We present a novel optimization-based algorithm for the design and fabrication of customized, deformable input devices, capable of continuously sensing their deformation. We propose to embed piezoresistive sensing elements into flexible 3D printed objects. These sensing elements are then utilized to recover rich and natural user interactions at runtime. Designing such objects is a challenging and hard problem if attempted manually for all but the simplest geometries and deformations. Our method simultaneously optimizes the internal routing of the sensing elements and computes a mapping from low-level sensor readings to user-specified outputs in order to minimize reconstruction error. We demonstrate the power and flexibility of the approach ...
Capturing and modeling dynamic 3D shapes is a core problem in computer graphics and essential in man...
Soft robots have applications in safe human-robot interactions, manipulation of fragile objects, and...
Figure 1. Sensing structures, such as our bend structure, above, physically remap a continuous defor...
Task-specific tangible input devices, like video game controllers, improve user speed and accuracy i...
We show that the output of a 3D printed, flexible tactile sensor can be improved markedly using a di...
This paper presents FlexiBend, an easily installable shape-sensing strip that enables interactivity ...
A key challenge when designing deformable user interfaces is the integration of rigid electronic com...
Soft sensing technologies provide a novel alternative for state estimation in wearables and robotic ...
In this thesis several advances are made to the emerging field of 3D printed mechanical sensors. Tec...
The overarching goal of this thesis relies in the exploration of design criteria, such as optimal ma...
We propose a hardware and software pipeline to fabricate flexible wearable sensors and use them to c...
this paper we report on a custom program which enables the efficient simulation of such a sensor. It...
We present an approach to designing input devices that focuses on the structure of materials. We exp...
The research described in this thesis explores the field of 3D printing technologies in the fabricat...
This paper presents a fully printable sensorized bending actuator that can be calibrated to provide ...
Capturing and modeling dynamic 3D shapes is a core problem in computer graphics and essential in man...
Soft robots have applications in safe human-robot interactions, manipulation of fragile objects, and...
Figure 1. Sensing structures, such as our bend structure, above, physically remap a continuous defor...
Task-specific tangible input devices, like video game controllers, improve user speed and accuracy i...
We show that the output of a 3D printed, flexible tactile sensor can be improved markedly using a di...
This paper presents FlexiBend, an easily installable shape-sensing strip that enables interactivity ...
A key challenge when designing deformable user interfaces is the integration of rigid electronic com...
Soft sensing technologies provide a novel alternative for state estimation in wearables and robotic ...
In this thesis several advances are made to the emerging field of 3D printed mechanical sensors. Tec...
The overarching goal of this thesis relies in the exploration of design criteria, such as optimal ma...
We propose a hardware and software pipeline to fabricate flexible wearable sensors and use them to c...
this paper we report on a custom program which enables the efficient simulation of such a sensor. It...
We present an approach to designing input devices that focuses on the structure of materials. We exp...
The research described in this thesis explores the field of 3D printing technologies in the fabricat...
This paper presents a fully printable sensorized bending actuator that can be calibrated to provide ...
Capturing and modeling dynamic 3D shapes is a core problem in computer graphics and essential in man...
Soft robots have applications in safe human-robot interactions, manipulation of fragile objects, and...
Figure 1. Sensing structures, such as our bend structure, above, physically remap a continuous defor...