Abstract: Provided is an information processing device including a presence/absence prediction unit that performs prediction of presence/absence of a user at a visit destination on a basis of sensed data, and a providing unit that provides a result of the prediction to an external device.

Abstract: Provided are an elevator that can be reliably attached by a simple operation and an endoscope including the elevator. An elevator engages with and attached to an engagement end of a rotation shaft protruding from a distal end portion of the endoscope by being pushed in from a direction intersecting with an axial length direction, and is elevated according to rotation of the rotation shaft. A jig is connected to the elevator, and the jig has a grip portion that is gripped when the elevator is attached and can be separated after the attachment.

Abstract: This disclosure relates to an in vivo treatment of tissue, for example, a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

Abstract: This disclosure relates to an in vivo treatment of tissue, for example, a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

Abstract: This disclosure relates to an in vivo treatment of a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond at the full-width-half-maximum. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

Abstract: This disclosure relates to an in vivo treatment of a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond at the full-width-half-maximum. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

Abstract: There is provided a light diffusive plate and a light guide plate, in which the generation of deflection, a cause of defective imaging, can be prevented. On both surfaces and/or end surfaces of a light diffusive plate 1 made of synthetic resin, a moisture proof layer 2 made of a material having lower vapor permeability than that of the light diffusive plate 1 is formed to produce a light diffusive plate 3. On both surfaces and/or end surfaces of a light guide plate 1 made of synthetic resin, which has at least on end as a light incident surface and a surface almost orthogonal with it as a light emergent surface, a moisture proof layer 2 made of a material having lower vapor permeability than that of the light guide plate 1 is formed to produce a light guide plate 3.

Abstract: Because light diffusing plates constituting backlight units have high moisture absorbency, light diffusing plates cause deformation such as warp, swell and flexure and adversely affect other members such as liquid crystal cells to cause defective images. A backlight unit that does not generate defective images due to such deformation of light diffusing plate is provided. This backlight unit is a backlight unit 1 comprising light sources 13, a light diffusing plate 14 comprising a synthetic resin and disposed on the light sources, and one or more kinds of optical members 15 and 16 for backlight unit disposed on the light diffusing plate, wherein both surfaces of the light diffusing plate 14 shall have an arithmetical mean deviation (Ra) of 0.1 ?m or less according to JIS B0601:1994.

Abstract: An adhesive wrapping film having a continuous tackifier layer (A) on at least one side surface of a substrate layer (B) whose surface has a concavo-convex form, wherein a thickness of the tackifier layer at the concave portion of the substrate layer is larger than that at the convex portion of the substrate layer, and a thickness of the substrate layer BAV, a thickness of the tackifier layer at the concave portion of the substrate layer Amax, a ten-point average roughness of the surface of the tackifier layer corresponding to a height of the convex portion of the tackifier layer RZ(A), and a ten-point average roughness of the surface of the substrate layer corresponding to a height of the convex portion of the substrate layer RZ(B) satisfy a relation of the following conditional expressions (1) and (2): (1) Amax<RZ(B)<BAV (2) RZ(A)<RZ(B).

Abstract: An adhesive wrapping film having a continuous tackifier layer (A) on at least one side surface of a substrate layer (B) whose surface has a concavo-convex form, wherein a thickness of the tackifier layer at the concave portion of the substrate layer is larger than that at the convex portion of the substrate layer, and a thickness of the substrate layer BAV, a thickness of the tackifier layer at the concave portion of the substrate layer Amax a ten-point average roughness of the surface of the tackifier layer corresponding to a height of the convex portion of the tackifier layer RZ(A) and a ten-point average roughness of the surface of the substrate layer corresponding to a height of the convex portion of the substrate layer RZ(B) satisfy a relation of the following conditional expressions (1) and (2):