A Reliable Transport Protocol for Resource Constrained Nodes – CRCTP - Protocol Design

Un Protocole de transport avec garantie de livraison pour les appareils de communications aux ressources limitées – CRCTP – Conception du protocole

PDF

Authors
  1. Deziel, M.
Corporate Authors
Defence Research and Development Canada, Ottawa Research Centre, Ottawa ON (CAN);Communications Research Centre, Ottawa ONT (CAN)
Abstract
During the scope of two DRDC projects related to wireless sensor networks (SASNet, Self-Healing Autonomous Network, 2007-2011 and WRSN, Wireless Radiation Sensor Network, 2012-2014), CRC designed a transport protocol called CRCTP (CRC Transport Protocol). A Transport Protocol for Resource Constrained Nodes: CRCTP - Protocol Design The two de-facto transport protocols typically found in IP networks are TCP (Transmission Control Protocol) and UDP (User Datagram Protocol). UDP does not provide guarantee of delivery, but it is useful when low latency is required. TCP does provide guaranteed delivery. The mechanism that TCP uses to provide its guaranty of delivery operates end-to-end, i.e. only the two communicating endpoints are involved. This means that a failed transmission, even though it fails at the last hop before the destination, is restarted completely. Also, TCP uses a congestion control mechanism that causes unnecessary delays in wireless networks, and particularly in multi-hop networks. These two reasons make TCP inefficient under some circumstances, and the latency introduced is unacceptable for some applications. CRCTP was designed with the objective of having a transport protocol that provides guaranteed delivery with the lowest latency and overhead possible. It is designed to operate on resource constrained nodes and networks with restricted bandwidth. Various techniques are used to lower the overhead, latency and memory consumption, such as: hop-by-hop delivery gu

Il y a un résumé en français ici.

Keywords
wireless network;transport protocol
Report Number
DRDC-RDDC-2014-C109 — Contract Report
Date of publication
01 Jun 2014
Number of Pages
58
DSTKIM No
CA039487
CANDIS No
800537
Format(s):
Electronic Document(PDF)

Permanent link

Document 1 of 1

Date modified: