Understanding differences in MAC performance
Tristan Gaugel,Jens Mittag,Hannes Hartenstein,Erik G. Ström +3 more
- pp 1-6
TLDR
While an extended carrier sensing range is only beneficial for CSMA, the existence and severity of fading is far less detrimental for Self-organizing Time-Division Multiple Access than for CSma.Abstract:
The suitability and performance of medium access protocols in vehicular environments is already being investigated over a long period of time. Carrier Sense Multiple Access (CSMA) has been shown to perform sufficiently well in most situations and being able to support safety and efficiency vehicular applications. Recently, Self-organizing Time-Division Multiple Access (STDMA) is being considered as an alternative and has been shown to coordinate the channel slightly better under certain situations. However, when comparing both protocols the precise details of radio and network conditions and parametrization of the protocols are decisive on which protocol takes a slight lead. Consequently, scenarios can be constructed quite easily in which one protocol is superior over the other one. The focus of this work is thus not to absolutely compare both protocols, but rather to understand the strengths and weaknesses of both protocols in certain situations. In particular, we consider i) to which degree hidden nodes influence the coordination ability, ii) how an extended carrier sensing range is beneficial and iii) how temporary fading influences the performance of both MAC protocols. Our results show that while an extended carrier sensing range is only beneficial for CSMA, the existence and severity of fading is far less detrimental for STDMA than for CSMA.read more
Citations
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Proceedings ArticleDOI
Analytical study of Self Organizing TDMA for V2X communications
Laurent Gallo,Jérôme Härri +1 more
TL;DR: An analytical model of S-TDMA is provided to compute the Slot Occupation Distribution and Packet Level Incoordination in closed-form expression and an asymptotic evaluation of the impact of various configuration parameters on the communication performance of S (Self-Organizing TDMA).
Journal ArticleDOI
Analysis of a S-TDMA distributed scheduler for ad-hoc cellular-V2X communication
Laurent Gallo,Jérôme Härri +1 more
TL;DR: This paper describes S-TDMA, a reliable semi-deterministic and context aware distributed channel access algorithm, and presents an analytical model to determine its packet reception performance, and describes and analyzes a distributed Cellular-V2X scheduler based on it.
Proceedings ArticleDOI
Analysis and Evaluation of Self-Organizing TDMA for Industrial Applications
TL;DR: Self-Organizing Time Division Multiple Access is analysed to assess its suitability for use in industrial applications and several metrics such as channel access delay, slot occupation distribution (SOD), packet losses and packet inter-arrival time (PIAT) have been evaluated.
References
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Book ChapterDOI
The m-Distribution—A General Formula of Intensity Distribution of Rapid Fading
TL;DR: In this article, the authors summarized the principal results of a series of statistical studies in the last seven years on the intensity distributions due to rapid fading, and presented an extremely simplified method for estimating the improvement available from various systems of diversity reception.
Journal ArticleDOI
Packet Switching in Radio Channels: Part II--The Hidden Terminal Problem in Carrier Sense Multiple-Access and the Busy-Tone Solution
TL;DR: The busy-tone multiple-access mode is introduced and analyzed as a natural extension of CSMA to eliminate the hidden-terminal problem and results show that BTMA with hidden terminals performs almost as well as CSMA without hidden terminals.
BookDOI
VANET : vehicular applications and inter-networking technologies
TL;DR: This chapter discusses VANET Convenience and Efficiency Applications, as well as a Design Framework for Realistic Vehicular Mobility Models, and the challenges of Data Security in Vehicular Networks.
Journal ArticleDOI
Wireless medium access control protocols
TL;DR: This survey discusses the challenges in the design of wireless MAC protocols, classifies them based on architecture and mode of operation, and describes their relative performance and application domains in which they are best deployed.