[en] TREATMENT OF PATH ASYMMETRY IN WIRELESS MESHES: AN EXTENSION TO THE HWMP PROTOCOL / [pt] TRATAMENTO DE ASSIMETRIA DE CAMINHOS EM MALHAS SEM FIO: UMA EXTENSÃO AO PROTOCOLO HWMP

TADEU MARTINS CHAMUINHO BASTOS

19 April 2013

[pt] O surgimento de tecnologias de enlace de rádio baratas e com altas taxas de transmissão possibilitou o desenvolvimento de métodos rápidos e economicamente viáveis para a implantação de infraestruturas de comunicação, algo antes possível apenas com a utilização de enlaces confinados. Uma manifestação deste avanço são as malhas sem fio. A ratificação da emenda IEEE 802.11s, que versa sobre as modificações necessárias para o suporte a LANs sem fio com múltiplos saltos por parte de dispositivos compatíveis com 802.11, apresenta o protocolo HWMP, para a seleção de caminhos multissalto em uma malha. Em um ambiente com comunicação bidirecional, nem sempre e garantido que as melhores opções de ida e volta sejam coincidentes, uma condição conhecida como assimetria de caminhos, e que não e considerada pelo protocolo HWMP. Este trabalho apresenta algumas adaptações ao protocolo que buscam permitir a melhor utilização dos enlaces assimétricos, bem como mensura as diferenças de desempenho em comparação com o protocolo original. / [en] The rise of inexpensive, high-bitrate wireless link technologies enabled the development of rapid and affordable techniques for the deployment of communication infrastructures, something only available before with the use of wired links. The ratification of the IEEE 802.11s ammendment, which establishes the necessary modifications to 802.11-compliant devices for supporting multi-hop WLANs, presents the HWMP protocol, that addresses multi-hop path selection in a wireless mesh. In a bidirectional communication environment, it is not always ensured that the best options for sending and receiving data are coincident, a condition known as path asymmetry, and not considered by HWMP. This work presents some adaptations to the protocol, seeking to allow better use of asymmetric links, as well as measures its performance differences in comparison to the original protocol.

[pt] MALHAS SEM FIO

[pt] ASSIMETRIA DE CANAL

[pt] IEEE 80211S

[pt] HWMP

[pt] SELECAO DE CAMINHOS

Analýza směrovacích protokolů používaných v MANET sítích / Analysis of routing protocols used in MANET networks

Vala, Ondřej

January 2017

This diploma thesis is analysis of routing protocols used in MANET networks focusing on protocols OLSR, AODV and HWMP. The work consists of a theoretical and practical part. The theoretical part describes the routing protokols, which are used in MANET networks and their applications to FANET networks. In practical part, there are describes of created mobility model in the NS-3, which are used for comparison routing protocols on the created scenarios of mobility according to the qualitative parameters of the networks.

Evaluation of the pre IEEE 802.11s RFC : Aspects of the Design and Implementation of the Mesh Station with RA-OLSR in the C-Core

Nwup, Emineimo Kennedy, Akande, Adesola Idris

January 2009

The demand for ubiquitous networks has pushed the designs of networks all the way. The requirement for access point to be integrated into IEEE 802.3 standard and other networks has always been a sore point in the limitation of wireless coverage of IEEE 802.11 standard networks. Wireless Mesh Network (WMN) is expected to be the future of the next generation wireless network. It is experiencing a fast growing development due to its attractive features which includes high reliable connectivity, easy deployment, self healing, self configuring, flexible network expansion etc. Hence the mobility of the WMN nodes has been of paramount importance, which would make it independent of wired infrastructure and flexible interoperability with various networks and devices. The requirements like mobility, transparency etc. have led to the amendment of the WMN standard by the Institute of Electronics and Electrical Engineering (IEEE) 802.11 Working Group (WG), Task Group (TG) “S. The IEEE 802.11s standard tackles these issues by its operation on layer 2 of Open Systems Interconnection (OSI) reference model and creates a transparent IEEE 802 broadcast domain that supports any higher layer protocol. In our work we give the evaluation of the upcoming IEEE 802.11s standard based on its features some of which include routing at layer 2 and medium access control to enable its design and implementation in the existing mesh frame work of Communication Research Labs (CRL) using the proposed IEEE 802.11s routing protocols with focus on RA-OLSR and HWMP. We concentrate on how to integrate these features into the existing CRL’s C-CORE which runs other layer 3 routing protocols and complex functions as Application Programming Interface (API) modules. The implementation of the IEEE 802.11s standard creates major challenges as we have to create a roadmap on integrating the new wireless kernel interfaces like the nl80211, cfg80211 and the Wireless Extension (Wext) into the CRL’s C-CORE framework for communication between user space and kernel space, especially taking into consideration of the existing HAL and madwifi wireless drivers of the CRL’s framework. To support the evaluation of the features like the layer 2 routing and the modified MAC performance, we compare results of the CRL’s real time mesh network test with our simulation result of the IEEE 802.11s standard using the Qualnet 4.5 simulator with focus on the basic network parameters like delay, jitter and throughput. The comparison shows that the CRL’s network has higher throughput running its existing layer 3 protocols. The analysis also proves that the 802.11s is flexible, scalable and efficient in delivering multi hop capabilities to clients that cannot afford the deployment time or the cost for wired networks that use access points. With the complete integration, of the 802.11s standard specifications the CRL’s C-CORE framework can be much more capable of supporting more diverse network scenario deployments. / +46-736318897

IEEE 802.11s

Wireless Mesh Network

RA-OLSR

C-CORE

HWMP

IEEE 802.3

WLAN

Signal Processing

Signalbehandling

Computer Sciences

Datavetenskap (datalogi)

Telecommunications

Telekommunikation

Layer 2 Path Selection Protocol for Wireless Mesh Networks with Smart Antennas

Porsch, Marco

16 September 2011

In this thesis the possibilities of smart antenna systems in wireless mesh networks are examined. With respect to the individual smart antenna tradeoffs, a routing protocol (Modified HWMP, MHWMP) for IEEE 802.11s mesh networks is presented, that exploits the full range of benefits provided by smart antennas: MHWMP actively switches between the PHY-layer transmission/reception modes (multiplexing, beamforming and diversity) according to the wireless channel conditions. Spatial multiplexing and beamforming are used for unicast data transmissions, while antenna diversity is employed for efficient broadcasts. To adapt to the directional channel environment and to take full benefit of the PHY capabilities, a respective MAC scheme is employed. The presented protocol is tested in extensive simulation and the results are examined.

Drahtloses vermaschtes Netz

Routing

Intelligente Antenne

Phasengesteuerte Antennengruppe

Adaptive Antenne

Zugangsverfahren

Wireless Mesh Networks

Smart Antennas

Routing

Hybrid Wireless Mesh Protocol (HWMP)

Directional MAC (DMAC)

ddc:600

ddc:384

ddc:620

Drahtloses vermaschtes Netz

Routing

Intelligente Antenne

Phasengesteuerte Antennengruppe

Adaptive Antenne

Zugangsverfahren

Layer 2 Path Selection Protocol for Wireless Mesh Networks with Smart Antennas

Porsch, Marco

12 April 2011

In this thesis the possibilities of smart antenna systems in wireless mesh networks are examined. With respect to the individual smart antenna tradeoffs, a routing protocol (Modified HWMP, MHWMP) for IEEE 802.11s mesh networks is presented, that exploits the full range of benefits provided by smart antennas: MHWMP actively switches between the PHY-layer transmission/reception modes (multiplexing, beamforming and diversity) according to the wireless channel conditions. Spatial multiplexing and beamforming are used for unicast data transmissions, while antenna diversity is employed for efficient broadcasts. To adapt to the directional channel environment and to take full benefit of the PHY capabilities, a respective MAC scheme is employed. The presented protocol is tested in extensive simulation and the results are examined.:1 Introduction 2 Wireless Mesh Networks 3 IEEE 802.11s 4 Smart Antenna Concepts 5 State of the Art: Wireless Mesh Networks with Smart Antennas 6 New Concepts 7 System Model 8 Results and Discussion 9 Conclusion and Future Work

info:eu-repo/classification/ddc/600

ddc:600

info:eu-repo/classification/ddc/384

ddc:384

info:eu-repo/classification/ddc/620

ddc:620