Abstract
Depth, proximity, and tactile sensors are often used in robotic object manipulation. The three types of sensors are combined to address each sensor limitation: Depth use is limited by blind spots and measurable range, proximity sensor is limited to millimetric distances, and the tactile sensor requires direct contact with the object. Here we present a novel sensor that can simultaneously measure millimetric distance and surface tilt, as well as contact force. We demonstrated the advantage of this novel sensor during a contact task. There, we implemented an admittance control and succeeded in achieving smooth transition from zero- to infinite-impedance contact condition and vice-versa. This novel sensor affords the realization of advanced interactions between robot and objects and contrary to previous approaches—limited by distance, blind spots, and impact force during initial contact—demonstrated good performance at all times with smooth and continuous measurements during contact.
Highlights
V ARIOUS types of sensors such as cameras, depth sensors, force sensors, and tactile sensors are used for object recognition and robotic object manipulation
Force and tactile sensors are widely used during object manipulation to enable safer physical interaction between the robot and the environment [6]–[13]
We present a novel sensor that can simultaneously measure distance, tilt, and contact force
Summary
V ARIOUS types of sensors such as cameras, depth sensors, force sensors, and tactile sensors are used for object recognition and robotic object manipulation. Force and tactile sensors are widely used during object manipulation to enable safer physical interaction between the robot and the environment [6]–[13]. Of notice, these sensors provide no information during noncontact phase. We introduce a novel sensor capable of simultaneously measuring distance, surface tilt, and contact force without being affected by the reflectivity of the object. NOZAKI AND KREBS: DEVELOPMENT OF AN OPTICAL SENSOR CAPABLE OF MEASURING DISTANCE, TILT, AND CONTACT FORCE. The results of the contact task using this sensor are described in Section V and Section VI concludes the article
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