On this page:
abstract
include-abstract
authors
author
institutes
institute
email
3.7.1 Example
6.5

3.7 LNCS Paper Format

 #lang scribble/lncs package: at-exp-lib
The scribble/lncs language is like scribble/base, but configured with Latex style defaults to use the "llncs.cls" class file. The class file is not included with Scribble due to license issues, but if the file is not manually installed into the scribble/lncs collection, then it is downloaded on demand to (find-system-path 'addon-dir).

procedure

(abstract pre-content ...)  block?

  pre-content : pre-content?
Generates a nested flow for a paper abstract.

syntax

(include-abstract module-path)

Similar to include-section, but incorporates the document in the specified module as an abstract. The document must have no title or sub-parts.

syntax

(authors auth ...)

 
auth = (author pre-content-expr ...)
  | (author #:inst str-expr pre-content-expr ...)
 
  pre-content-expr : pre-content?
  str-expr : string?
A replacement for author from scribble/base.

The #:inst should be a number that matches up to one of the arguments to institutes.

syntax

author

For use only in authors.

syntax

(institutes (institute pre-content-expr ...) ...)

 
  pre-content-expr : pre-content?
The pre-content-exprs are used as the institutions of the authors.

syntax

institute

For use only in institutes.

syntax

(email pre-content-expr ...)

Specifies an email address; must be used inside institute.

3.7.1 Example

Here is an example of a paper written in the LNCS format:

For more randomly generated papers, see SCIgen: http://pdos.csail.mit.edu/scigen

#lang scribble/lncs
 
@authors[@author[#:inst "1"]{Lauritz Darragh}
         @author[#:inst "2"]{Nikolaj Kyran}
         @author[#:inst "2"]{Kirsten Gormlaith}
         @author[#:inst "2"]{Tamaz Adrian}]
 
@institutes[
  @institute["University of Southeast Boston"
             @linebreak[]
             @email|{darragh@cs.seboston.edu}|]
  @institute["University of Albion"
             @linebreak[]
             @email|{{nkyran,gorm,tamaz}@cs.albion.ac.uk}|]]
 
@title{Arak: Low-Energy, Interposable Theory}
 
@abstract{The implications of client-server symmetries have been
far-reaching and pervasive. Given the current status of
constant-time theory, mathematicians daringly desire the synthesis
of rasterization, which embodies the essential principles of
algorithms. In this work, we describe a client-server tool for
investigating flip-flop gates (Arak), verifying that the
producer-consumer problem can be made homogeneous, secure, and
wireless.}