An Overlay-Based Resource Monitoring Scheme for Social Applications in MANET

Kwak, Kyungman; Huerta-Cánepa, Gonzalo; Ko, Yangwoo; Lee, Dongman; Hyun, Soon J.

doi:10.1109/compsac.2009.75

Cited by 7 publications

(6 citation statements)

References 16 publications

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“…DHTs mostly differ in the rules they use for associating the objects to nodes, their routing and lookup protocol, and their topology (e.g., [26]). Load balancing algorithms in which the computing nodes are partitioned into clusters based on data transfer in the network are called as cluster-based methods (e.g., [27], [28], [29]). Community-based load balancing is done by partitioning the set of nodes into a predefined number of communities (our work is focused on this).…”

Section: Load Balancing and Replicationmentioning

confidence: 99%

Community-Based Event Dissemination with Optimal Load Balancing

Xia

Ahmed

Yang

et al. 2015

IEEE Trans. Comput.

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Distributed publish/subscribe systems are poised with challenges of performance degradation and poor scalability. This is typically caused by an uneven load distribution of real-world applications and the susceptibility of link failure in networks. Partitioning and replication techniques have been implemented by exploring community-based load balancing to cope with such issues. The novel approach herein exploits offloading at the inter-community level as well as filter replication at the intra-community level. This results in the dynamic distribution and forwarding of publication and subscription services among brokers during run time. The proposed method, Co-Lab (COmmunity-based LoAd Balancing), seeks to improve the network performance by clustering brokers in a community by taking into consideration interest similarity and filter replication. It attempts to effectively achieve a more consistent and uniform load distribution among brokers and to circumvent the occurrence of highly overloaded brokers. Performance evaluations indicate that Co-Lab has promising advantages by achieving relatively better load balance, reduced overall load and robustness against failures.

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Section: Load Balancing and Replicationmentioning

confidence: 99%

Community-Based Event Dissemination with Optimal Load Balancing

Xia

Ahmed

Yang

et al. 2015

IEEE Trans. Comput.

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“…Typical application scenarios comprise (i) the delivery of multimedia content between arbitrary [1] or socially related nodes [2] to offload a cellular infrastructure or (ii) the provisioning of location-based services [3], [4] to exploit the locality of interaction.…”

Section: Introductionmentioning

confidence: 99%

PeerfactSim.KOM: Take it back to the streets

Stingl

Richerzhagen

Zollner

et al. 2013

2013 International Conference on High Performance Computing &Amp; Simulation (HPCS)

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Mobile peer-to-peer networks, utilizing ad hoc communication between hand-held communication devices, serve as an alternative to cellular networks for the deployment of applications. To evaluate a new communication mechanism in mobile peer-to-peer network, simulations constitute a useful and frequently applied evaluation technique. Besides initial simulations on plain and empty maps, it is crucial to evaluate if and how the developed communication mechanism performs in the envisioned scenarios dealing with obstacles as well as node mobility. Therefore, this paper introduces a framework that provides two procedures for the creation of arbitrary environments, ranging from simple environments to complex models of cities or regions. Additionally, the framework provides different strategies to model the mobility of nodes. Together with an extended version of PeerfactSim.KOM, a simulation platform is presented that supports the complete workflow for the simulation of mobile P2P networks. The simulation platform provides (i) the modeling of purpose-based environments based on SVG-images, (ii) the modeling of realistic environments based on data from Open Street Map, as well as (iii) synthetic and realistic mobility models.

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“…Especially in urban areas, MANETs represent a viable alternative to infrastructure-based networks and are particularly useful for applications, where the locality of interaction can be exploited. Examples comprise mobile social networks [14], where the interaction takes place between a group of users, as well as location-based services (e.g., Foursquare or academic approaches [3], [20]), where users consume and generate information about nearby locations [4].…”

Section: Introductionmentioning

confidence: 99%

“…To cope with the varying conditions resulting from the dynamic nature of the environment, it is essential that the participating nodes in a MANET obtain the current system state to adjust the network and the application accordingly. For example, a monitoring mechanism (i) monitors the access frequency of the exchanged content to adjust the replication factor [5], (ii) monitors social metrics [21] or available node resources [14] to identify highly connected or powerful nodes for content placement, or (iii) monitors the node density to identify sparsely populated places [9], as examined in Section V-C. In contrast to a centralized approach, where a server processes the monitored data and reacts on the obtained results, MANETs must cope with the challenge that the data is distributed over the entire network, while no dedicated component is in place to capture the monitored data.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

BlockTree: Location-aware decentralized monitoring in mobile ad hoc networks

Stingl

Groß

Nobach

et al. 2013

38th Annual IEEE Conference on Local Computer Networks

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Mobile ad hoc networks (MANETs) represent a crucial alternative to deploy applications in urban areas. In those networks, it is inevitable that all nodes are aware of the current system state to adapt their behavior according to the varying conditions. However, existing decentralized monitoring solutions for MANETs only locate the required information at a set of nodes, which are in charge of serving the remaining network, while the availability of information depends on the accessibility of those nodes. To avoid these limitations, BlockTree is a novel, fully decentralized monitoring approach for MANETs that leverages each node's resources to capture and distribute the system state to all nodes. Exploiting its hierarchical structure, BlockTree introduces the concept of location-aware monitoring delivering detailed as well as aggregated information. Through robust communication paired with the stateless design, BlockTree provides accurate results in the presence of fast moving nodes or over an error-prone communication medium.

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An Overlay-Based Resource Monitoring Scheme for Social Applications in MANET

Cited by 7 publications

References 16 publications

Community-Based Event Dissemination with Optimal Load Balancing

Community-Based Event Dissemination with Optimal Load Balancing

PeerfactSim.KOM: Take it back to the streets

BlockTree: Location-aware decentralized monitoring in mobile ad hoc networks

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