Advanced Data Compression promises the next big Leap
in Network Performance
Improving communications with a
new Autosophy information theory
Authors: Klaus Holtz, Eric Holtz, Diana Kalienky.
Published / Presented at: EUROPTO 1998, SYBEN 98, Broadband European Networks and Multimedia Services. 18 – 20 May 1998, Zurich, Switzerland.
Level: Expert Data Communication
Abstract: Three recently introduced technologies: a new Autosophy information theory; fast Content Addressable Memories; and Packet Switching protocols, are combined in data compression chipsets to improve network throughput with real-time lossless text and image compression. Compared with the cost of putting new cables into the ground or launching new satellites, data compression chipsets offer a much less expensive alternative for improving the bandwidth of broadband communication networks. Data compression is based on a new Autosophy information theory in which, in contrast to Shannon’s theory, communication is determined only by the data content. In addition to high lossless data compression, this also provides virtually unbreakable “codebook” encryption and easier communication via packet switching networks. The Autosophy theories provide eight known classes of self-learning Omni Dimensional Networks. Only the serial network is explained here for use in compressed text and video communications. A new Content Addressable Read Only Memory (CAROM) may increase data compression speed to more than 20 Million symbols per second, fast enough for virtually any network speed.
Keywords: Autosophy, information theory, lossless data compression, image compression, video compression, encryption, packet networks, secure communications, Internet communications
Available downloadable documents:
Publication Top Page -- Adobe pdf
Published document -- Adobe pdf