• Order to parcel locker

    Order to parcel locker
  • easy pay

    easy pay
  • Reduced price
Introduction to Microwave Imaging

Introduction to Microwave Imaging

9781107085565
541.74 zł
487.56 zł Save 54.18 zł Tax included
Lowest price within 30 days before promotion: 487.56 zł
Quantity
Available in 4-6 weeks

  Delivery policy

Choose Paczkomat Inpost, Orlen Paczka, DPD or Poczta Polska. Click for more details

  Security policy

Pay with a quick bank transfer, payment card or cash on delivery. Click for more details

  Return policy

If you are a consumer, you can return the goods within 14 days. Click for more details

Description
With this self-contained, introductory text, readers will easily understand the fundamentals of microwave and radar image generation. Written with the complete novice in mind, and including an easy-to-follow introduction to electromagnetic scattering theory, it covers key topics such as forward models of scattering for interpreting S-parameter and time-dependent voltage data, S-parameters and their analytical sensitivity formulae, basic methods for real-time image reconstruction using frequency-sweep and pulsed-radar signals, and metrics for evaluating system performance. Numerous application examples and practical tutorial exercises provided throughout allow quick understanding of key concepts, and sample MATLAB codes implementing key reconstruction algorithms accompany the book online. This one-stop resource is ideal for graduate students taking introductory courses in microwave imaging, as well as researchers and industry professionals wanting to learn the fundamentals of the field.
Product Details
64044
9781107085565
9781107085565

Data sheet

Publication date
2017
Issue number
1
Cover
hard cover
Pages count
362
Dimensions (mm)
180.00 x 255.00
Weight (g)
860
  • 1. Scalar wave models in electromagnetic scattering; 2. Electromagnetic scattering:: the vector model; 3. Scattering parameters in microwave imaging; 4. Linear inversion in real space; 5. Linear inversion in Fourier space; 6. Performance metrics in imaging; 7. Looking forward:: nonlinear reconstruction; Appendix A. Maxwells equations; Appendix B. The electromagnetic vector wave and Helmholtz equations; Appendix C. Scalarized electromagnetic models; Appendix D. Causal, acausal and adjoint solutions to the wave equation; Index.
Comments (0)