Syllabus/achievement requirements

May be changed during the semester (6. Feb 2015)

D. H. Johnson and D. E. Dudgeon: Array Signal Processing: Concepts and Techniques, 1993. Pentice Hall. ISBN: ISBN-10: 0130485136, ISBN-13: 9780130485137.

• Official errata from Don H. Johnson dated Feb 27, 2015. Comments on the text book by us dated March 4, 2015. The papers referred to in our comments are these:
  • ​A. R. Selfridge, G. S. Kino, B. T. Khuri-Yakub, A theory for the radiation pattern of a narrow‐strip acoustic transducer, Applied Physics Letter, 1980
  • G. Kossoff, Analysis of focusing action of spherically curved transducers, Ultrasound in Medicine and Biology, 1979.
• Curriculum:
  • Chapter 1
  • Chapter 2.1-7, except 2.4.2
  • Chapter 3: Everything except 3.2.3
  • Chapter 4: 4.1-4, only first part of 4.5 (137-139), 4.6 (not parabolic resolution), except 4.7-4.8 (chap. 4.9 is included)
  • Chapter 7: Cursory 7.1, 7.2, 7.3.1-7.3.4, (cursory 7.3.5), 7.4

Other:

• J. Nelson Wright: Image Formation in Diagnostic Ultrasound, pages 8-22. Fulltext.
• H. Krim, M. Viberg: Two decades of array signal processing research - The parametric approach, July 1996. IEEE Signal Processing Magazine. pp. 67-94. The mandatory curriculum for the course consists of the page intervals 67-76 and 85-88. Link to IEEEXplore.
• A. Currie: Synthetic aperture radar, August 1991. Electronics & Communication Engineering Journal. Ch 1: Cursory, Ch 2, "Rationale behind SAR imaging" is included, the rest of ch. 2: "Matched filtering" and "SAR Data Processing": cursory. Ch. 4: "Future developments:" Cursory. Link to ieeexplore.

Support litterature:

• S. Holm: Medisinsk ultralydavbildning, Dette er en litt forlenget versjon av en artikkel i "Fra Fysikkens Verden", side 4-11, nr 1, 1999. Link til artikkel.
• R. Mucci: A comparison of efficient beamforming algorithms, 1984. IEEE Trans. Acoust., Speech, Signal Processin, vol. 32, no 3, pp. 548-558. Link to IEEEXplore
• Additional support litterature for INF5410: The papers which are mandatory for the PhD students of INF9410 (see below)

Syllabus/achievement requirements for INF9410

The following contents are syllabus / achievement requirements that regard the PhD students or others that follow the course INF9410. Note: They come in addition to the syllabus / achievement requirements of INF5410:

1. Extra curriculum: Papers from our research

1. S. Holm, S. P. Näsholm, F. Prieur, R. Sinkus, "Deriving fractional acoustic wave equations from mechanical and thermal constitutive equations," Computers & Mathematics with Applications, Sept. 2013., http://dx.doi.org/10.1016/j.camwa.2013.02.024 (less weight on shear wave than compressional wave results). Comment: Complements chapter 2.3.2 Attenuation. As an aid in understanding this paper, it is recommended that problems 2.6 and 2.7 be solved.
2. S. Holm, A. Austeng, K. Iranpour and J. F. Hopperstad: Sparse sampling in array processing, chapter 19 in "Sampling theory and practice" (F. Marvasti Ed.), Plenum, New York , pp. 787-833, 2001, http://folk.uio.no/sverre/papers/01_Sparse_array_Marvasti_chap19.pdf Comment: This chapter complements chapters 3.3.5-6 Sparse and random arrays
3. J.-F. Synnevåg, A. Austeng, and S. Holm, "Adaptive beamforming applied to medical ultrasound imaging," IEEE Trans. Ultrason., Ferroelect., Freq. Contr., pp. 1606-1613, Aug. 2007 , http://dx.doi.org/10.1109/TUFFC.2007.431
4. J.-F. Synnevåg, A. Austeng, and S. Holm, ”Benefits of minimum Variance Beamforming in Medical Ultrasound Imaging”, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., pp. 1868-1879, Sept. 2009, http://dx.doi.org/10.1109/TUFFC.2009.1263 Comment: The last two papers complement chapters 7.2.1 Minimum variance beamforming, 7.3.4 Signal coherence, and 7.4.3 Robust Constrained Optimization and show how these methods work in one particular application. As an aid in understanding these papers, it is recommended that problem 7.17 be solved.

2. Mandatory exercises

All problems, even voluntary ones for the ordinary INF5410 student, must be answered.

Miscellaneous: support computer programs

User-adjustable Java applet computer simulation of waves propagating from one or multiple sources. A nice illustration of e.g. the far-field limit and monopole/dipole source differences: follow link (applet opens in new window)

Miscellaneous: keyword summary on conventional and adaptive beamforming

Note: the keyword summary list for conventional and adaptive beamforming given below is not a complete list of subjects that may be covered on the exam. Regard it only as an aid in your preparation process. Please follow this link to download the keyword list as a PDF document.