Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Ricky Willyantho, Achmad Munir

Judul : Rekonstruksi Citra Tomografi Gelombang Mikro Menggunakan Teknik Back-Propagation

Abstrak :
Tomografi adalah teknik untuk merekonstruksi citra struktur internal objek dengan menggunakan sinyal atau gelombang yang dipancarkan dari beberapa sudut. Pada penelitian ini, rekonstruksi citra menggunakan teknik back-propagation menggunakan data proyeksi parallel-beam diusulkan. Teknik back-propagation mempertimbangkan efek difraksi ketika melakukan rekonstruksi citra tomografi. Data pengukuran dihasilkan dari proyeksi parallel-beam menggunakan frekuensi 1,5 GHz, 3 GHz, dan 4,5 GHz. Dari tiga frekuensi gelombang mikro yang digunakan, dilakukan analisa dan evaluasi pada citra hasil rekonstruksi yang memberikan informasi lebih jelas perbedaan antara distribusi indeks bias kayu dan rongga yang ada didalamnya.

Tahun : 2018 Media Publikasi : prosiding

Kategori : Prosiding No/Vol/Tahun : - / - / 2018

ISSN/ISBN : 2252-701X

PTN/S : Universitas Pakuan Program Studi : TEKNIK ELEKTRO

Bibliography :

C. Kak und M. Slaney, “Principles of Computerized Tomographic Imaging”, New York: SIAM IEEE Press, 1998.

M.C. Wicks, “RF Tomography with Application to Ground Penetrating Radars”, IEEE Proceedings 41^st Asilomar Conference ACSSC, 2007

L. Lo Monte, “Radio Frequency Tomography for Tunnel Detection”, IEEE Transactions on GeoScience and RemoteSensing, 2010

V. Picco, T.Negishi, S.Nishikata, D.Spitzer, D. Erricolo, “RF Tomography in Free Space: Experimental Validation of the Forward Model and an Inversion Algorithm Based on the Algebraic Reconstruction Technique”, Hindawi International Journal of Antenna and Propagation, 2013

A. Maurizka, “Experimental validation of microwave imaging for wood inspection”, Progress in Electromagnetics Research Symposium-Fall, IEEE Conferences, 2017

V. Picco, T. Negishi, S. Nishikata, D. Erricolo, “RF Tomography in Free Space: Experimental Validation of th Forward Model and of a Conjugate Gradient Inversion Algorithm”, IEEE International Conference on Electromagnetics in Advnced Applications (ICEAA), Italy, 2013

P.Muller, Mirjam Schurmann, and Jochen Guck, “The Theory of Diffraction Tomography”, in ArXiv e-prints, https://arxiv.org/abs/1507.00466v2, Germany, 2015

T. Negishi, V. Picco, D. Erricolo, “The use of the Algebraic Reconstruction Technique (ART) for imaging of dielectric targets in Radio Frequency Tomography”, IEEE International Conference on Wireless Information Technology and Systems, USA, 2012

K. T. Ladas, A. J. Devaney, “Generalized ART algorithm for diffraction tomography”, InverseProblems, vol. 7, no. 1, pp. 109, 1991.

T. M. Buzug, “Computed Tompgraphy From Photon Statistics to Modern Cone-Beam CT”, Springer, German, 2008

D. Han, “Comparison of Commonly Used Image Interpolation Methods”, Proceedings of the 2^nd International Conference on Computer Science and Electronics Engineering, pp. 1556 – 1559, 2013.

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Detail Karya Ilmiah Dosen

Ricky Willyantho, Achmad Munir

Judul	:	Rekonstruksi Citra Tomografi Gelombang Mikro Menggunakan Teknik Back-Propagation
Abstrak	:	Tomografi adalah teknik untuk merekonstruksi citra struktur internal objek dengan menggunakan sinyal atau gelombang yang dipancarkan dari beberapa sudut. Pada penelitian ini, rekonstruksi citra menggunakan teknik back-propagation menggunakan data proyeksi parallel-beam diusulkan. Teknik back-propagation mempertimbangkan efek difraksi ketika melakukan rekonstruksi citra tomografi. Data pengukuran dihasilkan dari proyeksi parallel-beam menggunakan frekuensi 1,5 GHz, 3 GHz, dan 4,5 GHz. Dari tiga frekuensi gelombang mikro yang digunakan, dilakukan analisa dan evaluasi pada citra hasil rekonstruksi yang memberikan informasi lebih jelas perbedaan antara distribusi indeks bias kayu dan rongga yang ada didalamnya.
Tahun	:	2018	Media Publikasi	:	prosiding
Kategori	:	Prosiding	No/Vol/Tahun	:	- / - / 2018
ISSN/ISBN	:	2252-701X
PTN/S	:	Universitas Pakuan	Program Studi	:	TEKNIK ELEKTRO
Bibliography	:	C. Kak und M. Slaney, “Principles of Computerized Tomographic Imaging”, New York: SIAM IEEE Press, 1998. M.C. Wicks, “RF Tomography with Application to Ground Penetrating Radars”, IEEE Proceedings 41^st Asilomar Conference ACSSC, 2007 L. Lo Monte, “Radio Frequency Tomography for Tunnel Detection”, IEEE Transactions on GeoScience and RemoteSensing, 2010 V. Picco, T.Negishi, S.Nishikata, D.Spitzer, D. Erricolo, “RF Tomography in Free Space: Experimental Validation of the Forward Model and an Inversion Algorithm Based on the Algebraic Reconstruction Technique”, Hindawi International Journal of Antenna and Propagation, 2013 A. Maurizka, “Experimental validation of microwave imaging for wood inspection”, Progress in Electromagnetics Research Symposium-Fall, IEEE Conferences, 2017 V. Picco, T. Negishi, S. Nishikata, D. Erricolo, “RF Tomography in Free Space: Experimental Validation of th Forward Model and of a Conjugate Gradient Inversion Algorithm”, IEEE International Conference on Electromagnetics in Advnced Applications (ICEAA), Italy, 2013 P.Muller, Mirjam Schurmann, and Jochen Guck, “The Theory of Diffraction Tomography”, in ArXiv e-prints, https://arxiv.org/abs/1507.00466v2, Germany, 2015 T. Negishi, V. Picco, D. Erricolo, “The use of the Algebraic Reconstruction Technique (ART) for imaging of dielectric targets in Radio Frequency Tomography”, IEEE International Conference on Wireless Information Technology and Systems, USA, 2012 K. T. Ladas, A. J. Devaney, “Generalized ART algorithm for diffraction tomography”, InverseProblems, vol. 7, no. 1, pp. 109, 1991. T. M. Buzug, “Computed Tompgraphy From Photon Statistics to Modern Cone-Beam CT”, Springer, German, 2008 D. Han, “Comparison of Commonly Used Image Interpolation Methods”, Proceedings of the 2^nd International Conference on Computer Science and Electronics Engineering, pp. 1556 – 1559, 2013.
URL	:	-