An HMD includes a display unit mounted on a head of a user, and configured to display an image such that a real object located in a real space is visually recognizable, a right earphone and a left earphone configured to output a sound, a position specification unit configured to specify a position of the real object and a virtual object, and a sound output control unit configured to generate a synthesized sound with the position of the virtual object as a sound source position, and output the synthesized sound from the right earphone and the left earphone. The sound output control unit adjusts the synthesized sound so that the synthesized sound becomes an audible sound bypassing the real object when the position of the real object is located between the position of the virtual object and a position of the display unit.

There is provided a content providing system in which a script that is generated by a creator and includes identification information of content and comment information is stored in a predetermined storage medium to be browsable by a user, the content providing system including a control unit that performs control to execute reading, according to a script selected by the user, content indicated by content identification information included in the script by using a right that the user has already obtained by a contract with a specific service, and provide the content to the user, and control to read a comment according to the comment information included in the script and provide the comment to the user at least one of before or after the provision of the content, in which the control unit controls the provision of the content or the comment according to a context of the user.

A method including receiving an audio scene including at least one source captured using at least one near field microphone and at least one far field microphone. The method includes determining at least one room-impulse-response associated with the audio scene based on the at least one near field microphone and the at least one far field microphone, accessing a predetermined scene geometry corresponding to the audio scene, and identifying best match to the predetermined scene geometry in a scene geometry database. The method also includes performing RIR comparison based on the at least one RIR and at least one geometric RIR associated with the best matching geometry and rendering a volumetric audio scene based on a result of the RIR comparison.

A method including receiving an audio scene including at least one source captured using at least one near field microphone and at least one far field microphone. The method includes determining at least one room-impulse-response associated with the audio scene based on the at least one near field microphone and the at least one far field microphone, accessing a predetermined scene geometry corresponding to the audio scene, and identifying best match to the predetermined scene geometry in a scene geometry database. The method also includes performing RIR comparison based on the at least one RIR and at least one geometric RIR associated with the best matching geometry and rendering a volumetric audio scene based on a result of the RIR comparison.

Systems, devices, and methods are described for providing, among other things, a device including a heartbeat mimetic unit configured to generate an acoustic stimulus that mimics a heartbeat. In an embodiment, the device includes a warm-touch unit configured to generate a thermal stimulus. In an embodiment, the device includes a controller unit operably coupled to the heartbeat mimetic unit and the warm touch unit, the controller unit configured to activate at least one of the heartbeat mimetic unit or the warm-touch unit. In an embodiment, the device includes a communication unit configured to exchange at least one of heartbeat mimetic data or warm-touch data with a remote network.

Systems, devices, and methods are described for providing, among other things, a device including a heartbeat mimetic unit configured to generate an acoustic stimulus that mimics a heartbeat. In an embodiment, the device includes a warm-touch unit configured to generate a thermal stimulus. In an embodiment, the device includes a controller unit operably coupled to the heartbeat mimetic unit and the warm touch unit, the controller unit configured to activate at least one of the heartbeat mimetic unit or the warm-touch unit. In an embodiment, the device includes a communication unit configured to exchange at least one of heartbeat mimetic data or warm-touch data with a remote network.

An insect repelling system utilizes a vehicle, and includes: a position information acquisition unit configured to acquire and provide vehicle position information, an interface unit configured to display species-based frequency ranges that insects avoid and to allow a user to select one of the displayed frequency ranges, a controller configured to perform control such that the interface unit displays the species-based frequency ranges that are avoided by insects that can be repelled at the current position of the vehicle based on the vehicle position information acquired by the position information acquisition unit and to generate and output a control signal for outputting a sound having the frequency selected through the interface unit, and a sound generation device configured to output the sound having the frequency by the user according to the control signal output by the controller.

A driving sound library provides driving sounds classified in various themes to a user by analyzing frequency characteristics and temporal characteristics of sound sources classified into categories and determining a chord corresponding to each sound source based on the frequency characteristics and the time characteristics. Modulated sound sources in which each sound source is modulated are generated by applying a chord corresponding to each sound source. The driving sound sources are generated using the sound sources and the modulated sound sources as input data. Pitches of the driving sound sources are then changed based on the driving sound sources and engine sound orders corresponding to an engine RPM of a preset range. Scores for each theme for the driving sounds are generated.

A driving sound library provides driving sounds classified in various themes to a user by analyzing frequency characteristics and temporal characteristics of sound sources classified into categories and determining a chord corresponding to each sound source based on the frequency characteristics and the time characteristics. Modulated sound sources in which each sound source is modulated are generated by applying a chord corresponding to each sound source. The driving sound sources are generated using the sound sources and the modulated sound sources as input data. Pitches of the driving sound sources are then changed based on the driving sound sources and engine sound orders corresponding to an engine RPM of a preset range. Scores for each theme for the driving sounds are generated.

A sound signal processing system includes: a first obtainer that obtains recurrence plot information indicating a characteristic of a first sound; a second obtainer that obtains a sound signal of a second sound different from the first sound; a generator that generates a sound signal in which the characteristic of the first sound is reflected in the sound signal of the second sound, based on the recurrence plot information obtained by the first obtainer, the sound signal of the second sound being obtained by the second obtainer; and an outputter that outputs the sound signal generated.