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Spacecraft sensors / Mohamed M. Abid.

By: Abid, Mohamed MMaterial type: Text

TextPublication details: Hoboken, NJ : J. Wiley, c2005Description: xv, 322 p. : ill. ; 24 cmISBN: 047086527X (hbk)Subject(s): Space vehicles -- Electronic equipment | Detectors | AstrionicsDDC classification: 629.472

Contents:

1 Concepts 21, 32 2 Spacecraft sensors cost 1,2,3,4 2.1 Introduction to cost estimating 2.2 Cost data 2.3 Cost Estimating Methodologies 2.4 CER 2.5 Insurance cost 3 Spacecraft sensors tradeoff 21, 32 4 Spacecraft environment 5,6,7,8 4.1 Vacuum 4.2 Neutral Environment Effects 4.3 Plasma Environment Effects 4.4 Radiation Environment Effects 4.5 Contamination 4.6 Synergistic effects 4.7 Space Junk 5 Standards 8,9,10,11, 32 6 Packaging 25,31 7 Interface and integration 12, 13, 22, 23, 24 7.1 Mil-Std 1553 interface 7.2 Proximity issues 7.3 Integration 8 Testing 14, 15, 16, 17, 18, 19, 20, 23, 24,26 8.1 Functional testing 8.2 Thermal testing 8.3 Corona-arcing 8.4 EMI / EMC 8.5 Vibration testing 8.6 Balancing 8.7 Mission Simulation Tests 9 Sensors on orbit 27, 28, 29,30 9.1 Reference frame 9.2 Coordinate transfer in 3-D Space 9.3 Conic trajectories 9.4 Attitude of a spacecraft 10 References II. SENSORS AND SIGNALS ERROR! BOOKMARK NOT DEFINED. 1 Sensor Characteristics 1,2,3,4 1.1 Accuracy and Precision 1.2 Hysteresis 1.3 Calibration 1.4 Transfer function 2 Types of Signals 1,5,6,7, 8, 14, 15 2.1 Signal properties 2.2 Periodic 2.3 Representing Signals as Impulses 2.4 Random signals 3 Transforming a signal 5, 6,7, 8, 9, 10, 11,16 3.1 Analog to Digital Converter 3.2 Digital to Analog Converters 3.3 A to D and D to A converter errors 3.4 Modulation 4 Data Analysis 2,3,12, 13, 14,16 4.1 Uncertainty Analysis and Propagation of Error 4.2 Regression Analysis 4.3 Least square 4.4 Fourier analysis 5 References: III. NOISE AND FILTERING IN SPACECRAFT SENSORS ERROR! BOOKMARK NOT DEFINED. 1 Internal noise 1, 2, 3, 4, 5, 9, 25 1.1 Thermal noise 1.2 Thermal emf 1.3 Parameter Noise 1.4 Dark Current 1.5 Shot Noise 1.6 Excess noise or 1/f Noise 1.7 Dielectric Absorption 2 External noise 4,15 2.1 Clutter noise 2.2 Jamming 2.3 Radio Frequency Coupling 2.4 Electromagnetic Field Coupling 2.5 Inductive Coupling 3 Signal to noise ratio 4,5 4 Filter Types 3, 6, 7 4.1 Low-pass filter 4.2 High-pass filter 4.3 Band-pass filter 5 Digital filtering 6,7,8, 10, 16 5.1 Window design 5.2 FIR Filter Design Example 5.3 IIR filter design 6 Microwave filters 16 7 Optical filters 17,26 8 Digital image filtering 23,24 9 Kalman filter 8,20,21 9.1 State-space representation 9.2 Discrete Kalman filter 10 Reference IV. INFRARED SENSORS ERROR! BOOKMARK NOT DEFINED. 1 Electromagnetic wave 1,2,3,4,5, 6,12 1.1 Electromagnetic spectrum 1.2 Maxwell's Equations 1.3 Wave equation 1.4 Solution to Maxwell's equations 1.5 Phase and group velocity 1.6 Polarization 1.7 Radiance 1.8 Irradiance 1.9 Interference 1.10 Diffraction 1.11 Blackbody radiation 2 Interaction with matter 3, 4,5,6,7,13, 17 2.1 Atmospheric absorption 2.2 Reflectance 2.3 Scattering 3 Optics 2, 8, 9, 10, 11 3.1 Refraction / reflection 3.2 Concave mirror 3.3 Lenses 3.4 Lens combination 3.5 Aberrations 3.6 Optical Resolution 4 Scanning mechanisms 6, 10,1 4.1 Linear Array: Pushbroom 4.2 Whiskbroom 4.3 Scanner parameters 5 Optical Detectors 3, 8,13,16, 17 5.1 Semiconductors 5.2 Photoelectric effect 5.3 Performance Criteria for Detectors 5.4 Detector readout 5.5 InSb photodiode 5.6 HgCdTe photodiode 5.7 Thermal control 6 Landsat 7: ETM+ 18 7 ASTER 7.1 ASTER: TIR 7.2 ASTER: SWIR 7.3 ASTER: VNIR 8 GOES 19 8.1 GOES-I Imager 8.2 GOES-I/M SOUNDER 9 DSP and SBIRS 15, 10 References V. PASSIVE MICROWAVE SENSORS ERROR! BOOKMARK NOT DEFINED. 1 Antenna 1,5,9,3,11, 7, 10 1.1 Vector Potential 1.2 Infinitesimal antenna 1.3 Antenna Radiation Pattern 1.4 Directivity and gain 1.5 Antenna Polarization 1.6 Waveguides 1.7 Antenna Types 2 Phased arrays 1,5,6,9 2.1 Simple array of two antennas 2.2 Linear antenna Array 2.3 2-D antenna array 2.4 Beam Steering 3 Radiometers 4,5,10 3.1 Power-temperature correspondence for antennas 3.2 Remote temperature measurement using radiometry 3.3 Dicke Radiometer 3.4 Radiometric sensitivity 4 Aqua: AMSR-E 5 SeaSat: SMMR 3 6 Enviesat: MWR 7 References VI. SPACEBASED RADAR SENSORS ERROR! BOOKMARK NOT DEFINED. 1 Radar Introduction 1, 2, 3, 4 , 5, 7, 8, 9,13, 14 1.1 Overview 1.2 Frequency bands 1.3 Radar equation 1.4 The Radar Range Equation 1.5 Radar cross section RCS 1.6 False alarm 1.7 Doppler radars and the Doppler effect 1.8 Resolution 1.9 RF power amplifiers 2 Radar imaging 4, 5, 6, 7, 10,13 3 Altimetry 7 4 Envisat: RA-2 5 Synthetic Aperture Radar 4, 5, 7, 13 6 Envisat: ASAR 7 Interferometric SAR 2, 13 8 Ground penetrating radar GPR 5,6, 11, 15 8.1 MARSIS 9 References VII. GPS 1,2,3,4,5 ERROR! BOOKMARK NOT DEFINED. 1 GPS overview 2 Concept 3 GPS signal 3.1 Structure 3.2 GPS data 4 GPS receiver 5 GPS signal processing 5.1 Code phase technique 5.2 Carrier phase method 5.3 GPS Error Sources 5.4 GPS clock 6 GPS coverage 7 GPS for atmospheric measurements, CHAMP 8 Docking / Rendezvous 9 Attitude determination 10 AMSAT-OSCAR 40 (AO-40) 11 References

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Holdings
Item type	Current library	Call number	Status	Date due	Barcode	Item holds
Books	Namal Library Electrical Engineering	629.472 ABI-S 2005 8260 (Browse shelf (Opens below))	Available		0008260

Total holds: 0

Includes bibliographical references and index.

1 Concepts 21, 32
2 Spacecraft sensors cost 1,2,3,4
2.1 Introduction to cost estimating
2.2 Cost data
2.3 Cost Estimating Methodologies
2.4 CER
2.5 Insurance cost
3 Spacecraft sensors tradeoff 21, 32
4 Spacecraft environment 5,6,7,8
4.1 Vacuum
4.2 Neutral Environment Effects
4.3 Plasma Environment Effects
4.4 Radiation Environment Effects
4.5 Contamination
4.6 Synergistic effects
4.7 Space Junk
5 Standards 8,9,10,11, 32
6 Packaging 25,31
7 Interface and integration 12, 13, 22, 23, 24
7.1 Mil-Std 1553 interface
7.2 Proximity issues
7.3 Integration
8 Testing 14, 15, 16, 17, 18, 19, 20, 23, 24,26
8.1 Functional testing
8.2 Thermal testing
8.3 Corona-arcing
8.4 EMI / EMC
8.5 Vibration testing
8.6 Balancing
8.7 Mission Simulation Tests
9 Sensors on orbit 27, 28, 29,30
9.1 Reference frame
9.2 Coordinate transfer in 3-D Space
9.3 Conic trajectories
9.4 Attitude of a spacecraft
10 References
II. SENSORS AND SIGNALS ERROR! BOOKMARK NOT DEFINED.
1 Sensor Characteristics 1,2,3,4
1.1 Accuracy and Precision
1.2 Hysteresis
1.3 Calibration
1.4 Transfer function
2 Types of Signals 1,5,6,7, 8, 14, 15
2.1 Signal properties
2.2 Periodic
2.3 Representing Signals as Impulses
2.4 Random signals
3 Transforming a signal 5, 6,7, 8, 9, 10, 11,16
3.1 Analog to Digital Converter
3.2 Digital to Analog Converters
3.3 A to D and D to A converter errors
3.4 Modulation
4 Data Analysis 2,3,12, 13, 14,16
4.1 Uncertainty Analysis and Propagation of Error
4.2 Regression Analysis
4.3 Least square
4.4 Fourier analysis
5 References:
III. NOISE AND FILTERING IN SPACECRAFT SENSORS ERROR! BOOKMARK NOT DEFINED.
1 Internal noise 1, 2, 3, 4, 5, 9, 25
1.1 Thermal noise
1.2 Thermal emf
1.3 Parameter Noise
1.4 Dark Current
1.5 Shot Noise
1.6 Excess noise or 1/f Noise
1.7 Dielectric Absorption
2 External noise 4,15
2.1 Clutter noise
2.2 Jamming
2.3 Radio Frequency Coupling
2.4 Electromagnetic Field Coupling
2.5 Inductive Coupling
3 Signal to noise ratio 4,5
4 Filter Types 3, 6, 7
4.1 Low-pass filter
4.2 High-pass filter
4.3 Band-pass filter
5 Digital filtering 6,7,8, 10, 16
5.1 Window design
5.2 FIR Filter Design Example
5.3 IIR filter design
6 Microwave filters 16
7 Optical filters 17,26
8 Digital image filtering 23,24
9 Kalman filter 8,20,21
9.1 State-space representation
9.2 Discrete Kalman filter
10 Reference
IV. INFRARED SENSORS ERROR! BOOKMARK NOT DEFINED.
1 Electromagnetic wave 1,2,3,4,5, 6,12
1.1 Electromagnetic spectrum
1.2 Maxwell's Equations
1.3 Wave equation
1.4 Solution to Maxwell's equations
1.5 Phase and group velocity
1.6 Polarization
1.7 Radiance
1.8 Irradiance
1.9 Interference
1.10 Diffraction
1.11 Blackbody radiation
2 Interaction with matter 3, 4,5,6,7,13, 17
2.1 Atmospheric absorption
2.2 Reflectance
2.3 Scattering
3 Optics 2, 8, 9, 10, 11
3.1 Refraction / reflection
3.2 Concave mirror
3.3 Lenses
3.4 Lens combination
3.5 Aberrations
3.6 Optical Resolution
4 Scanning mechanisms 6, 10,1
4.1 Linear Array: Pushbroom
4.2 Whiskbroom
4.3 Scanner parameters
5 Optical Detectors 3, 8,13,16, 17
5.1 Semiconductors
5.2 Photoelectric effect
5.3 Performance Criteria for Detectors
5.4 Detector readout
5.5 InSb photodiode
5.6 HgCdTe photodiode
5.7 Thermal control
6 Landsat 7: ETM+ 18
7 ASTER
7.1 ASTER: TIR
7.2 ASTER: SWIR
7.3 ASTER: VNIR
8 GOES 19
8.1 GOES-I Imager
8.2 GOES-I/M SOUNDER
9 DSP and SBIRS 15,
10 References
V. PASSIVE MICROWAVE SENSORS ERROR! BOOKMARK NOT DEFINED.
1 Antenna 1,5,9,3,11, 7, 10
1.1 Vector Potential
1.2 Infinitesimal antenna
1.3 Antenna Radiation Pattern
1.4 Directivity and gain
1.5 Antenna Polarization
1.6 Waveguides
1.7 Antenna Types
2 Phased arrays 1,5,6,9
2.1 Simple array of two antennas
2.2 Linear antenna Array
2.3 2-D antenna array
2.4 Beam Steering
3 Radiometers 4,5,10
3.1 Power-temperature correspondence for antennas
3.2 Remote temperature measurement using radiometry
3.3 Dicke Radiometer
3.4 Radiometric sensitivity
4 Aqua: AMSR-E
5 SeaSat: SMMR 3
6 Enviesat: MWR
7 References
VI. SPACEBASED RADAR SENSORS ERROR! BOOKMARK NOT DEFINED.
1 Radar Introduction 1, 2, 3, 4 , 5, 7, 8, 9,13, 14
1.1 Overview
1.2 Frequency bands
1.3 Radar equation
1.4 The Radar Range Equation
1.5 Radar cross section RCS
1.6 False alarm
1.7 Doppler radars and the Doppler effect
1.8 Resolution
1.9 RF power amplifiers
2 Radar imaging 4, 5, 6, 7, 10,13
3 Altimetry 7
4 Envisat: RA-2
5 Synthetic Aperture Radar 4, 5, 7, 13
6 Envisat: ASAR
7 Interferometric SAR 2, 13
8 Ground penetrating radar GPR 5,6, 11, 15
8.1 MARSIS
9 References
VII. GPS 1,2,3,4,5 ERROR! BOOKMARK NOT DEFINED.
1 GPS overview
2 Concept
3 GPS signal
3.1 Structure
3.2 GPS data
4 GPS receiver
5 GPS signal processing
5.1 Code phase technique
5.2 Carrier phase method
5.3 GPS Error Sources
5.4 GPS clock
6 GPS coverage
7 GPS for atmospheric measurements, CHAMP
8 Docking / Rendezvous
9 Attitude determination
10 AMSAT-OSCAR 40 (AO-40)
11 References

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