There is provided an information processing device including a passive ultrasonic sensor, a notification section that notifies a user, and a control section that, when detecting a feature indicating approach of an object learned in advance from sensor data detected by the ultrasonic sensor, controls the notification section to notify the user.

A non-intrusive automated test bench intended to perform mechanical and/or software and/or audio tests on one or more human-machine interfaces of an apparatus/device. Such a test bench makes it possible, in replacing an operator, to carry out mechanical and/or software and/or audio test sequences on one or more HMI of any apparatus/device, in its operational version, i.e., without needing to implement intrusive software and/or modifications and mechanical arrangements specifically dedicated to an apparatus/device, etc.

Ultrasonic ranging systems and methods that emit coded bursts and correlate transduced acoustical echoes of the bursts with a receive template characterizing a burst code to determine time-of-flight information use receive templates of time-variable length to improve short-range object detection. The template length is based on a time index measured from the start of the burst emission. The detection can account for a dead zone of transducer ringing following a burst. A time-variable gain that is also based on the time index can be applied to the correlated signal. The length and gain can be adjusted with reduced temporal frequency to reduce computation cost.

A handling device is provided for opening a flap portion of a component part to be coated, in particular for opening a door or hood of a motor-vehicle body component part in a painting installation. The handling device includes a handling robot with a robot arm and a gripper mounted on the robot arm. The gripper is configured for engaging an engagement region or grip region on the flap to be opened, to enable the handling robot to open the flap with the gripper. The handling device further includes a sensor for non-contact sensing of the position of the gripper relative to the flap, to enable the gripper to be positioned relative to the engagement region on the flap. The sensor measures the distance from the handling device to the outside of the flap to be opened.

A multi-axis robot includes robot drives, a tool head, a drag chain for guiding flexible lines along at least a part of the robot up to the tool head, and an auxiliary system for moving a tool head-side end of the drag chain. The auxiliary system includes at least one auxiliary system drive for moving the tool head-side end. The auxiliary system drive is different than the robot drives. The multi-axis robot advantageously allows collisions between the tool-side end of the drag chain and the object to be treated or other objects in the vicinity of the robot to be avoided, ensuring that the surface of the object may be treated, in particular printed on by an inkjet print head, without disruption.

A robot comprises a first part and a second part moveable relative to the first part. The robot operates in an audio output mode in which the first and second parts are in a first configuration relative to each other and in which the robot outputs audio from an array of speakers using an audio output technique. The robot operates in a user interaction mode in which the first and second parts are in a second, different configuration relative to each other and in which the robot interacts with a user. The robot is configured to change from the audio output mode to the user interaction mode in response to the robot detecting a trigger event. Changing from the audio output mode to the user interaction mode comprises causing the first part to lift up relative to the second part.

A rail-mounted intelligent inspection robot includes a robot body and a guide rail, the robot body being hung on the guide rail and moving along the guide rail. One side of the guide rail facing the robot body is affixed with a plurality of barcodes, and the translation mechanism is provided with a barcode reader. A control module and a translation motor are disposed within the control platform. The lifting mechanism is connected to the control platform and the detection platform, and an intelligent holder is disposed below the detection platform. The rail-mounted inspection robot of the present invention may perform continuous inspection operations, and may meet the 7*24 hours of uninterrupted work through the power supply of the sliding contact wire. The recognized dial data is more accurate, and the read information may be transmitted to the background and processed in time.

An ultrasonic manipulator for processing three-dimensional composite preforms is provided, including at least one end effector, the end effector having an ultrasonic cutting device, an ultrasonic machining device, an ultrasonic inspecting device, and an ultrasonic bonding device. A method for creating three-dimensional preforms for use in molding composite parts is also provided, and includes the steps of grasping a preform/towpreg, inspecting the composite object using ultrasound, cutting a preform from the composite object using ultrasound, and at least some of the steps of shaping the preform using ultrasound, machining the preform using ultrasound, assembling a plurality of preforms, bonding the assembled preforms together to create a preform charge, and placing the preform charge in an injection mold.

A method for detecting a ground attribute of a legged robot includes obtaining a collision audio of a foot of the legged robot with a ground; and detecting a workable level attribute of the ground in a working environment of the legged robot according to the collision audio. The sound of the collision between the foot of the robot and the ground is collected, and the workable level attribute of the ground in the working environment of the legged robot is detected based on the sound, so that the operable level attribute can be effectively used to control the legs of the legged robot. On the one hand, the motion noise of the legged robot can be reduced, and on the other hand, the power consumption of the legged robot can be reduced, thereby increasing its range of motion.

An automatic ultrasonic imaging inspection method and system based on a six-axis manipulator. The method includes: controlling, by a motion control card, a six-axis manipulator to perform scanning and an external axis motor to move; when scanning, feeding back, by a probe, an echo signal; when the probe moves to another scanning line, sending, by a controller, a displacement information of the probe along a stepping direction to an ultrasonic imaging device; when the external axis motor works, feeding back, by an encoder, a displacement information of the probe along a scanning direction to the ultrasonic imaging device; allowing the external axis motor to work when the probe moves along a scanning line; and generating, by the ultrasonic imaging device, a two-dimensional scanning image according to the echo signal, and the displacement information of the probe along the stepping direction and the scanning direction.