@phdthesis{oai:tsukuba.repo.nii.ac.jp:00008704,
 author = {Komain，Pibulyarojana},
 month = {},
 note = {In order to provide high speed multimedia network communication services such as voice, data and real-time video transmissions, the demand for B-ISDN (Broadband Integrated Services Digital Network) has been recently increased. A basis for packet transmission in B-ISDN, Asynchronous Transfer Mode (ATM)[1] has been introduced. ATM is a high-speed connection-oriented packet-switching technique with minimal functionality in the network which differs from the conventional packets switching in many aspects. High-level protocol functions such as error control are performed on an end-to-end basis, not such as link-by-link basis in ATM. In ATM, the multiplexing of transmission capacity into short fixed length transmission slots called cells has been adopted as a flexible and efficient transmission standard. The ATM cell consist of a 48 bytes information payload and a 5 bytes header[1]. The cell requires a mere total of 3 μs for transmission on a 155.12 Mb/s ATM link. Each cell header conrains an n-bit binary address of the requested output port. These cells are entered and distributed to their destinations, respevtively, by an ATM switch[2]-[5]. An ATM switch of size N can be regarded as a box with N input ports and N output ports. It routes cells arriving at its input ports in a time-slotted fashion to their desired output ports (destined by their headers). Since all input lines are synchronized and the minimum slot size is equal to the transmission time of a single cell, input and output lines are assumed to operate at the same speed.  ･･･, 1999, Bibliography: p. 66-68},
 school = {筑波大学, University of Tsukuba},
 title = {Hybrid dilated banyan networks with bypasses},
 year = {2000}
}