05740nam 2200757 450 991080984030332120200903223051.01-118-86347-X1-118-86344-51-118-86352-6(CKB)2550000001169670(EBL)1580030(OCoLC)866442452(SSID)ssj0001126495(PQKBManifestationID)11733357(PQKBTitleCode)TC0001126495(PQKBWorkID)11136333(PQKB)10436430(Au-PeEL)EBL1580030(CaPaEBR)ebr10819278(CaONFJC)MIL551655(CaSebORM)9781118863442(MiAaPQ)EBC1580030(EXLCZ)99255000000116967020131226d2014 uy 0engur|n|---|||||txtccrBistatic SAR/ISAR/FSR theory algorithms and program implementation /Andon Dimitrov Lazarov, Todor Pavlov Kostadinov1st editionISTE Ltd ;John Wiley & Sons :London, England :Hoboken, New Jersey,2014.©20141 online resource (194 p.)Focus Series,2051-249XDescription based upon print version of record.1-84821-574-6 1-306-20404-6 Includes bibliographical references and index.Cover; Title page; Contents; ACKNOWLEDGEMENT; CHAPTER 1. BISTATIC SYNTHETIC APERTURE RADAR (BSAR) SURVEY; 1.1. Introduction and main definitions; 1.2. Passive space-surface bistatic and multistatic SAR; 1.3. Forward scattering radars; 1.4. A moving target problem as an inversion problem in multistatic SAR; 1.5. BSAR models, imaging, methods and algorithms; 1.5.1. Range migration algorithm for invariant and variant flying geometry; 1.5.2. Bistatic point target reference spectrum based on Loffeld's bistatic formula; 1.5.3. Target parameters extraction; CHAPTER 2. BSAR GEOMETRY2.1. BGISAR geometry and kinematics2.2. Multistatic BSAR geometry and kinematics; 2.3. BFISAR geometry and kinematics; 2.3.1. Kinematic parameter estimation; CHAPTER 3. BSAR WAVEFORMS AND SIGNAL MODELS; 3.1. Short pulse waveform and the BSAR signal model; 3.1.1. Short pulse waveform; 3.1.2. Short pulse BSAR signal model; 3.1.3. Target's parameters estimation in short range BFISAR scenario; 3.2. LFM pulse waveform; 3.2.1. LFM BSAR signal model; 3.3. CW LFM waveform and modeling of deterministic components of BSAR signal; 3.4. Phase code modulated pulse waveforms; 3.4.1. Barker phase code3.4.2. Complementary code synthesis3.4.3. BSAR-transmitted complementary phase code modulated waveforms; 3.4.4. GPS C/A phase code; 3.4.5. GPS P phase code; 3.4.6. DVB-T waveform; CHAPTER 4. BSAR IMAGE RECONSTRUCTION ALGORITHMS; 4.1. Image reconstruction from a short pulse BSAR signal; 4.2. LFM BSAR image reconstruction algorithm; 4.3. PCM BSAR image reconstruction algorithm; 4.4. Autofocus algorithm with entropy minimization; 4.5. Experiment with the multistatic SAR LFM image reconstruction algorithm; CHAPTER 5. ANALYTICAL GEOMETRICAL DETERMINATION OF BSAR RESOLUTION5.1. Generalized BSAR range and Doppler resolution5.1.1. BSAR range resolution; 5.1.2. BSAR Doppler resolution; 5.2. Along-track range resolution; 5.3. Range resolution along a target-receiver line of sight; CHAPTER 6. BSAR EXPERIMENTAL RESULTS; 6.1. Example 1: BFISAR with short-pulse waveform; 6.1.1. BFISAR parameters estimation; 6.1.2. BFISAR signal formation algorithm; 6.2. Example 2: BFISAR with pulse LFM waveform; 6.2.1. BFISAR geometry and isorange ellipse parameter estimation; 6.2.2. BFISAR LFM signal formation algorithm; 6.2.3. Image reconstruction algorithm and experimental results6.3. Example 3: asymmetric geometry of BFISAR with pulse LFM waveform6.3.1. BFISAR LFM signal formation algorithm; 6.3.2. BFISAR image reconstruction algorithm and experimental results; 6.4. Example 4: BGISAR with Barker PCM waveform; 6.4.1. BGISAR Barker PCM signal formation algorithm; 6.4.2. BGISAR image reconstruction algorithm and experimental results; 6.5. Example 5: BGISAR with GPS C/A PCM waveform; 6.5.1. BGISAR GPS C/A PCM signal formation algorithm; 6.5.2. BGISAR image reconstruction algorithm and experimental results; 6.6. Example 6: BGISAR with GPS P PCM waveform6.6.1. BGISAR GPS P PCM signal formation algorithmBistatic radar consists of a radar system which comprises a transmitter and receiver which are separated by a distance comparable to the expected target distance. This book provides a general theoretical description of such bistatic technology in the context of synthetic aperture, inverse synthetic aperture and forward scattering radars from the point of view of analytical geometrical and signal formation as well as processing theory. Signal formation and image reconstruction algorithms are developed with the application of high informative linear frequency and phase code modulating techniquFocus (National Council on Economic Education)Bistatic radarSignal processingSynthetic aperture radarAlgorithmsBistatic radar.Signal processing.Synthetic aperture radar.Algorithms.621.3848Lazarov Andon Dimitrov961775Kostadinov Todor Pavlov961776MiAaPQMiAaPQMiAaPQBOOK9910809840303321Bistatic SAR2180395UNINA