عنوان
پدید آورنده
موضوع
رده
G109.5 .E6 2002
G109
.
5
.
E6
2002
کتابخانه
محل استقرار
INTERNATIONAL STANDARD BOOK NUMBER
(Number (ISBN
1580531830
NATIONAL BIBLIOGRAPHY NUMBER
Country Code
IR
Number
EB24388
LANGUAGE OF THE ITEM
.Language of Text, Soundtrack etc
انگلیسی
COUNTRY OF PUBLICATION OR PRODUCTlON
Country of publication
IR
TITLE AND STATEMENT OF RESPONSIBILITY
Title Proper
Introduction to GPS
General Material Designation
[Electronic Resource]
Other Title Information
:the Global Positioning System
First Statement of Responsibility
/ Ahmed El-Rabbany
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Boston, MA
Name of Publisher, Distributor, etc.
: Artech House,
Date of Publication, Distribution, etc.
, c2002.
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
xv, 176 p. ill., maps 24 cm.
SERIES
Series Title
(Artech House mobile communications series)
NOTES PERTAINING TO PUBLICATION, DISTRIBUTION, ETC.
Text of Note
e
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
ng
Text of Note
Includes bibliographical references and index.
CONTENTS NOTE
Text of Note
Machine generated contents note: 1 Introduction to GPS -- 1.1 Overview of GPS -- 1.2 GPS segments -- 1.3 GPS satellite generations -- 1.4 Current GPS satellite constellation -- 1.5 Control sites -- 1.6 GPS: The basic idea -- 1.7 GPS positioning service -- 1.8 Why use GPS? -- References -- 2 GPS Details -- 2.1 GPS signal structure -- 2.2 GPS modernization -- 2.3 Types of GPS receivers -- 2.4 Time systems -- 2.5 Pseudorange measurements -- 2.6 Carrier-phase measurements -- 2.7 Cycle slips -- 2.8 Linear combinations of GPS observables -- References -- 3 GPS Errors and Biases -- 3.1 GPS ephemeris errors -- 3.2 Selective availability -- 3.3 Satellite and receiver clock errors -- 3.4 Multipath error -- 3.5 Antenna-phase-center variation -- 3.6 Receiver measurement noise -- 3.7 Ionospheric delay -- 3.8 Tropospheric delay -- 3.9 Satellite geometry measures -- 3.10 GPS mission planning -- 3.11 User equivalent range error -- References -- 4 Datums, Coordinate Systems, and Map Projections -- 4.1 What is a datum? -- 4.2 Geodetic coordinate system -- 4.2.1 Conventional Terrestrial Reference System -- 4.2.2 The WGS 84 and NAD 83 systems -- 4.3 What coordinates are obtained with GPS? -- 4.4 Datum transformations -- 4.5 Map projections -- 4.5.1 Transverse Mercator projection -- 4.5.2 Universal transverse Mercator projection -- 4.5.3 Modified transverse Mercator projection -- 4.5.4 Lambert conical projection -- 4.5.5 Stereographic double projection -- 4.6 Marine nautical charts -- 4.7 Local arbitrary mapping systems -- 4.8 Height systems -- References -- 5 GPS Positioning Modes -- 5.1 GPS point positioning -- 5.2 GPS relative positioning -- 5.3 Static GPS surveying -- 5.4 Fast (rapid) static -- 5.5 Stop-and-go GPS surveying -- 5.6 RTK GPS -- 5.7 Real-time differential GPS -- 5.8 Real time versus postprocessing -- 5.9 Communication (radio) link -- References -- 6 Ambiguity-Resolution Techniques -- 6.1 Antenna swap method -- 6.2 On-the-fly ambiguity resolution -- References -- 7 GPS Data and Correction Services -- 7.1 Data service -- 7.2 DGPS radio beacon systems -- 7.3 Wide-area DGPS systems -- 7.4 Multisite RTK system -- References -- 8 GPS Standard Formats -- 8.1 RINEX format -- 8.2 NGS-SP3 format -- 8.3 RTCM SC-104 standards for DGPS services -- 8.4 NMEA 0183 format -- References -- 9 GPS Integration -- 9.1 GPS/GIS integration -- 9.2 GPS/LRF integration -- 9.3 GPS/dead reckoning integration -- 9.4 GPS/INS integration -- 9.5 GPS/pseudolite integration -- 9.6 GPS/cellular integration -- References -- 10 GPS Applications -- 10.1 GPS for the utilities industry -- 10.2 GPS for forestry and natural resources -- 10.3 GPS for precision farming -- 10.4 GPS for civil engineering applications -- 10.5 GPS for monitoring structural deformations -- 10.6 GPS for open-pit mining. -- 10.7 GPS for land seismic surveying -- 10.8 GPS for marine seismic surveying -- 10.9 GPS for airborne mapping -- 10.10 GPS for seafloor mapping. -- 10.11 GPS for vehicle navigation -- 10.12 GPS for transit systems -- 10.13 GPS for the retail industry -- 10.14 GPS for cadastral surveying -- 10.15 GPS stakeout (waypoint navigation) -- References -- 11 Other Satellite Navigation Systems -- 11.1 GLONASS satellite system -- 11.2 Chinese regional satellite navigation system (Beidou system) -- 11.3 Regional augmentations -- 11.4 Future European global satellite navigation system -- (Galileo system) -- References.
TOPICAL NAME USED AS SUBJECT
Global Positioning System
DEWEY DECIMAL CLASSIFICATION
Number
910
.
285
LIBRARY OF CONGRESS CLASSIFICATION
Class number
G109
.
5
Book number
.
E6
2002
PERSONAL NAME - PRIMARY RESPONSIBILITY
El-Rabbany, Ahmed.
ORIGINATING SOURCE
Country
ایران
ELECTRONIC LOCATION AND ACCESS
Host name
1580531830.pdf
Access number
محرمانه
Compression information
محرمانه
Date and Hour of Consultation and Access
1580531830.pdf
Bits per second
0
Electronic Format Type
متن
old catalog
e
BL
1
a
Y
