33.070.40 – Satellite – PDF Standards Store

SAE 9990/1:2018

Wed, 06 Nov 2024 03:19:23 +0000

Transmitted Enhanced Loran (eLoran) Signal Standard for Tri-State Pulse Position Modulation

Published By	Publication Date	Number of Pages
SAE	2018-09-17	11

SAE 6857:2018

Wed, 06 Nov 2024 03:19:21 +0000

Requirements for A Terrestrial Based Positioning, Navigation, and Timing (PNT) System to Improve Navigation Solutions and Ensure Critical Infrastructure Security

Published By	Publication Date	Number of Pages
SAE	2018-04-24	9

AS 4080:1995

Tue, 05 Nov 2024 12:54:11 +0000

Details definitions, minimum physical layer performance requirements, environment and testing requirements of mobile terminals for accessing the mobilesat(sup)TM(/sup) satellite communications system owned and operated by OPTUS Communications. The specifications cover signalling and telephony requirements to ensure access to the system, attainment of intended service quality, interworking with the network management station, base stations and gateways, and also to ensure that the terminals will not in any circumstance endanger system integrity. Mechanical specifications for terminals, the numbering scheme, or possible user interfaces for enhancement facilities are not covered. This Standard is intended for use by terminal equipment designers, manufacturers, suppliers and maintenance personnel, to ensure correct operation of mobile terminals and their compatibility with the mobilesat(sup)TM(/sup) communications system.

BSI 24/30485509 DC 2024

Sun, 20 Oct 2024 09:34:46 +0000

PDF Catalog

PDF Pages	PDF Title
9	1 Scope
10	2 Normative references 3 Terms, definitions and acronyms 3.1 Acronyms
14	3.2 Terms and definitions
19	4 Galileo Timing Service 4.1 Introduction to timing receivers and timing references
20	4.2 Galileo Timing Service – Accuracy and Availability 4.3 Galileo Timing Service –Integrity capability 4.3.1 General
21	4.3.2 Definition of a Fault-Free Timing solution 4.3.3 Definition of a faulty timing solution 4.3.4 High-Level Architecture of Galileo Timing Service
22	4.3.5 Timing Flags processing 4.3.5.1 Description of the processing
23	4.3.5.2 Timing Flags Definition 4.3.6 Galileo timing receiver Decision Logic 4.3.6.1 General
25	4.3.6.2 Conditions to use specific satellites when Switch-on 4.3.6.3 Processing Galileo SIS OS Status Flags and Processing Logic for Galileo timing receivers
27	4.3.7 Time To Alert and Time To Notify 4.3.8 T-RAIM Processing
28	5 Requirements for Galileo timing receivers 5.1 Definitions 5.2 Minimum Equipment Characteristics
30	5.3 Functional Requirements 5.3.1 Constellations Processed 5.3.2 Frequencies Processed 5.3.3 Back-up Modes 5.3.4 Dynamics of the User
31	5.3.5 Time Scales 5.3.6 Processing of Timing Flags and Integrity Requirements
36	5.3.7 T-RAIM Functional Requirements and Consistency Checks 5.3.8 Anti-Jamming Capabilities 5.3.8.1 General
37	5.3.8.2 Nominal RF environment 5.3.8.3 Degraded RF Environment
38	5.3.9 Galileo OS-NMA Processing 5.3.10 Holdover Capabilities
39	5.3.11 Multipath mitigation 5.3.12 Special Configuration and Output Requirements 5.4 Performance Requirements 5.4.1 General
40	5.4.2 Accuracy Requirements 5.4.3 Availability Requirements
41	5.4.4 Integrity Requirements 5.4.4.1 Performance and Integrity Requirements
43	5.4.4.2 Time-To-Alert 5.4.5 T-RAIM Performances and thresholds 5.4.6 Holdover Timeout
44	6 Verification of Galileo timing receivers 6.1 General 6.2 Galileo timing receiver Test Policy
45	6.3 Strategy for Galileo timing receivers Verification 6.3.1 Verification Methods 6.3.2 Galileo timing receivers Verification Strategy
46	6.3.3 Galileo timing receiver Test Suite
51	6.4 Test Environment 6.4.1 General 6.4.2 Record and Replay Test Environment 6.4.2.1 General description
54	6.4.2.2 SDR Record Power Calibration 6.4.2.3 SDR Replay Power Calibration
55	6.5 Antenna conditions definition 6.5.1 Open sky 6.5.2 Obstructed open sky
57	6.5.3 Light indoor 6.6 Error Budgets for the Tests
58	6.7 Traceability Matrix: Requirements vs Verification Method 6.7.1 Traceability
60	6.7.2 Receiver functionalities Verified by Review Method 6.8 Galileo timing receiver tests 6.8.1 Record and Replay test configuration 6.8.1.1 Main hardware and software elements 6.8.1.2 Validation of the laboratory setup
61	6.8.1.3 Preparation of the Galileo timing receiver under test 6.8.1.4 Testing setup for TC-01
62	6.8.1.5 Testing setup for TC-02 to TC-09
63	6.8.1.6 Testing setup for TC-10 and TC-11
65	6.8.1.7 Testing setup for TC-13
66	6.8.2 Calibration of time delays 6.8.3 For the Verification of Galileo timing receiver Functions (TC-01) 6.8.3.1 General
67	6.8.3.2 Scenarios 6.8.3.3 Timing flags processing verification Test
68	6.8.4 GST Service Level 1 (TC-02)
69	6.8.5 GST Service Level 2 (TC-03)
70	6.8.6 GST Service Level 3 (TC-04) 6.8.7 UTC Service Level 1 (TC-05)
71	6.8.8 UTC Service Level 2 (TC-06)
72	6.8.9 UTC Service Level 3 (TC-07)
73	6.8.10 Performances in obstructed environment (TC-08)
74	6.8.11 Performances in light indoor environment (TC-09) 6.8.12 Test on Robustness to Interferences: Nominal Conditions (TC-10)
75	6.8.13 Test on Robustness to Interferences: Degraded Conditions (TC-11)
77	6.8.14 Test on T-RAIM Performances (TC-12)
81	6.8.15 Test on Receiver Noise (TC-13)
83	Annex A (informative)GNSS Timing Equations
86	Annex B (informative)Guidelines for Installation and Maintenance B.1 Antenna, Cabling and Receiver Installation B.1.1 General B.1.2 Selecting a GNSS Antenna
87	B.1.3 Locating and Installing the GNSS Antenna
88	B.1.4 Connecting to the Antenna: Cabling B.1.5 Antenna Installation Verification B.1.6 Using Ancillary Products B.1.7 Evaluating Signal Attenuation to validate cable length
90	B.1.8 Multipath Mitigation B.1.9 Other Recommendations
91	B.2 Precise computation of the antenna position B.2.1 General B.2.2 Needed inputs for conducting a PPP to precisely compute the antenna position of the Galileo timing receiver B.2.3 Available online PPP Services
92	B.3 Initial Calibration of the 1PPS receiver chain time delays
95	B.4 Periodic re-calibration
96	Annex C (informative)Record and Replay additional information C.1 Clock reference sources
99	Annex D (informative)Timing Flags Definition
102	Annex E (normative)Provision of Record and Replay files E.1 Requirements for collecting data for the R&R E.1.1 Technical documentation E.1.1.1 Test plan
103	E.1.1.2 Test report E.1.1.3 Technical documentation on instruments E.1.1.4 Field test validation document E.1.2 Human resources E.1.3 GNSS signals digitalization E.1.3.1 General
104	E.1.3.2 IQ data format E.1.3.3 Benchmark GNSS receiver E.1.4 GNSS constellations simulator
105	E.2 Requirements for validating R&R data E.2.1 Validation of the field test E.2.2 Validation of the digitized GNSS signals E.2.2.1 Analysis of RF signals power
106	E.2.2.2 Analysis of effects on benchmark GNSS receiver
107	Annex F (informative)Justification of Nominal RFI Environment
108	Annex G (informative)Validation of Test on Receiver Noise (TC-13)

BS EN 61162-420:2002

Sat, 19 Oct 2024 15:33:57 +0000

Maritime navigation and radiocommunication equipment and systems. Digital interfaces - Multiple talkers and multiple listeners. Ship systems interconnection. Companion standard requirements and basic companion standards

Published By	Publication Date	Number of Pages
BSI	2002	104

BS EN 61162-410:2002

Sat, 19 Oct 2024 15:33:56 +0000

Maritime navigation and radiocommunication equipment and systems. Digital interfaces - Multiple talkers and multiple listeners. Ship systems interconnection. Transport profile requirements and basic transport profile

Published By	Publication Date	Number of Pages
BSI	2002	66

BS EN 61162-400:2002

Sat, 19 Oct 2024 15:33:55 +0000

Maritime navigation and radiocommunication equipment and systems. Digital interfaces - Multiple talkers and multiple listeners. Ship systems interconnection. Introduction and general principles

Published By	Publication Date	Number of Pages
BSI	2002	44

ASTM-F3029 2013

Sat, 19 Oct 2024 13:25:50 +0000

ASTM F3029-13

Withdrawn Standard: Standard Guide for Level I GPS Wilderness Navigator (GPS-IW) Endorsement (Withdrawn 2014)

ASTM F3029

Scope

1.1 This guide establishes the minimum knowledge, skills, and abilities required to navigate in the wilderness using a GPS receiver.

1.1.1 The information in this guide is for navigation on land, off-road, wherever GPS signals can be received.

1.1.2 This guide does not define the minimum knowledge, skills, and abilities necessary for navigating by GPS on roads, in urban areas, on the water, or in the air.

1.2 A person who meets the requirements in this guide is only prepared to navigate with a GPS receiver. Further training in wilderness travel and survival is required for users to operate in a wilderness environment.

1.3 This guide does not imply that a GPS receiver is an alternative to navigating with map and compass. Use of map and compass is strongly recommended as a backup for GPS navigation.

1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Keywords

GPS; navigation

ICS Code

ICS Number Code 33.070.40 (Satellite)

DOI: 10.1520/F3029-13

ASTM-F3072 2020

Sat, 19 Oct 2024 13:08:24 +0000

ASTM F3072-14-Reapproved2020

Active Standard: Standard Guide for Intermediate Wilderness GPS/GNSS Use (GPS/GNSS-IIW) Endorsement

ASTM F3072

Scope

1.1 This guide establishes the minimum knowledge, skills, and abilities required to use a GPS/GNSS2 receiver to navigate in the wilderness.

1.2 This guide applies to the use of a GPS/GNSS receiver on land, on and off roads, and on small bodies of water, wherever GPS/GNSS signals can be received.

1.3 This guide applies to the use of a GPS/GNSS receiver in disaster areas where local positioning aids or references may be lost or damaged.

1.4 This guide does not apply to the use of a GPS/GNSS receiver on large bodies of water, at sea, or in the air.

1.5 This guide does not imply that a GPS/GNSS receiver is a replacement for a map and compass. Use of the latter is strongly recommended as a backup for GPS/GNSS navigation.

1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Keywords

GNSS; GPS; navigation; wilderness;

ICS Code

ICS Number Code 33.070.40 (Satellite)

DOI: 10.1520/F3072-14R20

ASTM-F3071:2020 Edition

Sat, 19 Oct 2024 13:08:23 +0000

ASTM F3071-14-Reapproved2020

Active Standard: Standard Guide for Basic Wilderness GPS/GNSS Use (GPS/GNSS-IW) Endorsement

ASTM F3071

Scope

1.1 This guide establishes the minimum knowledge, skills, and abilities required to use a GPS/GNSS2 receiver to determine one’s position, and collect location data, in the wilderness.

1.2 This guide applies to the use of a GPS/GNSS receiver on land, on and off roads, and on small bodies of water, wherever GPS/GNSS signals can be received.

1.3 This guide applies to the use of a GPS/GNSS receiver in disaster areas where local positioning aids or references may be lost or damaged.

1.4 This guide does not apply to the use of a GPS/GNSS receiver on large bodies of water, at sea, or in the air.

1.5 A person who meets the requirements in this guide is only prepared to operate a GPS/GNSS receiver to determine his or her location, and collect position and movement information, in a wilderness environment.

1.6 This guide does not imply that a GPS/GNSS receiver is a replacement for a map and compass. Use of the latter is strongly recommended as a backup for GPS/GNSS navigation.

1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

1.8 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Keywords

GNSS; GPS; navigation; wilderness;

ICS Code

ICS Number Code 33.070.40 (Satellite)

DOI: 10.1520/F3071-14R20