Abstract: A photoacoustic ultrasonic imaging apparatus includes a light emitting portion configured to emit pulsed light; a photoacoustic sound source configured to absorb the pulsed light and generate photoacoustic waves to be transmitted toward a subject; a plurality of transducers configured to receive photoacoustic waves reflected by the subject and output electric signals; and an information processor configured to output a photoacoustic ultrasonic echo image of the subject by using the electric signals. The information processor is configured to calculate the photoacoustic ultrasonic echo image on the basis of positional information on the photoacoustic sound source.

Abstract: A display system comprises a display unit including a display screen, and a display control unit, wherein the display control unit sets at least one of luminance and a color map of the display screen based on wearing information indicating a wearing state of an eyewear.

Abstract: An information acquisition apparatus according to the present invention includes a container configured to store a deformable acoustic matching member, a receiving unit configured to receive an acoustic wave generated from an object and output a signal, and a processing unit configured to acquire object information based on the signal. The processing unit acquires sound speed information about the object, acquires sound speed information about the acoustic matching member, acquires positional information about the acoustic matching member, acquires propagation time information about the acoustic wave between an interesting position of the object and the receiving unit using the positional information, the sound speed information about the object, and the sound speed information about the acoustic matching member, and acquires the object information about the interesting position using the signal and the propagation time information.

Abstract: An image processing apparatus includes: an image obtaining unit configured to obtain a first image by imaging an object using a first imaging apparatus, a second image by imaging the object using a second imaging apparatus, a third image by imaging the object using an image capturing unit whose position is associated with the second imaging apparatus; and an alignment unit configured to align the object in the first image with the object in the second image so that observation information of the object in the first image matches observation information of the object in the third image.

Abstract: A photoacoustic apparatus includes a light irradiation unit configured to irradiate a subject with light, a reception unit configured to convert an acoustic wave generated from the subject into an electric signal, a processing unit configured to acquire image data using the electric signal, and a display control unit. The processing unit acquires first image data by a first image generation method using the electric signal, and acquires second image data by a second image generation method different from the first image generation method using the electric signal. The display control unit sets, as a difference region, a region in which difference image data between the first image data and the second image data has an image value within a predetermined numerical range, and causes image data in which the difference region and another region are distinguishable from each other to be displayed on a display unit.

Abstract: An apparatus for acquiring object information according to the present invention includes an information acquisition unit acquiring characteristic information inside the object, wherein the information acquisition unit generates intensity distribution data corresponding to an initial sound pressure distribution, acquires, from values included in the intensity distribution data, a plurality of representative values corresponding to propagation distances of the light, and acquires an effective attenuation coefficient inside the object on the basis of the plurality of representative values.

Abstract: An object information acquiring apparatus includes a light source, a light absorbing member configured to absorb light radiated from the light source to generate a transmit-ultrasound wave that is a planar wave, a detecting element configured to receive an acoustic wave to output an electric signal, an information processing unit configured to acquire characteristic information on an object using the electric signal. The detecting element receives an ultrasound wave resulting from reflection or scattering of the transmit-ultrasound wave in the object, as an acoustic wave.

Abstract: An object information acquiring apparatus comprises a light irradiation unit configured to irradiate an object with light; a sound generating member arranged between the object and the light irradiation unit and configured to generate a substantially planar ultrasonic wave based on the irradiated light; an acoustic wave probe configured to acquire an acoustic wave generated inside the object due to the light and convert the acoustic wave into a first electric signal; and an information generating unit configured to generate information concerning optical characteristics of an interior of the object, based on the first electric signal, wherein the sound generating member allows a part of the light irradiated from the light irradiation unit to pass through the sound generating member to the object.

Abstract: An object information acquiring apparatus includes: an acoustic wave generating member which absorbs light and generates an acoustic wave; an irradiating unit which irradiates an object or the acoustic wave generating member with light; a detector which detects an acoustic wave propagating from the object; a signal processing unit which generates object information that is information of the inside of the object, based on a signal output from the detector; and a switching unit which performs switching between a first mode in which a first acoustic wave generated inside the object due to irradiation of the light is detected by the detector and a second mode in which a second acoustic wave generated by the acoustic wave generating member due to irradiation of the light and having propagated inside the object is detected by the detector.

Abstract: A position of a light absorber existing in a subject and an initial sound pressure of an acoustic wave generated at the light absorber are calculated from an electric signal converted from the received acoustic wave generated in response to irradiation of the subject with light. An optical absorption coefficient and an optical scattering coefficient of the subject are calculated using the position of the light absorber and the initial sound pressure of the acoustic wave generated at the position of the light absorber. A light quantity distribution in the subject is calculated using the optical absorption coefficient and the optical scattering coefficient of the subject. An optical absorption coefficient distribution in the subject is calculated using the light quantity distribution in the subject and an initial sound pressure distribution in the subject obtained from the electric signal.

Abstract: A photoacoustic imaging apparatus includes holding members configured to hold a subject, an acoustic wave conversion unit configured to receive an acoustic wave generated by irradiating the subject, which is held by the holding members, with light from a light source and convert the acoustic wave into an electric signal, a processing unit configured to generate image data from the electric signal, and an imaging unit configured to capture an optical pattern generated on a light diffusion member by emitting the light to the light diffusion member arranged on a surface of a side where the subject is irradiated with the light in the holding members where the holding members contact the subject in holding the subject, wherein the processing unit calculates light absorption coefficient distribution in the subject based on the optical pattern captured by the imaging unit and the electric signal acquired by the acoustic wave conversion unit.

Abstract: A photoacoustic imaging apparatus includes holding members configured to hold a subject, an acoustic wave conversion unit configured to receive an acoustic wave generated by irradiating the subject, which is held by the holding members, with light from a light source and convert the acoustic wave into an electric signal, a processing unit configured to generate image data from the electric signal, and an imaging unit configured to capture an optical pattern generated on a light diffusion member by emitting the light to the light diffusion member arranged on a surface of a side where the subject is irradiated with the light in the holding members where the holding members contact the subject in holding the subject, wherein the processing unit calculates light absorption coefficient distribution in the subject based on the optical pattern captured by the imaging unit and the electric signal acquired by the acoustic wave conversion unit.

Abstract: An object information acquiring apparatus, includes: an irradiator irradiating an object with light; a probe having a plurality of transducers which receive an acoustic wave generated from the object irradiated with the light and output a reception signal; and a controller using the reception signal to acquire property information on the interior of the object, and the probe has a plurality of apertures and a surface on which the plurality of transducers are arranged has a spherical surface shape.

Abstract: A therapy device comprises a light source; an irradiation unit configured to irradiate an object with light from the light source; a reception unit configured to receive an acoustic wave generated and propagated within the object due to the light, and output the acoustic wave as an electrical signal; a processing unit configured to acquire characteristic information of the object based on the electrical signal output from the reception unit; a temperature adjustment unit configured to be capable of changing a temperature of the object; and a temperature control unit configured to control the temperature adjustment unit based on the characteristic information.

Abstract: Provided is an object information acquiring apparatus having: a receiving unit receiving an acoustic wave generated from an object, which has been irradiated with light, at a plurality of receiving positions and outputting time-series receiving signals; and a processing unit acquiring characteristic information by back-projecting the receiving signals, and the processing unit includes: a unit acquiring, for each receiving position, a dispersion index of light intensity distribution on a back projection spherical surface; a unit acquiring, for each receiving position, an angle range in the back projection based on the dispersion index; and a unit acquiring the characteristic information by back-projecting the receiving signals in the angle range.

Abstract: A three-dimensional image captured by imaging a subject using a first imaging device is acquired. A two-dimensional image captured by imaging a surface of the subject using a second imaging device is acquired. Information representing the surface position of the subject is acquired from the three-dimensional image. A projection image in a case where seeing the three-dimensional image from the viewpoint of the second imaging device is generated based on the information representing the surface position. The three-dimensional image is aligned with the two-dimensional image with respect to the subject using the projection image and the two-dimensional image.

Abstract: An object information acquiring apparatus comprises an irradiating unit which irradiates light on an object; a holding member which includes a light-absorbing member whose optical characteristics with respect to irradiated light are known and which holds the object; a detector which detects acoustic waves generated by tissue in the object and the light-absorbing member due to light irradiation; and a computing unit which calculates optical characteristics of the tissue in the object and the light-absorbing member by using the detected acoustic waves and which corrects the optical characteristics of the tissue in the object by using the calculated optical characteristics of the light-absorbing member and the known optical characteristics.

Abstract: An image processing apparatus includes: an image obtaining unit configured to obtain a first image by imaging an object using a first imaging apparatus, a second image by imaging the object using a second imaging apparatus, a third image by imaging the object using an image capturing unit whose position is associated with the second imaging apparatus; and an alignment unit configured to align the object in the first image with the object in the second image so that observation information of the object in the first image matches observation information of the object in the third image.

Abstract: A three-dimensional image captured by imaging a subject using a first imaging device is acquired. A two-dimensional image captured by imaging a surface of the subject using a second imaging device is acquired. Information representing the surface position of the subject is acquired from the three-dimensional image. A projection image in a case where seeing the three-dimensional image from the viewpoint of the second imaging device is generated based on the information representing the surface position. The three-dimensional image is aligned with the two-dimensional image with respect to the subject using the projection image and the two-dimensional image.

Abstract: An object information acquiring apparatus comprises a light source; an acoustic detecting unit configured to detect an acoustic wave generated from an object to which light from the light source is irradiated; and a processing unit configured to acquire characteristic information on the inside of the object based on the acoustic wave and correct the characteristic information using an absorption coefficient of a background region inside the object.