Visualizing Computer-Based Activity on Ambient Displays to Reduce Sedentary Behavior at Work

Brombacher, Hans; Ren, Xipei; Vos, Steven; Lallemand, Carine

doi:10.1145/3441000.3441022

Cited by 10 publications

(4 citation statements)

References 33 publications

(46 reference statements)

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“…It uses a TEMP6000 1 (3) to measure the luminous intensity, a DHT22 1 (2) measures the humidity and temperature, a MAX4466 1 (4) board to measure sound, and an MPU6050 accelerometer 1 (6) to measure movement/steps. The sensors are controlled by a Particle Photon 2 (8). All electronics are soldered on a custom-made PCB (7) to minimize the overall size of the electronics.…”

Section: Technicalmentioning

confidence: 99%

“…physical activity, sedentary behavior [7,38,40] and work level (e.g. productivity [8,56]), which infuences the work performance, well-being and overall ofce vitality of ofce workers. Studies that combine these data sources have indicated associations between ofce temperature and physical activity [64], mental health and environmental factors (noise, light and temperature) [47] or computer interaction, heart-, sleep-, and physical activity-related data [75].…”

Section: Introductionmentioning

confidence: 99%

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SensorBadge: An Exploratory Study of an Ego-centric Wearable Sensor System for Healthy Office Environments

Brombacher

Houben

Vos

2022

Designing Interactive Systems Conference

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Sensing technology is increasingly used to collect data about the workplace to provide insights into building performance and work activities. While such systems provide meaningful insights, they are a 'black box' in nature considering people as passive data subjects with no input into the sensing and data collection process. We propose a human-data interaction approach where human workers can opt-in using an ego-centric sensor platform -SensorBadge -that provides tools to collect and inspect personal ofce data. We describe a feld exploration of Sensorbadge to understand the wearability, usability, and usefulness of ego-centric data collection. Our results show that ofce sensing systems should ft seamlessly in the ofce routine of individuals, without asking for extra efort or creating conficts with work patterns. Data should be classifed and presented against a frame of reference for comparison and visualized to create understandable and actionable representations with personal control of their ofce environment. CCS CONCEPTS• Human-centered computing → Mobile devices; Empirical studies in ubiquitous and mobile computing.

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Section: Technicalmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

SensorBadge: An Exploratory Study of an Ego-centric Wearable Sensor System for Healthy Office Environments

Brombacher

Houben

Vos

2022

Designing Interactive Systems Conference

Self Cite

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“…Digital transformations have contributed to eliminating physical movement in the workplace (Choi et al, 2016;Cambo et al, 2017;Brombacher et al, 2020;Damen et al, 2020) through enhancing connectivity between remote workers (Haliburton and Schmidt, 2020), and intensifying technologymediated collaboration (Deloitte LLP, 2018;Haliburton and Schmidt, 2020). The use of such collaborating technologies does not mediate the benefits of informal, face-to-face interaction, as well as physical activity for the wellbeing of the remote workers (Haliburton and Schmidt, 2020).…”

Section: The Remote Worker and Wellbeing Challengesmentioning

confidence: 99%

Understanding the Experiences of Remote Workers: Opportunities for Ambient Workspaces at Home

Margariti

Ali

Grave

et al. 2021

Front. Comput. Sci.

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As the COVID-19 pandemic has forced many to work remotely from home, collaborating solely through digital technologies, a growing population of remote home workers are faced with profound wellbeing challenges. Passive sensing devices and ambient feedback have great potential to support the wellbeing of the remote workers, but there is a lack of background and understanding of the domestic workplace in terms of physical and affective dimensions and challenges to wellbeing. There are profound research gaps on wellbeing in the domestic workplace, with the current push for remote home and hybrid working making this topic timely. To address these gaps and shape a starting point for an “ambient workspaces” agenda, we conducted an exploratory study to map physical and affective aspects of working from home. The study involved both qualitative and quantitative measures of occupant experience, including sensor wristbands, and a custom web application for self-reporting mood and aspects of the environment. It included 13 participants for a period of 4 weeks, during a period of exclusive home working. Based on quantitative and qualitative analysis, our study addresses wellbeing challenges of the domestic workplace, establishes correlations between mood and physical aspects, and discusses the impact of feedback mechanisms in the domestic workplace on the behavior of remote workers. Insights from these observations are then used to inform a future design agenda for ambient technologies that supports the wellbeing of remote workers; addressing the design opportunities for ambient interventions in domestic workspaces. This work offers three contributions: 1) qualitatively and quantitatively informed understandings of the experiences of home-workers; 2) a future design agenda for “ambient home workspaces”; and 3) we propose three design concepts for ambient feedback and human–AI interactions in the built environment, to illustrate the utility of the design agenda.

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“…[74] is a flexible work-break timer that alerts users to stand up and take a break periodically. Within academia, researchers have also designed tangible systems [7,25,26,60,71] to encourage physical fitness activities during microbreaks in an office setting. Some works have also looked into physiological sensors to monitor individuals' cognitive load and to prompt breaks when necessary [4,29,30].…”

Section: Introductionmentioning

confidence: 99%

Designing for Microbreaks: Unpacking the Design Journey of Zenscape

Khot

Aggarwal

2022

Sixteenth International Conference on Tangible, Embedded, and Embodied Interaction

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This research aims to support positive wellbeing by encouraging people to take regular microbreaks from continuous on-screen work. We present Zenscape, an innovative tangible system that offers subtle reminders to engage in non-work related creative micro activities, through the stirring water action and sound. Zenscape integrates the ideologies of the Zen garden philosophy in its design and features a mini Zen garden consisting of sand and stones, and a water cup with a stirrer, all offering multiple micro activities for the user to get an escape from their work. Unlike time management apps, we do not target productivity, but rather focus on making the most of the microbreaks. We present a descriptive account of how we brought Zenscape into being through a conceptual framing of Diversion, Destination, Play and Return. We hope that our design reflections will inspire future systems on microbreaks beyond reminder and notification systems.

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Visualizing Computer-Based Activity on Ambient Displays to Reduce Sedentary Behavior at Work

Cited by 10 publications

References 33 publications

SensorBadge: An Exploratory Study of an Ego-centric Wearable Sensor System for Healthy Office Environments

SensorBadge: An Exploratory Study of an Ego-centric Wearable Sensor System for Healthy Office Environments

Understanding the Experiences of Remote Workers: Opportunities for Ambient Workspaces at Home

Designing for Microbreaks: Unpacking the Design Journey of Zenscape

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