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I (kana)
I (い in hiragana or イ in katakana) is one of the Japanese kana each of which represents one mora. い is based on the sōsho style of the kanji character 以, and イ is from the radical (left part) of the kanji character 伊. In the modern Japanese system of sound order, it occupies the second position of the syllable chart, between あ and う. Additionally, it is the first letter in Iroha, before ろ. Both represent the sound . In the Ainu language, katakana イ is written as ''y'' in their Latin-based syllable chart, and a small ィ after another katakana represents a diphthong. Variant forms Like other vowels, scaled-down versions of the kana (ぃ, ィ) are used to express sounds foreign to the Japanese language, such as フィ (fi). In some Okinawan writing systems, a small ぃ is also combined with the kana く (''ku'') and ふ to form the digraphs くぃ ''kwi'' and ふぃ ''hwi'' respectively, although the Ryukyu University system uses the kana ゐ/ヰ inste ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Iroha
The is a Japanese poem. Originally the poem was attributed to the founder of the Shingon Esoteric sect of Buddhism in Japan, Kūkai, but more modern research has found the date of composition to be later in the Heian period (794–1179). The first record of its existence dates from 1079. It is famous because it is a perfect pangram, containing each character of the Japanese syllabary exactly once. Because of this, it is also used as an ordering for the syllabary, in the same way as the ''A'', ''B'', ''C'', ''D''... sequence of the Latin alphabet. Text The first appearance of the Iroha, in was in seven lines: six with seven morae each, and one with five. It was also written in man'yōgana. 以呂波耳本部止 千利奴流乎和加 餘多連曽津祢那 良牟有為能於久 耶万計不己衣天 阿佐伎喩女美之 恵比毛勢須 Structurally, however, the poem follows the standard 7–5 pattern of Japanese poetry (with one hypometric line), and in modern times it is g ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Yi (kana)
Yi is a ''hentaigana'', a variant kana or Japanese syllable.Iannacone, Jake (2020)"Reply to The Origin of Hiragana /wu/ 平仮名のわ行うの字源に対する新たな発見"/ref> History It is presumed that ''yi'' would have represented . Along with 𛀁 (''ye'') and 𛄟 (''wu''), the syllable ''yi'' has no officially recognized kana, as these syllables do not occur in native Japanese words; however, during the Meiji period, linguists almost unanimously agreed on the kana for ''yi'', ''ye'', and ''wu''. 𛀆 (''yi'') and 𛄟 (''wu'') are thought to have never occurred as syllables in Japanese, and 𛀁 (''ye'') was merged with え and エ as a result of regular historical sound changes. Characters In the Edo period and the Meiji period, some Japanese linguists tried to separate kana ''i'' and kana ''yi''. The shapes of characters differed with each linguist. 𛀆 and 𛄠 were just two of many shapes. They were phonetic symbols to fill in the blanks of the goju ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
GB 18030
GB 18030 is a Chinese government standard, described as ''Information Technology — Chinese coded character set'' and defines the required language and character support necessary for software in China. GB18030 is the registered Internet name for the official character set of the People's Republic of China (PRC) superseding GB2312. As a Unicode Transformation Format (i.e. an encoding of all Unicode code points), GB18030 supports both simplified and traditional Chinese characters. It is also compatible with legacy encodings including GB2312, CP936, and GBK 1.0. In addition to the "GB18030 character encoding", this standard contains requirements about which scripts must be supported, font support, etc. As of 2022, in terms of font implementations, "only the Simplified Chinese fonts of the ''Noto Sans CJK'' (Google), ''Source Han Mono'' (Adobe), and ''Source Han Sans'' (Adobe) typeface families are already compliant with GB 18030-2022 Implementation Level 2 .''Microsoft ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
International Components For Unicode
International Components for Unicode (ICU) is an open-source project of mature C/C++ and Java libraries for Unicode support, software internationalization, and software globalization. ICU is widely portable to many operating systems and environments. It gives applications the same results on all platforms and between C, C++, and Java software. The ICU project is a technical committee of the Unicode Consortium and sponsored, supported, and used by IBM and many other companies. ICU provides the following services: Unicode text handling, full character properties, and character set conversions; Unicode regular expressions; full Unicode sets; character, word, and line boundaries; language-sensitive collation and searching; normalization, upper and lowercase conversion, and script transliterations; comprehensive locale data and resource bundle architecture via the Common Locale Data Repository (CLDR); multiple calendars and time zones; and rule-based formatting and parsing of dates ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
EUC-JP
Extended Unix Code (EUC) is a multibyte character encoding system used primarily for Japanese, Korean, and simplified Chinese. The most commonly used EUC codes are variable-length encodings with a character belonging to an compliant coded character set (such as ASCII) taking one byte, and a character belonging to a 94x94 coded character set (such as ) represented in two bytes. The EUC-CN form of and EUC-KR are examples of such two-byte EUC codes. EUC-JP includes characters represented by up to three bytes, including an initial , whereas a single character in EUC-TW can take up to four bytes. Modern applications are more likely to use UTF-8, which supports all of the glyphs of the EUC codes, and more, and is generally more portable with fewer vendor deviations and errors. EUC is however still very popular, especially EUC-KR for South Korea. Encoding structure The structure of EUC is based on the standard, which specifies a system of graphical character sets which can be repres ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Shift JIS
Shift JIS (Shift Japanese Industrial Standards, also SJIS, MIME name Shift_JIS, known as PCK in Solaris contexts) is a character encoding for the Japanese language, originally developed by a Japanese company called ASCII Corporation in conjunction with Microsoft and standardized as JIS X 0208 Appendix 1. , 0.2% of all web pages used Shift JIS, a decline from 1.3% in July 2014. Shift JIS is the second-most popular character encoding for Japanese websites, used by 5.6% of sites in the .jp domain. UTF-8 is used by 94.4% of Japanese websites. Description Shift JIS is based on character sets defined within JIS standards (for the single-byte characters) and (for the double-byte characters). The lead bytes for the double-byte characters are "shifted" around the 64 halfwidth katakana characters in the single-byte range 0xA1 to 0xDF. The single-byte characters 0x00 to 0x7F match the ASCII encoding, except for a yen sign (U+00A5) at 0x5C and an overline (U+203E) at 0x7E in place of ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Character Encoding
Character encoding is the process of assigning numbers to Graphics, graphical character (computing), characters, especially the written characters of Language, human language, allowing them to be Data storage, stored, Data communication, transmitted, and Computing, transformed using Digital electronics, digital computers. The numerical values that make up a character encoding are known as "code points" and collectively comprise a "code space", a "code page", or a "Character Map (Windows), character map". Early character codes associated with the optical or electrical Telegraphy, telegraph could only represent a subset of the characters used in written languages, sometimes restricted to Letter case, upper case letters, Numeral system, numerals and some punctuation only. The low cost of digital representation of data in modern computer systems allows more elaborate character codes (such as Unicode) which represent most of the characters used in many written languages. Character enc ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Japanese Braille
Japanese Braille is the braille script of the Japanese language. It is based on the original braille script, though the connection is tenuous. In Japanese it is known as , literally "dot characters". It transcribes Japanese more or less as it would be written in the ''hiragana'' or ''katakana'' syllabaries, without any provision for writing ''kanji''. Japanese Braille is a vowel-based abugida. That is, the glyphs are syllabic, but unlike kana they contain separate symbols for consonant and vowel, and the vowel takes primacy. The vowels are written in the upper left corner (points 1, 2, 4) and may be used alone. The consonants are written in the lower right corner (points 3, 5, 6) and cannot occur alone. However, the semivowel ''y'' is indicated by point 4, one of the vowel points, and the vowel combination is dropped to the bottom of the block. When this point is written in isolation, it indicates that the following syllable has a medial ''y'', as in ''mya''. Syllables beginnin ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Stroke (Chinese Character)
CJK strokes () are the calligraphic strokes needed to write the Chinese characters in regular script used in East Asian calligraphy. CJK strokes are the classified set of line patterns that may be arranged and combined to form Chinese characters (also known as Hanzi) in use in China, Japan, and Korea. Purpose The study and classification of CJK strokes is used for: #understanding Chinese character calligraphy – the correct method of writing, shape formation and stroke order required for character legibility; #understanding stroke changes according to the style that is in use; #defining stroke naming and counting conventions; #identifying fundamental components of Han radicals; and #their use in computing. Formation When writing Han radicals, a single stroke includes all the motions necessary to produce a given part of a character before lifting the writing instrument from the writing surface; thus, a single stroke may have abrupt changes in direction within the line. ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
