On the effect of human mobility to the design of metropolitan mobile opportunistic networks of sensors

Tomasini, Marcello; Mahmood, Basim; Zambonelli, Franco; Brayner, Ângelo; Menezes, Ronaldo

doi:10.1016/j.pmcj.2016.12.007

Cited by 21 publications

(11 citation statements)

References 67 publications

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“…Realistic generative algorithms for human mobility are fundamental for testing the efficiency of OppNets protocol, as real data about the functioning of the network is obviously not available during the protocol design (Tomasini et al. 2017). Ditras can be used to instantiate many generative algorithms and then generate realistic mobility routines to test the efficiency of a given network protocol for OppNets.…”

Section: Discussionmentioning

confidence: 99%

Data-driven generation of spatio-temporal routines in human mobility

Pappalardo

Simini

2017

Data Min Knowl Disc

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The generation of realistic spatio-temporal trajectories of human mobility is of fundamental importance in a wide range of applications, such as the developing of protocols for mobile ad-hoc networks or what-if analysis in urban ecosystems. Current generative algorithms fail in accurately reproducing the individuals' recurrent schedules and at the same time in accounting for the possibility that individuals may break the routine during periods of variable duration. In this article we present Ditras (DIary-based TRAjectory Simulator), a framework to simulate the spatio-temporal patterns of human mobility. Ditras operates in two steps: the generation of a mobility diary and the translation of the mobility diary into a mobility trajectory. We propose a data-driven algorithm which constructs a diary generator from real data, capturing the tendency of individuals to follow or break their routine. We also propose a trajectory generator based on the concept of preferential exploration and preferential return. We instantiate Ditras with the proposed diary and trajectory generators and compare the resulting algorithm with real data and synthetic data produced by other generative algorithms, built by instantiating Ditras with several combinations of diary and trajectory generators. We show that the proposed algorithm reproduces the statistical properties of real trajectories in the most accurate way, making a step forward the understanding of the origin of the spatio-temporal patterns of human mobility.

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Section: Discussionmentioning

confidence: 99%

Data-driven generation of spatio-temporal routines in human mobility

Pappalardo

Simini

2017

Data Min Knowl Disc

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“…The bottom tier comprises IoT sensors, namely, wireless embedded devices with limited battery, computing, and storage resources. Sensors are static, periodically collecting data from the environment through short-or medium-range communication technologies (such as Bluetooth Low Energy [16,17]) and storing it in a local buffer. They forward the data to other sensors or to the intermediate tier based on their buffer occupancy and communication opportunities.…”

Section: A Reference Architecturementioning

confidence: 99%

“…In contrast, helper sensors encounter mobile gateways more frequently and can temporarily store the data collected The mobility of the gateways is exogenous to the system [12]. Sensors may not all have physical neighbors, however, each group of connected sensors is visited at least once by a mobile gateway during the lifetime of the network [18], which is realistic for densely populated urban scenarios [17].…”

Section: A Reference Architecturementioning

confidence: 99%

Fog-based Data Offloading in Urban IoT Scenarios

Kortoçi

Zheng

Joe‐Wong

et al. 2019

IEEE INFOCOM 2019 - IEEE Conference on Computer Communications

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Urban environments are a particularly important application scenario for the Internet of Things (IoT). These environments are usually dense and dynamic; in contrast, IoT devices are resource-constrained, thus making reliable data collection and scalable coordination a challenge. This work leverages the fog networking paradigm to devise a multi-tier data offloading protocol suitable for diverse data-centric applications in urban IoT scenarios. Specifically, it takes advantage of heterogeneity in the network so that sensors can collaboratively offload data to each other or to mobile gateways. Second, it evaluates the performance of this offloading process through the amount of data successfully reported to the cloud. In detail, it provides an analytical characterization of data drop-off rates as a random process and derives a lightweight yet efficient method for collaborative data offloading. Finally, it shows that the proposed fog-based solution significantly decreases the data drop-off rate through both analysis and extensive trace-driven simulations based on human mobility data from real urban settings.

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“…Since IoT is expected to have a massive impact on society and wider cultural milieu, its ultimate status should accordingly be a human-centred STS although how the IoT landscape will look like in the future is yet uncertain [1,20,37,50,55].…”

Section: Internet-of-things and Smart Grids As Socio-technical Systemsmentioning

confidence: 99%

Embedding Internet-of-Things in Large-Scale Socio-technical Systems: A Community-Oriented Design in Future Smart Grids

et al. 2018

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In traditional engineering, technologies are viewed as the core of the engineering design, in a physical world with a large number of diverse technological artefacts. The real world, however, also includes a huge number of social components -people, communities, institutions, regulations and everything that exists in the human mind -that have shaped and been shaped by the technological components. Smart urban ecosystems are examples of large-scale Socio-Technical Systems (STS) that rely on technologies, in particular on the Internet-of-Things (IoT), within a complex social context where the technologies are embedded. Designing applications that embed both social complexity and IoT in large-scale STS requires a Socio-Technical (ST) approach, which has not yet entered the mainstream of design practice. This chapter reviews the literature and presents our experience of adopting an ST approach to the design of a community-oriented smart grid application. It discusses the challenges, process and outcomes of this apporach, and provides a set of lessons learned derived from this experience that are also deemed relevant to the design of other smart urban ecosystems.

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On the effect of human mobility to the design of metropolitan mobile opportunistic networks of sensors

Cited by 21 publications

References 67 publications

Data-driven generation of spatio-temporal routines in human mobility

Data-driven generation of spatio-temporal routines in human mobility

Fog-based Data Offloading in Urban IoT Scenarios

Embedding Internet-of-Things in Large-Scale Socio-technical Systems: A Community-Oriented Design in Future Smart Grids

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