13,207 research outputs found
Measuring attendance: issues and implications for estimating the impact of free-to-view sports events
A feature of many non-elite sports events, especially those conducted in public places is that they are free-to-view. The article focuses on the methodological issue of estimating spectator attendance at free-to-view events and the consequences of this for impact evaluation. Using empirical data from three case studies, the article outlines various approaches to measuring attendance and discusses the key issues and implications for evaluating free-to-view sports events in the future
Do we really need to catch them all? A new User-guided Social Media Crawling method
With the growing use of popular social media services like Facebook and
Twitter it is challenging to collect all content from the networks without
access to the core infrastructure or paying for it. Thus, if all content cannot
be collected one must consider which data are of most importance. In this work
we present a novel User-guided Social Media Crawling method (USMC) that is able
to collect data from social media, utilizing the wisdom of the crowd to decide
the order in which user generated content should be collected to cover as many
user interactions as possible. USMC is validated by crawling 160 public
Facebook pages, containing content from 368 million users including 1.3 billion
interactions, and it is compared with two other crawling methods. The results
show that it is possible to cover approximately 75% of the interactions on a
Facebook page by sampling just 20% of its posts, and at the same time reduce
the crawling time by 53%. In addition, the social network constructed from the
20% sample contains more than 75% of the users and edges compared to the social
network created from all posts, and it has similar degree distribution
Group-In: Group Inference from Wireless Traces of Mobile Devices
This paper proposes Group-In, a wireless scanning system to detect static or
mobile people groups in indoor or outdoor environments. Group-In collects only
wireless traces from the Bluetooth-enabled mobile devices for group inference.
The key problem addressed in this work is to detect not only static groups but
also moving groups with a multi-phased approach based only noisy wireless
Received Signal Strength Indicator (RSSIs) observed by multiple wireless
scanners without localization support. We propose new centralized and
decentralized schemes to process the sparse and noisy wireless data, and
leverage graph-based clustering techniques for group detection from short-term
and long-term aspects. Group-In provides two outcomes: 1) group detection in
short time intervals such as two minutes and 2) long-term linkages such as a
month. To verify the performance, we conduct two experimental studies. One
consists of 27 controlled scenarios in the lab environments. The other is a
real-world scenario where we place Bluetooth scanners in an office environment,
and employees carry beacons for more than one month. Both the controlled and
real-world experiments result in high accuracy group detection in short time
intervals and sampling liberties in terms of the Jaccard index and pairwise
similarity coefficient.Comment: This work has been funded by the EU Horizon 2020 Programme under
Grant Agreements No. 731993 AUTOPILOT and No.871249 LOCUS projects. The
content of this paper does not reflect the official opinion of the EU.
Responsibility for the information and views expressed therein lies entirely
with the authors. Proc. of ACM/IEEE IPSN'20, 202
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