Power Law and Exponential Decay of Intercontact Times between Mobile Devices

Karagiannis, Thomas; Boudec, J.-Y. Le; Vojnović, Milan

doi:10.1109/tmc.2010.99

Cited by 299 publications

(186 citation statements)

References 12 publications

(17 reference statements)

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“…For two nodes from two different communities, we consider that the intercontact time follows a bounded power law distribution ([30mins, 7 days]) with the slope equal to 1.2, resulting in the average interaction frequency about 1 per day. The settings here are close to those obtained from the real traces [19,23,29]. We first demonstrate the trust evaluation performance assuming there is sufficient storage space on each node to store the trust values towards all others.…”

Section: Simulation Resultsmentioning

confidence: 67%

“…The initial trust value of all devices is set to ignorance (0.5). We assume the encounter or interaction pattern follows the power-law distribution (with or without exponential cutoff) which is supported by the analysis of many real traces [19,23,29]. For two nodes in the same CoI, we consider that the inter-contact time follows a bounded power law distribution ([10mins, 2 days]) with the slope equal to 1.4, resulting in the average interaction frequency about 6 times per day.…”

Section: Simulation Resultsmentioning

confidence: 99%

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Scalable, adaptive and survivable trust management for community of interest based Internet of Things systems

Bao

Chen

Guo

2013

2013 IEEE Eleventh International Symposium on Autonomous Decentralized Systems (ISADS)

138

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Abstract-An Internet of Things (IoT) system connects a large amount of tags, sensors, and mobile devices to facilitate information sharing, enabling a variety of attractive applications. It challenges the design and evaluation of IoT systems to meet the scalability, compatibility, extendibility, dynamic adaptability and resiliency requirements. In this paper, we design and evaluate a scalable, adaptive and survivable trust management protocol in dynamic IoT environments. Recognizing that entities in an IoT system are connected through social networks of entity owners, we consider a community of interest (CoI) based social IoT where nodes form into communities of interest. Given inter-CoI vs. intra-CoI social connections among entity owners as input, we identify best trust protocol settings for achieving convergence, accuracy, dynamic adaptability and resiliency properties in the presence of dynamically changing conditions and malicious nodes performing trust-related attacks. For scalability, we consider a design by which a node only keeps trust information of a subset of nodes meeting its interest and performs minimum computation to update trust. We validate our design by extensive simulation considering both limited and ideal (unlimited) storage space. The results demonstrate that our trust management protocol using limited storage space achieves a similar performance level compared with the one under ideal storage space, and a newly joining node can quickly build up trust towards other nodes with desirable accuracy and convergence behavior.

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Section: Simulation Resultsmentioning

confidence: 67%

Section: Simulation Resultsmentioning

confidence: 99%

Scalable, adaptive and survivable trust management for community of interest based Internet of Things systems

Bao

Chen

Guo

2013

2013 IEEE Eleventh International Symposium on Autonomous Decentralized Systems (ISADS)

138

View full text Add to dashboard Cite

show abstract

“…The fruitful result of this research is that social aware DTN constructs a transmission strategy that is based on community distribution and centrality. This research adopts distributed K-Clique algorithm to conduct community distribution [35] and uses singlewindow centrality to calculate whole centrality and partial centrality. To control copy overhead, this research proposes a dichotomy approach.…”

Section: Discussionmentioning

confidence: 99%

A novel approach of adaptive socially aware routing algorithm in delay tolerant networks

Cho

2015

Teh. vjesn.

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Original scientific paper Under the delay tolerant network, high mobility of the node and the transmission distance make it impossible to keep a durable and regular data routing path between two nodes. As a result, such failure affects the function of packet routing mechanism. Therefore, in order to improve the efficacy of data transmission, conventional delay tolerant routing adopts more packet replication, or makes opportunistic on-line with encountered nodes and selects advantageous ones to increase packet arrival rate or reduce transmission delay rate. However, excessive increase of packet replication or excessive records for selected transmission nodes may result in internet traffic or a waste of resources. It may also lead to a lower level of the routing protocol or a complicated operation. Thus, conventional delay tolerant routing is not satisfying. This research intends to design an optimized forward strategy on the basis of different routing algorithm. This strategy is based on adaptive socially aware and aims at improving solving problems of delay tolerant networks routing. Keywords: Delay Tolerant Networks; routing algorithm; forward strategy; socially awareNovi pristup adaptivnog društveno svjesnog algoritma za prijenos podataka u mrežama koje dopuštaju zastoj Izvorni znanstveni članak U mreži koja tolerira zastoj, ograničenoj visokom mobilnošću čvora i prijenosnom udaljenosti, teško je održati trajnu i redovitu putanju prijenosa podataka (ruting) između dva čvora. Zbog toga, ovakvo zatajenje utječe na funkciju mehanizma za prenošenje paketa. Stoga, da bi se povećala učinkovitost prijenosa podataka, uobičajeni ruting koji tolerira zastoj prihvaća više replikacija paketa ili stvara oportunistički on-line s čvorovima na koje nailazi te izabire povoljnije kako bi ubrzao dolazak paketa ili smanjio veličinu zastoja u prijenosu. Međutim, prekomjerno povećanje replikacija paketa ili prevelik broj zapisa za izabrane čvorove prijenosa može rezultirati prometom na internetu ili gubitkom resursa. Može također dovesti do niže razine ruting protokola ili složene operacije. Prema tome, uobičajeni ruting koji tolerira zastoj ne zadovoljava. Cilj je ovoga istraživanja projektirati optimiziranu naprednu strategiju na temelju različitog ruting algoritma. Ta se strategija zasniva na adaptivnoj društvenoj osviještenosti i teži poboljšanju rješavanja problema prijenosa podataka u mrežama koje dopuštaju zastoj.

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“…Since each BSN computes the same weight values independently, each BSN will choose the same sensor classifier. However, if there are multiple sensor classifiers with the same weight, the BSN with the lowest BSN ID value chooses a sensor and broadcasts its choice to neighboring BSNs (lines [14][15][16][17]. If a private sensor (sensor a user does not share with neighbors) classifier has the highest weight, it is chosen along with one other public sensor classifier to ensure all BSNs choose the same classifier (lines 6-11).…”

Section: Collaborative Sensor Selectionmentioning

confidence: 99%

Remora: Sensing resource sharing among smartphone-based body sensor networks

Keally

Zhou

Xing

et al. 2013

2013 IEEE/ACM 21st International Symposium on Quality of Service (IWQoS)

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In many body sensor network (BSN) applications, such as activity recognition for assisted living residents or physical fitness assessment of a sports team, users spend a significant amount of time with one another while performing many of the same activities. We exploit this physical proximity with Remora, a smartphone-based Body Sensor Network activity recognition system which shares sensing resources among neighboring BSNs. Compared to individual BSNs, Remora resource sharing provides increased accuracy and significant energy savings. To increase classification accuracy, Remora BSNs share sensors by overhearing neighbors' sensor data transmissions. When sharing, fewer on-body sensors are needed to achieve high accuracy, resulting in energy savings by turning off unneeded sensors. To save phone energy, neighboring BSNs share classifiers: only one classifier is active at a time classifying activities for all neighbors. Remora addresses three major challenges of sharing with physical neighbors: 1) Sharing only when the energy benefit outweighs the cost, 2) Finding and utilizing the shared sensors and classifiers which produce the best combination of accuracy improvement and energy savings, and 3) Providing a lightweight and collaborative classification approach, without the use of a backend server, which adapts to the dynamics of available neighbors. In a two week evaluation with 6 subjects, we show that sharing provides up to a 30% accuracy increase while extending phone battery lifetime by over 65%.

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Power Law and Exponential Decay of Intercontact Times between Mobile Devices

Cited by 299 publications

References 12 publications

Scalable, adaptive and survivable trust management for community of interest based Internet of Things systems

Scalable, adaptive and survivable trust management for community of interest based Internet of Things systems

A novel approach of adaptive socially aware routing algorithm in delay tolerant networks

Remora: Sensing resource sharing among smartphone-based body sensor networks

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