PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS
X-ray image is an important part of a patient’s health history. X-ray image must be store for information retrieval or transmission in the future. The problem for storing and transmitting is the size of x-ray image itself. X-ray images come out with the size of 3 MB or even bigger. Image compress...
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id-itb.:99792017-09-27T15:37:37ZPENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS DARMA SETIAWAN, ANTONIUS Indonesia Theses x-ray radiology image, vektor quantization, fuzzy c-means, k-means, scalable, PDA INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/9979 X-ray image is an important part of a patient’s health history. X-ray image must be store for information retrieval or transmission in the future. The problem for storing and transmitting is the size of x-ray image itself. X-ray images come out with the size of 3 MB or even bigger. Image compression is the answer to overcome storing and transmitting problem. The compression technique must follow several requirements. The first and the most important requirement is that there must be no missing information during the compression process. This is because; the missing information could be a very important part to conduct a diagnosis process. The other requirement is that the compression technique must have the most optimal compression ratio. Lossy-to-lossless compression scheme is introduced to answer the requirements. This compression developed over vector quantization technique. Fuzzy c-means (FCM) is a clustering technique which is applied to create a set of code vector or codebook. The codebook is used for encoding and decoding process. The encoding process will result an encoded image consist of indexes including in the codebook. Meanwhile, the decoding process will result a reproduction image. The error of this reproduction image is called as image residue. Then, the encoded image and its residue will be store in the image DB or medical image for future use. Lossy-to-lossless scheme make a possibility for physicians to view lossless information over reproduction image (lossy) on a certain region of interest. FCM has succeeded to deliver better codebook compared with K-Means. Reconstructed images using FCM codebook generate better PSNR (37.14 dB) than using K-Means generated codebook (33.63 dB). They also has a good visualization result. A various analysis on the number of cluster and vector dimension affected to reconstructed image is also conducted. text |
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| description |
X-ray image is an important part of a patient’s health history. X-ray image must
be store for information retrieval or transmission in the future. The problem for
storing and transmitting is the size of x-ray image itself. X-ray images come out
with the size of 3 MB or even bigger. Image compression is the answer to
overcome storing and transmitting problem. The compression technique must
follow several requirements. The first and the most important requirement is that
there must be no missing information during the compression process. This is
because; the missing information could be a very important part to conduct a
diagnosis process. The other requirement is that the compression technique must
have the most optimal compression ratio. Lossy-to-lossless compression scheme
is introduced to answer the requirements. This compression developed over vector
quantization technique.
Fuzzy c-means (FCM) is a clustering technique which is applied to create a set of
code vector or codebook. The codebook is used for encoding and decoding
process. The encoding process will result an encoded image consist of indexes
including in the codebook. Meanwhile, the decoding process will result a
reproduction image. The error of this reproduction image is called as image
residue. Then, the encoded image and its residue will be store in the image DB or
medical image for future use. Lossy-to-lossless scheme make a possibility for
physicians to view lossless information over reproduction image (lossy) on a
certain region of interest.
FCM has succeeded to deliver better codebook compared with K-Means.
Reconstructed images using FCM codebook generate better PSNR (37.14 dB)
than using K-Means generated codebook (33.63 dB). They also has a good
visualization result. A various analysis on the number of cluster and vector
dimension affected to reconstructed image is also conducted. |
| format |
Theses |
| author |
DARMA SETIAWAN, ANTONIUS |
| spellingShingle |
DARMA SETIAWAN, ANTONIUS PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| author_facet |
DARMA SETIAWAN, ANTONIUS |
| author_sort |
DARMA SETIAWAN, ANTONIUS |
| title |
PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| title_short |
PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| title_full |
PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| title_fullStr |
PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| title_full_unstemmed |
PENGEMBANGAN PENGKODEAN KUANTISASI VEKTOR SCALABLE CITRA RADIOLOGI SINAR-X MENGGUNAKAN FUZZY C-MEANS |
| title_sort |
pengembangan pengkodean kuantisasi vektor scalable citra radiologi sinar-x menggunakan fuzzy c-means |
| url |
https://digilib.itb.ac.id/gdl/view/9979 |
| _version_ |
1820664867320758272 |