公开(公告)号：KR100653102B1

公开(公告)日：2006-12-05

申请号：KR1020050115791

申请日：2005-11-30

Applicant: 성균관대학교산학협력단

Inventor： 추현승 ,  최근면

IPC: H04L12/24 ,  H04L12/28

Abstract: A method for simplifying a network resource management process is provided to suppose a circumstance where buffer tuning and parallel sockets are simultaneously used within a range that maximum buffer size defined in a system is allowed, and to use a systemized access form using a regression analysis method, thus optimum buffer size and the number of parallel sockets can be quickly and simply calculated. Relation among the number of sockets, the size of a buffer, and transmission delay having a correlation coefficient on a network is modeled(S10). A change of a transmission rate in accordance with change of the number of sockets, the size of a buffer, and transmission delay for determining coefficient is measured(S20). A sample of the number of sockets and the size of a buffer showing maximum transmission on the network is extracted(S30). The first regression is induced by using a regression analysis application program(S40). The relation is complemented through multi-regression analysis including transmission delay in the network(S50).

Abstract translation: 提供了一种用于简化网络资源管理过程的方法，以假设在允许系统中定义的最大缓冲区大小的范围内同时使用缓冲区调谐和并行套接字并且使用使用回归分析方法的系统化访问形式的情况 ，因此可以快速简单地计算最佳缓冲区大小和并行套接字的数量。 对网络中的套接字数量，缓冲器的大小和具有相关系数的传输延迟之间的关系进行建模（S10）。 测量根据套接字数量，缓冲器的大小以及用于确定系数的传输延迟的变化的传输速率的变化（S20）。 提取显示网络上的最大传输的套接字数量和缓冲器大小的样本（S30）。 第一次回归是通过使用回归分析应用程序（S40）引起的。 该关系通过包括网络中的传输延迟的多回归分析来补充（S50）。