SPEED: A stateless protocol for real-time communication in sensor networks

Tian He; John A. Stankovic; Chenyang Lu; Tarek Abdelzaher

SPEED: A stateless protocol for real-time communication in sensor networks

Tian He
, John A. Stankovic
, Chenyang Lu
, Tarek Abdelzaher

Research output: Contribution to conference › Paper › peer-review

Abstract

In this paper, we present a real-time communication protocol for sensor networks, called SPEED. The protocol provides three types of real-time communication services, namely, real-time unicast, real-time area-multicast and real-time area-anycast. SPEED is specifically tailored to be a stateless, localized algorithm 'with minimal control over-head. End-to-end soft real-time communication is achieved by maintaining a desired delivery speed across the sensor network through a novel combination of feedback control and non-deterministic geographic forwarding. SPEED is a highly efficient and scalable protocol for sensor networks where the resources of each node are scarce. Theoretical analysis, simulation experiments and a real implementation on Berkeley motes are provided to validate our claims.

Original language	English (US)
Pages	46-55
Number of pages	10
State	Published - 2003
Externally published	Yes
Event	23th IEEE International Conference on Distributed Computing Systems - Providence, RI, United States Duration: May 19 2003 → May 22 2003

Other

Other	23th IEEE International Conference on Distributed Computing Systems
Country/Territory	United States
City	Providence, RI
Period	5/19/03 → 5/22/03

ASJC Scopus subject areas

Software
Hardware and Architecture
Computer Networks and Communications

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title = "SPEED: A stateless protocol for real-time communication in sensor networks",

abstract = "In this paper, we present a real-time communication protocol for sensor networks, called SPEED. The protocol provides three types of real-time communication services, namely, real-time unicast, real-time area-multicast and real-time area-anycast. SPEED is specifically tailored to be a stateless, localized algorithm 'with minimal control over-head. End-to-end soft real-time communication is achieved by maintaining a desired delivery speed across the sensor network through a novel combination of feedback control and non-deterministic geographic forwarding. SPEED is a highly efficient and scalable protocol for sensor networks where the resources of each node are scarce. Theoretical analysis, simulation experiments and a real implementation on Berkeley motes are provided to validate our claims.",

author = "Tian He and Stankovic, \{John A.\} and Chenyang Lu and Tarek Abdelzaher",

year = "2003",

language = "English (US)",

pages = "46--55",

note = "23th IEEE International Conference on Distributed Computing Systems ; Conference date: 19-05-2003 Through 22-05-2003",

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T2 - 23th IEEE International Conference on Distributed Computing Systems

AU - He, Tian

AU - Stankovic, John A.

AU - Lu, Chenyang

AU - Abdelzaher, Tarek

PY - 2003

Y1 - 2003

N2 - In this paper, we present a real-time communication protocol for sensor networks, called SPEED. The protocol provides three types of real-time communication services, namely, real-time unicast, real-time area-multicast and real-time area-anycast. SPEED is specifically tailored to be a stateless, localized algorithm 'with minimal control over-head. End-to-end soft real-time communication is achieved by maintaining a desired delivery speed across the sensor network through a novel combination of feedback control and non-deterministic geographic forwarding. SPEED is a highly efficient and scalable protocol for sensor networks where the resources of each node are scarce. Theoretical analysis, simulation experiments and a real implementation on Berkeley motes are provided to validate our claims.

AB - In this paper, we present a real-time communication protocol for sensor networks, called SPEED. The protocol provides three types of real-time communication services, namely, real-time unicast, real-time area-multicast and real-time area-anycast. SPEED is specifically tailored to be a stateless, localized algorithm 'with minimal control over-head. End-to-end soft real-time communication is achieved by maintaining a desired delivery speed across the sensor network through a novel combination of feedback control and non-deterministic geographic forwarding. SPEED is a highly efficient and scalable protocol for sensor networks where the resources of each node are scarce. Theoretical analysis, simulation experiments and a real implementation on Berkeley motes are provided to validate our claims.

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M3 - Paper

AN - SCOPUS:0037968893

SP - 46

EP - 55

Y2 - 19 May 2003 through 22 May 2003

ER -

SPEED: A stateless protocol for real-time communication in sensor networks

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