Uplift: A Tangible and Immersive Tabletop System for Casual Collaborative Visual Analytics

“…For example, ImAxes [27] uses embodied interaction to assemble visualisations from the direct manipulation of 3D axes of data dimensions in 3D space. UpLift [46] uses tangibles on a touch table and the HoloLens to visualise and understand building energy on campuses. Wagner Filhio et al [48] also built an embodied 3D visualisation of a space-time cube which uses embodied interaction to rotate, scale and query the visualisation.…”

“…Wagner Filhio et al [48] also built an embodied 3D visualisation of a space-time cube which uses embodied interaction to rotate, scale and query the visualisation. Controller-less techniques are also currently being investigated, 2) the Embodied Axes [24] controller for precise interaction with 3D visualisations in AR, (3) AR personal navigation of networks on wall-size displays [72], (4) the UpLift system [46] mixes AR, a touch table and tracked tangibles for building energy analytics (image ©IEEE), (5) the FIESTA system for collaborative immersive analytics in VR [79], (6) a study of small-multiples in VR [86], (7) the Tilt Map [143] system for 3D Choropleth maps visualisation (image ©IEEE), (8) a multi-scale navigation system for map navigation in AR [114], (9) bare hand interactions [115] to navigate AR maps, and (10) immersive unit visualisation [71].…”

Grand Challenges in Immersive Analytics

“…For example, ImAxes [27] uses embodied interaction to assemble visualisations from the direct manipulation of 3D axes of data dimensions in 3D space. UpLift [46] uses tangibles on a touch table and the HoloLens to visualise and understand building energy on campuses. Wagner Filhio et al [48] also built an embodied 3D visualisation of a space-time cube which uses embodied interaction to rotate, scale and query the visualisation.…”

“…Wagner Filhio et al [48] also built an embodied 3D visualisation of a space-time cube which uses embodied interaction to rotate, scale and query the visualisation. Controller-less techniques are also currently being investigated, 2) the Embodied Axes [24] controller for precise interaction with 3D visualisations in AR, (3) AR personal navigation of networks on wall-size displays [72], (4) the UpLift system [46] mixes AR, a touch table and tracked tangibles for building energy analytics (image ©IEEE), (5) the FIESTA system for collaborative immersive analytics in VR [79], (6) a study of small-multiples in VR [86], (7) the Tilt Map [143] system for 3D Choropleth maps visualisation (image ©IEEE), (8) a multi-scale navigation system for map navigation in AR [114], (9) bare hand interactions [115] to navigate AR maps, and (10) immersive unit visualisation [71].…”

Grand Challenges in Immersive Analytics

“…For example, users may prioritize seeing their partner's hand gestures over hearing their voice, in poor network conditions. Recent studies have also looked at hybrid systems that combine tabletop interaction techniques familiar to users, with complex 3D visualizations that can be viewed above the tabletop using AR headsets [15,24]. While these systems are for co-located users, it would be interesting to see how many of our insights (related to remote AR interaction through virtual objects) apply to future work that explores these hybrid systems in a remote setting.…”

The Effects of Network Outages on User Experience in Augmented Reality Based Remote Collaboration - An Empirical Study

“…Ens et al [5] have shown the potential for immersive analytics to support energy analysis at a campus scale. The ImAxes tool has been examined to understand the benefits of immersive visualisation, and embodied interaction in particular, to support analytics in The three types of geospatial data visualisation supported in our system.…”

Towards Embodied Interaction for Geospatial Energy Sector Analytics in Immersive Environments