معرفی کتاب «Radar system analysis. Kang, Design, and simulation» نوشتهٔ Eyung W. Kang، منتشرشده توسط نشر Artech House Publishers در سال 2008. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
Whether you are an experienced radar engineer striving to optimize system performance or a graduate student looking to gain a practical understanding of radar system design, this authoritative volume is a smart choice. The book helps you master critical system analysis and design skills, and shows you how to use digital computer simulation to verify that an analysis is correct and that a design is optimal. This comprehensive resource covers a wide range of essential topics, from matrix, vector and linear equations, noise and clutter generation, Filters (FIR and IIR), and fast Fourier transforms… to ambiguity functions, antennas, target detection, and the Kalman filter… to the Monte Carlo method, constant false alarm rate (CFAR) processing, and moving target indicators (MTI). Striking the right balance between depth and breath, the book offers you a solid foundation in all the key topics covered, supporting discussions with detailed examples, more than 340 equations, and over 250 illustrations.CD-ROM Included! Contains over 200 valuable simulation and implementation tools, written in C++, to help you with your challenging projects in the field.
Whether you are an experienced radar engineer striving to optimize system performance or a graduate student looking to gain a practical understanding of radar system design, this authoritative volume is a smart choice. The book helps you master critical system analysis and design skills, and shows you how to use digital computer simulation to verify that an analysis is correct and that a design is optimal.
This comprehensive resource covers a wide range of essential topics, from matrix, vector and linear equations, noise and clutter generation, Filters (FIR and IIR), and fast Fourier transforms? to ambiguity functions, antennas, target detection, and the Kalman filter? to the Monte Carlo method, constant false alarm rate (CFAR) processing, and moving target indicators (MTI). Striking the right balance between depth and breath, the book offers you a solid foundation in all the key topics covered, supporting discussions with detailed examples, more than 340 equations, and over 250 illustrations.
CD-ROM Included! Contains over 200 valuable simulation and implementation tools, written in C++, to help you with your challenging projects in the field.
This authoritative volume is a smart choice for radar engineers at all levels striving to optimize system performance, as well as graduate students looking to gain a practical understanding of radar system design. The book helps readers master critical system analysis and design skills, and shows how to use digital computer simulation to verify that an analysis is correct and that a design is optimal. This comprehensive resource covers a wide range of essential topics, from noise and clutter generation, filters, and fast Fourier transforms...to ambiguity functions, antennas, target detection...to the Monte Carlo method, constant false alarm rate (CFAR) processing, and moving target indicators (MTI).A CD-ROM is included! It contains over 200 valuable simulation and implementation tools, written in C++, to help practitioners with a wide range of design challenges in the field. "This authoritative volume is an invaluable resource for radar engineers at all levels who are striving to optimize system performance. This book helps practitioners master critical system analysis and design skills, and shows how to use digital computer simulation to verify that an analysis is correct and that a design is optimal. Supported with more than 340 equations and over 250 illustrations, this comprehensive reference covers a wide range of essential topics."--Jacket Helps readers master critical system analysis and design skills, and shows how to use digital computer simulation to verify that an analysis is correct and that a design is optimal. This book is suitable for radar engineers at different levels striving to optimize system performance