Group affiliation detection using model divergence for wearable devices

Gordon, Dawud; Wirz, Martin; Roggen, Daniel; Tröster, Gerhard; Beigl, Michael

doi:10.1145/2634317.2634319

Cited by 23 publications

(12 citation statements)

References 19 publications

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“…However, sometimes it is not easy to differentiate whether two nearby people are involved in the same group activity. We will explore new sensing techniques to address this problem [8,49].…”

Section: Discussionmentioning

confidence: 99%

MobiGroup: Enabling Lifecycle Support to Social Activity Organization and Suggestion With Mobile Crowd Sensing

Guo

Chen

et al. 2016

IEEE Trans. Human-Mach. Syst.

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Abstract-This paper presents a group-aware mobile crowd sensing system called MobiGroup, which supports group activity organization in real world settings. Acknowledging the complexity and diversity of group activities, this paper introduces a formal concept model to characterize group activities and classifies them into four organizational stages. We then present an intelligent approach to support group activity preparation, including a heuristic rule-based mechanism for advertising public activity and a context-based method for private group formation. In addition, we leverage features extracted from both online and offline communities to recommend ongoing events to attendees with different needs. Compared to the baseline method, people preferred public activities suggested by our heuristic rule-based method. Using a dataset collected from 45 participants we found that the context-based approach for private group formation can attain a precision and recall of over 80%, and the usage of spatial-temporal contexts and group computing can have more than a 30% performance improvement over considering the interaction frequency between a user and related groups. A case study revealed that, by extracting the features such as dynamic intimacy and static intimacy, our cross-community approach for ongoing event recommendation can meet different user needs.

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Section: Discussionmentioning

confidence: 99%

MobiGroup: Enabling Lifecycle Support to Social Activity Organization and Suggestion With Mobile Crowd Sensing

Guo

Chen

et al. 2016

IEEE Trans. Human-Mach. Syst.

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“…In terms of comparing with the state of the art, it is difficult to provide a fair quantitative comparison (such as classification accuracy or algorithm performance) given that there is no widely accepted benchmark in the area of sensor-based group activity recognition. Most of the studies simulated their experiments and executed their proposed algorithms offline, e.g., [7,15,27,35], in which, challenges such as the inaccuracy caused by communication delay has been disregarded. Also, having domaindependent parameters can influence results, such as window size variations.…”

Section: Related Workmentioning

confidence: 99%

GARSAaaS: group activity recognition and situation analysis as a service

Abkenar

Loke

Zaslavsky

et al. 2019

J Internet Serv Appl

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Human activity recognition using embedded mobile and embedded sensors is becoming increasingly important. Scaling up from individuals to groups, that is, group activity recognition, has attracted significant attention recently. This paper proposes a model and specification language for group activities called GroupSense-L, and a novel architecture called GARSAaaS (GARSA-as-a-Service) to provide services for mobile Group Activity Recognition and Situation Analysis (or GARSA) applications. We implemented and evaluated GARSAaaS which is an extension of a framework called GroupSense (Abkenar et al., 2016 IEEE 30th International Conference on Advanced Information Networking and Applications (AINA), 2016) where sensor data, collected using smartphone sensors, smartwatch sensors and embedded sensors in things, are aggregated via a protocol for these different devices to share information, as required for GARSA. We illustrate our approach via a scenario for providing services for bush walking leaders and bush walkers in a bushwalking group activity. We demonstrate the feasibility of our model and expressiveness of our proposed model.

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“…To reduce cost (in particular in terms of energy consumption) of data collection and exchange to measure similarity between users, it is necessary to summarize the sensor data time series into aggregate sensor features. We choose to use probability distribution function (PDF) as the aggregate sensor feature [1]. The length of sensor data time series for summarization significantly impacts similarity measurement, so we need to determine the measurement time window for each sensing modality and deal with the different time window sizes when combining the measurements of multiple sensing modalities.…”

Section: Inconsistent Window Size Among Multiple Sensing Modalitiesmentioning

confidence: 99%

“…Lots of work have been done in group detection and activity recognition using mobile devices, but the problem at hand has not been fully addressed by existing work as detailed in Section 2. We have been inspired by the divergence-based affiliation detection (DBAD) approach [1] which provides a framework to identify group affiliation given a sensing 2 Mobile Information Systems modality to be used for an activity. Different from the group activity recognition problem which typically first recognizes each user's activity and then analyzes their cooperative or collaborative relationship in a group [2], the group affiliation detection problem is about how to identify which users have similar behavior instead of identifying their specific activities.…”

Section: Introductionmentioning

confidence: 99%

Identification of Partitions in a Homogeneous Activity Group Using Mobile Devices

Yu¹,

Zhao²,

Han

et al. 2016

Mobile Information Systems

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People in public areas often appear in groups. People with homogeneous coarse-grained activities may be further divided into subgroups depending on more fine-grained behavioral differences. Automatically identifying these subgroups can benefit a variety of applications for group members. In this work, we focus on identifying such subgroups in a homogeneous activity group (i.e., a group of people who perform the same coarse-grained activity at the same time). We present a generic framework using sensors built in commodity mobile devices. Specifically, we propose a two-stage process, sensing modality selection given a coarse-grained activity, followed by multimodal clustering to identify subgroups. We develop one early fusion and one late fusion multimodal clustering algorithm. We evaluate our approaches using multiple datasets; two of them are with the same activity while the other has a different activity. The evaluation results show that the proposed multimodal-based approaches outperform existing work that uses only one single sensing modality and they also work in scenarios when manually selecting one sensing modality fails.

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Group affiliation detection using model divergence for wearable devices

Cited by 23 publications

References 19 publications

MobiGroup: Enabling Lifecycle Support to Social Activity Organization and Suggestion With Mobile Crowd Sensing

MobiGroup: Enabling Lifecycle Support to Social Activity Organization and Suggestion With Mobile Crowd Sensing

GARSAaaS: group activity recognition and situation analysis as a service

Identification of Partitions in a Homogeneous Activity Group Using Mobile Devices

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