CrowdEstimator

Wu, Fang–Jing; Solmaz, Gürkan

doi:10.1145/3210240.3210320

Cited by 23 publications

(4 citation statements)

References 21 publications

(24 reference statements)

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“…The Wi-Fi sensor (constituted of a Wi-Fi module configured in monitor mode, sniffing Wi-Fi probe requests) collects raw data from smartphones of students at the campus (such as MAC address of the requester, relative received signal strength-RSSI, and timestamp) and the device at the vehicle anonymizes the data using hashing and salting mechanisms and pushes to the cloud side where “Central IoT” resides. Crowd estimation service (CEMA) [28] creates the analytics results and makes them available through a lightweight broker for the campus. Several pilot sites can be connected through the Federated IoT Platform.…”

Section: Realization Of Hyper-connected Iot Realmmentioning

confidence: 99%

“…Memos et al [59] integrates a Wireless Sensors Network (WSN) for surveillance application into a smart city framework taking into consideration security and privacy concerns. Finally, our previous work [28,60] and the work from Chilipirea et al [61] treat the topic of crowd analytics using the Wi-Fi signals (see Section 4.2). In the study of Andión et al [62], a wide review of human activity detection based on Wi-Fi signals is also included.…”

Section: Related Workmentioning

confidence: 99%

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Embracing the Future Internet of Things

Cirillo

Solmaz³

et al. 2019

Sensors

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All of the objects in the real world are envisioned to be connected and/or represented, through an infrastructure layer, in the virtual world of the Internet, becoming Things with status information. Services are then using the available data from this Internet-of-Things (IoT) for various social and economical benefits which explain its extreme broad usage in very heterogeneous fields. Domain administrations of diverse areas of application developed and deployed their own IoT systems and services following disparate standards and architecture approaches that created a fragmentation of things, infrastructures and services in vertical IoT silos. Coordination and cooperation among IoT systems are the keys to build “smarter” IoT services boosting the benefits magnitude. This article analyses the technical trends of the future IoT world based on the current limitations of the IoT systems and the capability requirements. We propose a hyper-connected IoT framework in which “things” are connected to multiple interdependent services and describe how this framework enables the development of future applications. Moreover, we discuss the major limitations in today’s IoT and highlight the required capabilities in the future. We illustrate this global vision with the help of two concrete instances of the hyper-connected IoT in smart cities and autonomous driving scenarios. Finally, we analyse the trends in the number of connected “things” and point out open issues and future challenges. The proposed hyper-connected IoT framework is meant to scale the benefits of IoT from local to global.

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Section: Realization Of Hyper-connected Iot Realmmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Embracing the Future Internet of Things

Cirillo

Solmaz³

et al. 2019

Sensors

Self Cite

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“…However, using Wi-Fi data only to monitor and forecast the crowd size and dynamics may yield inaccurate results. For this reason, some works in the literature propose to integrate Wi-Fi data with other data sources, such as data coming from stereoscopic cameras [48] in order to estimate the crowd size, or from an automated people counting system [49] in order to better approximate crowd sizes.…”

Section: Wi-fi Datamentioning

confidence: 99%

“…Safety issues for crowd management can be found respectively in [85,86]. A more recent work combines Wi-Fi data captured from mobile devices and stereoscopic cameras to build a model for people counting [48].…”

Section: Approaches Based On Computer Visionmentioning

confidence: 99%

Sensing and Forecasting Crowd Distribution in Smart Cities: Potentials and Approaches

Cecaj

Lippi

Mamei

et al. 2021

IoT

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The possibility of sensing and predicting the movements of crowds in modern cities is of fundamental importance for improving urban planning, urban mobility, urban safety, and tourism activities. However, it also introduces several challenges at the level of sensing technologies and data analysis. The objective of this survey is to overview: (i) the many potential application areas of crowd sensing and prediction; (ii) the technologies that can be exploited to sense crowd along with their potentials and limitations; (iii) the data analysis techniques that can be effectively used to forecast crowd distribution. Finally, the article tries to identify open and promising research challenges.

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A Survey of Human Mobility Models

Solmaz¹,

Turgut

2019

IEEE Access

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Human mobility models are key components of various research fields including transportation, mobile networks, disaster management, urban planning, and epidemic modeling. Understanding human mobility has a major role in the realistic evaluation of new approaches to challenges in these fields. For the perspective of networked systems, simulations of the networks with human participants such as opportunistic social networks are highly dependent on human mobility. In this article, we summarize the state of the art for scientific research on human mobility and survey the currently used human mobility models. We discuss the commonly used metrics and data collection techniques. Furthermore, we include a taxonomy of the mobility models according to their main characteristics and classify them. We lastly discuss the general trends, applicability, further research directions and open problems of human mobility modeling. INDEX TERMS Human mobility, mobility models, Internet of Things, smart cities.

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CrowdEstimator

Cited by 23 publications

References 21 publications

Embracing the Future Internet of Things

Embracing the Future Internet of Things

Sensing and Forecasting Crowd Distribution in Smart Cities: Potentials and Approaches

A Survey of Human Mobility Models

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