Add to ORKGInternational audienceWe present a pressure-augmented tactile interaction technique to improve 3D object/view manipulation tasks on mobile devices. Existing tactile techniques for mobile data exploration either make use of up to four fingers to control all the needed degrees of freedom (DOF) for 3D manipulation or simultaneously adjust multiple DOF together to reduce the number of fingers needed for interaction. Yet the small display size of mobile devices limits the number of fingers that should simultaneously be used. Controlling each DOF for 3D data exploration separately, however, gives users more control. We address this contradiction by combining tactile and pressure input. We thus use pressure to intuitively switch between different ...
In this paper we examine two methods for using relative contact size as an interaction technique for...
We present a set of interaction techniques that make novel use of a small pressure-sensitive pad to ...
We examine the use of a mobile device to provide multifunctional input and output for a stereoscopic...
International audienceWe present a pressure-augmented tactile interaction technique to improve 3D ob...
International audienceWe present a pressure-augmented tactile 3D data navigation technique, specific...
National audienceWe present a pressure-augmented tactile 3D data exploration technique specifically ...
National audienceWe present a pressure-augmented tactile 3D data exploration technique specifically ...
The previous three degrees of freedom (DOF) 3D touch translations require more than one finger (usua...
International audienceWe present the design and evaluation of pressure-based interactive control of ...
Most of the previous 3 DOF (Degree Of Freedom) 3D touch positioning techniques require more than one...
The application of pressure (or force) through the fingers is an inherent part of investigative and ...
This paper explores the potential uses of pressure input from multiple digits (i.e., all 4 fingers a...
Recent advances in multi-touch technology have enabled pressure sensing of each touch point on a mul...
This paper presents a review of tactile technologies for human–computer interactivity via touch inte...
In this paper we examine two methods for using relative contact size as an interaction technique for...
We present a set of interaction techniques that make novel use of a small pressure-sensitive pad to ...
We examine the use of a mobile device to provide multifunctional input and output for a stereoscopic...
International audienceWe present a pressure-augmented tactile interaction technique to improve 3D ob...
International audienceWe present a pressure-augmented tactile 3D data navigation technique, specific...
National audienceWe present a pressure-augmented tactile 3D data exploration technique specifically ...
National audienceWe present a pressure-augmented tactile 3D data exploration technique specifically ...
The previous three degrees of freedom (DOF) 3D touch translations require more than one finger (usua...
International audienceWe present the design and evaluation of pressure-based interactive control of ...
Most of the previous 3 DOF (Degree Of Freedom) 3D touch positioning techniques require more than one...
The application of pressure (or force) through the fingers is an inherent part of investigative and ...
This paper explores the potential uses of pressure input from multiple digits (i.e., all 4 fingers a...
Recent advances in multi-touch technology have enabled pressure sensing of each touch point on a mul...
This paper presents a review of tactile technologies for human–computer interactivity via touch inte...
In this paper we examine two methods for using relative contact size as an interaction technique for...
We present a set of interaction techniques that make novel use of a small pressure-sensitive pad to ...
We examine the use of a mobile device to provide multifunctional input and output for a stereoscopic...