BeiDou Navigation Satellite System (BDS), proposed by the People's Republic of China, as a component of the World-Wide Radionavigation System.

2 The Committee's decision was based on the recommendation and assessment made by the Sub-Committee on Navigation, Communications and Search and Rescue (NCSR) at its first session (30 June to 4 July 2014). The NCSR Sub-Committee assessed the offer of China in accordance with the requirements of the annex to resolution A.1046(27). The NCSR Sub-Committee had agreed that BDS meets the operational requirements of the appendix to resolution A.1046(27) to assist in the navigation of ships in ocean waters.

3 Administrations should note that the static and dynamic accuracy of the system is 100 m (95%) and it is therefore not suitable for navigation in harbour entrances and approaches, and other waters in which freedom to manoeuvre is limited.

4 BDS does not provide instantaneous integrity warning of system malfunction. Administrations may wish to note that Receiver Autonomous Integrity Monitoring (RAIM) can provide this facility. It should also be noted that the accuracy and integrity of the system can be greatly enhanced by the use of differential correction techniques using either local or wide area augmentations, or both.

5 Member Governments are invited to bring this information to the attention of all concerned.

江海直达

对你的渔轮来说，只要北斗的接收机取得CCS的形式认可（也就等同我国海事局的形式认可），就可以了。不必再安装GPS接收机。北斗导航系统已经被IMO接受，还下发了性能标准。
至于挂中国旗的其他商船，也是一样的道理。
至于挂其他地区或国家旗的商船，北斗导航仪须取得该地区或国家管理当局的认可，就可以了。
至于，挂欧盟旗帜或美国旗帜，北斗接收机在这些商船上的使用，估计需要时间，取得MED证书，才可以。
至于北斗接收机跟其他导航系统的接口和兼容性方面，不存在问题。
以上是个人理解。

JSYZDZR

你可以上百度搜下就知道详情了.从GPS,只能知道自己在哪儿,不能知道他人的位置.从BDS, 两者都可知道,且还有短报文功能, 就像过去的BP机. 至于精度,目前还不能媲美GPS,但随着越来越多的组网卫星升空, 精度会足够好.

油艇仔

北斗或许不错吧，只是gps更成熟