Analysis of Syattariyah, an Islamic mysticism manuscript written by Syeh Abdurrauf Assingkeli at request of Achinese queen, Ratu Shafiyyatuddin, 1641-1675.
Analysis of Syattariyah, an Islamic mysticism manuscript written by Syeh Abdurrauf Assingkeli at request of Achinese queen, Ratu Shafiyyatuddin, 1641-1675.
Sebaliknya, perkataan "berjalan" disalah tafsir sehingga menyebabkan sari kata
"bahasa Inggeris" memberikan padanan "walking padahal perkataan yang lebih
tepat mungkin "berlangsung" atau "proceed\ Selain itu, terdapat banyak lagi
terjemahan yang tidak sesuai dan yang salah tetapi salah satu daripadanya
yang patut dibincangkan ialah terjemahan bagi "The ruler of Thessaly carries this
sceptre" yang menjadi "Peraturan Fesily adalah terima" [TRl 1 - The Regulations
ofFesily ...
Discusses financial basics, introduces the language of finances, and describes decision making with data.
| 2017-35466-0002 |
Tersedia di Pustaka Kubang Putih - UIN Sjech M. Djamil Djambek Bukittinggi
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| 2017-35466-0001 |
Tersedia di Pustaka Kubang Putih - UIN Sjech M. Djamil Djambek Bukittinggi
|
Discusses financial basics, introduces the language of finances, and describes decision making with data.
The ‘Fuzzy Logic’ research group of the Microelectronics Institute of Seville is composed of researchers who have been doing research on fuzzy logic since the beginning of the 1990s. Mainly, this research has been focused on the microel- tronic design of fuzzy logic-based systems using implementation techniques which range from ASICs to FPGAs and DSPs. Another active line was the development of a CAD environment, named Xfuzzy, to ease such design. Several versions of Xfuzzy have been and are being currently developed by the group. The addressed applications had basically belonged to the control ?eld domain. In this sense, s- eral problems without a linear control solution had been studied thoroughly. Some examples are the navigation control of an autonomous mobile robot and the level control of a dosage system. The research group tackles a new activity with the work developed in this book: the application of fuzzy logic to video and image processing. We addressed our interest to problems related to pixel interpolation, with the aim of adapting such interpolation to the local features of the images. Our hypothesis was that measures and decisions to solve image interpolation, which traditionally had been done in a crisp way, could better be done in a fuzzy way. Validation of this general hypothesis has been done speci?cally in the interpolation problem of video de-interlacing. - interlacing is one of the main tasks in video processing.
Algorithm. for. Video. De-Interlacing. Abstract. The ability of fuzzy logic-based
systems for video de-interlacing is ex- plored in this Chapter. Particularly, our
study is focused on how motion-adaptive de-interlacing can be performed by a
fuzzy logic-based system. This Chapter is structured as follows. Firstly, several
motion-adaptive strategies are described in Section 2.1. The starting point of our
study is the algorithm developed by Van de Ville et al. in [6] described in Section
2.2.
