Add to ORKGLatest version Version 1 [This is the last word file before conversion to html] Summary Starting with version 3.2, Unicode includes virtually all of the standard characters used in mathematics. This set supports a variety of math applications on computers, including document presentation languages like TeX, math markup languages like MathML, computer algebra languages like OpenMath, internal representations of mathematics in systems like Mathematica and MathCAD, computer programs, and plain text. This technical report describes the Unicode mathematics character groups and gives some of their default math properties
The world of character encoding in 2010 has changed significantly since TEI began in 1987, thanks to...
The term "Unicode" was first introduced in 1987 by Joe Becker of Xerox, based on the phrase "unique,...
Printed mathematics has a number of features which distinguish it from conventional text. These incl...
The Unicode Standard includes virtually all of the standard characters used in mathematics. This set...
The Unicode Standard includes virtually all standard characters used in mathematics. This set suppor...
Starting with version 3.2, Unicode includes virtually all of the standard characters used in mathema...
Unicode 3.2, and to a lesser extent 4.0 added a significant set of characters for mathe-matical use,...
In the preceding entries of this series, we have mostly dealt with encoding issues, that is to say h...
A main reason for the development of the LuaTEX and X ETEX engines has been to provide support for U...
A universal character encoding is required to produce software that can be localized for any languag...
Fundamentally, computers just deal with numbers. They store letters and other characters by assignin...
This paper describes the specifications for three ground-truthed mathematical character and symbol i...
Unicode, the universal character set standard first published in 1991, has changed dramatically in i...
This annex describes normalization forms for Unicode text. When implementations keep strings in a no...
Because Unicode contains such a large number of characters and incorporates the varied writing syste...
The world of character encoding in 2010 has changed significantly since TEI began in 1987, thanks to...
The term "Unicode" was first introduced in 1987 by Joe Becker of Xerox, based on the phrase "unique,...
Printed mathematics has a number of features which distinguish it from conventional text. These incl...
The Unicode Standard includes virtually all of the standard characters used in mathematics. This set...
The Unicode Standard includes virtually all standard characters used in mathematics. This set suppor...
Starting with version 3.2, Unicode includes virtually all of the standard characters used in mathema...
Unicode 3.2, and to a lesser extent 4.0 added a significant set of characters for mathe-matical use,...
In the preceding entries of this series, we have mostly dealt with encoding issues, that is to say h...
A main reason for the development of the LuaTEX and X ETEX engines has been to provide support for U...
A universal character encoding is required to produce software that can be localized for any languag...
Fundamentally, computers just deal with numbers. They store letters and other characters by assignin...
This paper describes the specifications for three ground-truthed mathematical character and symbol i...
Unicode, the universal character set standard first published in 1991, has changed dramatically in i...
This annex describes normalization forms for Unicode text. When implementations keep strings in a no...
Because Unicode contains such a large number of characters and incorporates the varied writing syste...
The world of character encoding in 2010 has changed significantly since TEI began in 1987, thanks to...
The term "Unicode" was first introduced in 1987 by Joe Becker of Xerox, based on the phrase "unique,...
Printed mathematics has a number of features which distinguish it from conventional text. These incl...