The present invention is a peripheral information acquisition device including an imaging unit configured to perform imaging in a front side direction or a rear side direction of a vehicle and a stay configured to support the imaging unit on the vehicle, wherein the stay is formed so that the imaging unit is allowed to protrude outward from a side surface of the vehicle in a width direction of the vehicle, and wherein, in a structure including the imaging unit and the stay, an outermost part of the structure in the width direction of the vehicle is disposed more inward in the width direction of the vehicle than an outermost part of the vehicle in the width direction.

A frame for a display device extends in a main plane. The frame includes a plurality of segments coupled to one another, including at least a first segment having at least one injection orifice allowing the injection of an optical adhesive. The plurality of segments defines an opening therebetween delimited by a plurality of inner edges facing each segment, including at least a first inner edge of the first segment. The first segment includes an injection channel having a first end and a second end. The first end is fluidly connected to the injection orifice, and the second end forms the first inner edge of the first segment.

A method for processing an electrical signal for an acoustic emission system. The method carried out by the system includes the following steps: a) transmitting a calibration signal to the electroacoustic transducer; b) emitting a sound based on the calibration signal, by the electroacoustic transducer; c) measuring the voltage across the terminals of the load; d) calculating the variation in impedances of the electroacoustic transducer as a function of the variation in frequencies of the calibration signal; e) determining the resonant frequency of the electroacoustic transducer from the variation in calculated impedances; f) selecting a set of acoustic filters in the database based on the determined resonant frequency; and g) applying the set of acoustic filters to the electrical signal in order to process the electrical signal coming from the input.

Power machines and loaders having doors with an integrated display that allows the display of information, such as gauges, user inputs, mapped obstacles, boundaries, etc., that allows the operator of the machine to see the displayed information closer to the line of sight with the work area. The display can show augmented reality information about a worksite.

An illuminated speaker panel assembly with an integrated audio seal is described. In one embodiment, an illuminated speaker panel assembly for a vehicle includes a speaker configured to mount to a door body of a vehicle and a base panel component configured to attach to the door body over the speaker. The base panel component includes a speaker frame aligned with an outer periphery of the speaker. The speaker frame includes an outer sealing wall, an inner retention wall, and a channel disposed between the outer sealing wall and the inner retention wall. A lighting member is disposed within the channel of the speaker frame such that the lighting member is configured to extend substantially along the outer periphery of the speaker.

A speaker system includes a first panel, a second panel, a third panel, a speaker unit, and a sound absorber. The first panel is an outer panel constituting a part of a vehicle door of a vehicle having a compartment. The second panel constitutes a part of the vehicle door and is situated closer to the compartment than the first panel and has an opening. The third panel constitutes a part of the vehicle door and resides between the first panel and the second panel. The speaker unit overlaps the opening in a plan view when viewed from the compartment along a central axis of the speaker unit and outputs sound toward the compartment. The sound absorber is arranged at a location corresponding to an anti-node of particle velocity in a standing wave generated in a space defined between the speaker unit and the first panel.

This voice processing device is provided with: an utterer's position detection unit which specifies, as position microphones of an utterer, microphones that receive a voice signal of WuW on the basis of the characteristics of each voice signal for a prescribed time, when the WuW voice is detected, the voice signal being held in a voice signal buffer unit; and a CTC unit (one example of a voice processing unit) which outputs a voice uttered by the utterer and suppress a voice uttered by an occupant, who is not the utterer, by using the voice signal for the prescribed time, which is held in the voice signal buffer unit, and information relating to the utterer's position microphones.

A vibration output apparatus (1) includes a vibration transmission member (20), an acoustic vibration output unit (10), and a cushion (30). The vibration transmission member (20) is formed by integrating a body plate (21) and a support portion (22). The support portion (22) is in contact with a vibration plate (100) and supports the body plate (21). The body plate (21) has an opposite surface (21a) opposite to a vibration surface (100u) of the vibration plate (100) and forms an opposite space (S1) between the vibration surface (100u) and the opposite surface (21a). The acoustic vibration output unit (10) is disposed on a rear surface (21b) of the opposite surface (21a) of the body plate (21) and is configured to output an acoustic vibration. The support portion (22, 23) is not in contact with the cushion (30).

The Ergonomic Access Personal Bullet-Proof Shield Stowage Device comprises a nearly transparent articulable plurality of tension positioned suspended support arms having auto body window sill securing clips, and shield position retention securing clips seated between and connectively attached to an upper and a lower auto window frame for the purpose of enabling the suspension and stowage of a bullet-proof or bullet-resistant shield for immediate/urgent ergonomic access by a passenger when exiting a passenger vehicle. The Ergonomic Access Personal Bullet-Proof Shield Stowage Device may alternatively be used in any window with an upper and lower sill whereupon to position the window sill securing clips.

This disclosure is directed to audio actuator assemblies that include bridging brackets for mounting audio actuators inside vehicle body components. In some embodiments, the vehicle body component is a door that includes a reinforcement beam. The bridging bracket is mountable to the reinforcement beam in order to secure the audio actuator in place inside the vehicle body component in a manner that allows the audio actuator to vibrate adjacent surfaces of the vehicle body component for radiating sound signals.