db_connect: Could not connect to paper db at "wotug@dragon.kent.ac.uk"<br>
db_connect: Could not connect to paper db at "wotug@dragon.kent.ac.uk"<br>
@InProceedings{FaustSputh04,
  title =        "{C}haining {C}ommunications {A}lgorithms with {CSP}",
db_connect: Could not connect to paper db at "wotug@dragon.kent.ac.uk"<br>
  author=        "Faust,  Oliver and Sputh,  Bernhard H.C. and Endler,  David",
db_connect: Could not connect to paper db at "wotug@dragon.kent.ac.uk"<br>
  editor=        "East, Ian R. and Duce, David and Green, Mark and Martin,  Jeremy M. R. and Welch, Peter H.",
db_connect: Could not connect to paper db at "wotug@dragon.kent.ac.uk"<br>
  pages =        "325--338",
  booktitle=     "{C}ommunicating {P}rocess {A}rchitectures 2004",
  isbn=          "1 58603 458 8",
  year=          "2004",
  month=         "sep",
  abstract=      "Software Defined Radio (SDR) requires a reliable, fast and
     flexible method to chain parameterisable algorithms.
     Communicating Sequential Processes (CSP) is a design
     methodology, which offers exactly these properties. This
     paper explores the idea of using a Java implementation of
     CSP (JCSP) to model a flexible algorithm chain for Software
     Defined Radio. JCSP offers the opportunity to distribute
     algorithms on different processors in a multiprocessor
     environment, which gives a speed up and keeps the system
     flexible. If more processing power is required another
     processor can be added. In order to cope with the high data
     rate requirement of SDR, optimized data transfer schemes
     were developed. The goal was to increase the overall system
     efficiency by reducing the synchronisation overhead of a
     data transfer between two algorithms. To justify the use of
     CSP in SDR, a system incorporating CSP was compared with a
     conventional system, in single and multiprocessor
     environments."
}