Abstract: A selection support system includes one or more hardware processors. A hardware processor among the one or more hardware processors obtains biological information of a subject. The hardware processor layers and accumulates, in an accumulator, input operation information about an input operation performed on the obtained biological information by a user. In response to obtaining new biological information, according to the input operation information accumulated in the accumulator, the hardware processor generates recommendation information that includes identification information identifying an application for analyzing the new biological information and additional information indicating a characteristic of the application.

Abstract: An ink set includes four types of inks that are a yellow ink, a magenta ink, a cyan ink, and a black ink. Each of the four types of inks contains water and a colorant, and at least one of the four types of inks contains an ultraviolet absorber. When Abs (Y) represents the absorbance of the yellow ink, Abs (M) represents the absorbance of the magenta ink, Abs (C) represents the absorbance of the cyan ink, and Abs (K) represents the absorbance of the black ink with respect to light with a wavelength of 385 nm, the ratios of Abs (Y), Abs (M), and Abs (C) to Abs (K) satisfy predetermined conditions.

Abstract: An image forming apparatus includes a main power supply switch that turns on and off a main power supply, a battery that is a power source different from the main power supply, a detector that detects switching of the main power supply switch, and a first hardware processor that operates with power supplied from the battery, and provides a notification in response to the detector detecting the switching of the main power supply switch from on to off.

Abstract: An image forming apparatus includes an image former that forms an image on a recording medium in accordance with an image forming condition corresponding to a medium type of the recording medium, and a hardware processor, wherein the hardware processor detects information in regard to a medium type of a recording medium as first information, accepts information in regard to a medium type of a recording medium as second information, performs a reset work of setting at least one setting value that defines the image forming condition to a default value in response to satisfaction of a predetermined condition, and even when the reset work is performed, controls the image former to prevent accepted second information in regard to a predetermined recording medium from being reset.

Abstract: A parameter determination apparatus includes: a first hardware processor that acquires a value related to a plurality of types of sheet physical properties; a second hardware processor that specifies at least any of a sheet type or a basis weight based on an acquired value related to a sheet physical property; and a third hardware processor that specifies a parameter related to sheet processing without specifying at least any of the sheet type or the basis weight, based on an acquired value related to a sheet physical property.

Abstract: A radiation device is wirelessly connected to a radiography device that generates dynamic image data and which controls sequential radiation. The radiation device includes a signal generator and a first determiner. The signal generator generates (i) first pulse signals emitted by the radiography device, (ii) second pulse signals synchronized with a first count value obtained by counting up the first pulse signals, and (iii) a second count value obtained by counting up the second pulse signals. The first determiner determines whether to start radiation based on a delay time which is a difference between a first time point count value and a second time point count value. The first time point count value indicates a time point at which a radiation permission signal is transmitted. The second time point count value indicates a time point at which the radiation permission signal is received.

Abstract: A dynamic image processing apparatus processes image data of a medical dynamic image that includes a plurality of frame images obtained from successively imaging a subject and that shows a dynamic state of the subject. The dynamic image processing apparatus includes a hardware processor. The hardware processor enhances resolution of at least one or more of the plurality of frame images included in the medical dynamic image to a high resolution and generates a secondary medical image. The hardware processor executes a recording process in which a record is kept to show that the secondary medical image is generated secondarily from the existing medical dynamic image.

Abstract: An apparatus for distant detection of ferrous metallic objects includes a plurality of magnetic field sensors and a fingerprint processing system. The plurality of magnetic field sensors each measure an ambient magnetic field. The fingerprint processing system receives, from the plurality of magnetic field sensors, magnetic field data corresponding to the ambient magnetic field. The fingerprint processing system also generates, from the magnetic field data, a magnetic fingerprint image of one or more perturbations of the ambient magnetic field. The plurality of magnetic field sensors is separated from the ferrous metallic objects being detected by a detection distance that is greater than or equal to 0.5 meters.

Abstract: A photoelectric volume pulse wave sensor includes a light-emitting element and a light-receiving element. Electrodes constituting the light-emitting element or the light-receiving element are surface electrodes. At least one electrode among the electrodes is also used as an electrode that detects body motion.

Abstract: An image forming apparatus includes: a printer that performs printing on paper; and a first hardware processor that is able to execute a color adjustment process of a color to be printed on the paper by the printer on the basis of a result of printing on the paper; a second hardware processor that acquires paper information of the paper to pass through the printer; and a third hardware processor that determines whether or not the color adjustment process by the first hardware processor is possible on the basis of a result of acquisition of the paper information by the second hardware processor.

Abstract: To provide an image forming apparatus capable of sufficiently correcting deviation of a recording material by an oscillation operation of a registration roller. Configuring an image forming apparatus including: a conveyor that conveys a recording material; a transferer that includes a transfer roller that transfers a toner image onto the recording material; a fixer that includes a fixing roller that fixes the toner image formed on the recording material; a deviation detector that detects a position of the recording material in a conveyance intersecting direction; a deviation corrector that is located on an upstream side of the transferer and moves the recording material in the conveyance intersecting direction to correct deviation of the recording material; and a controller that controls a drive amount of the deviation corrector on the basis of a detection result of the deviation detector and the pressure contact force of a nipper nipping the recording material being conveyed.

Abstract: An image processing device includes a hardware processor. The hardware processor designates, from one frame image of a dynamic image acquired by dynamic imaging of a movement of a locomotorium, a plurality of regions or points on a structure included in the locomotorium, sets an alignment reference based on the designated regions or points, tracks the designated regions or points in a plurality of frame images of the dynamic image, aligns a line segment connecting the regions or the points to each other in the plurality of frame images based on the alignment reference, and causes a display to display the line segment so as to be superimposed on a representative frame image of the dynamic image.

Abstract: An analysis system, a learned model generation device, a discrimination system, an analysis method, a learned model generation method, and a discrimination method can sensitively quantify at least one of an aggregation state or a surface state. An analysis system includes an acquisition unit for acquiring a signal change over time due to interaction between a capture target substance and a capture substance by an electrical detection method or optical detection method, and an analysis unit for analyzing at least one of an aggregation state and a surface state of the capture target substance from the signal change over time acquired by the acquisition unit.

Abstract: An image forming system includes an image forming device that ejects ink from a nozzle based on image data and performs image forming processing to form an image on a printing medium, a read image generator that generates a read image from the image on the printing medium, and an inspection device that detects an abnormal image from an inspection image that is the read image of an image to be inspected, and after detecting the abnormal image, based on the read image of the printing medium on which an abnormal nozzle detection image is formed by the image forming device, detects the nozzle in which an abnormality occurs as an abnormal nozzle.

Abstract: An image processing apparatus is communicable with an information processing terminal, and operates based on a command from the information processing terminal when robotic process automation (RPA) for execution of a specific job is being executed in the information processing terminal. The image processing apparatus includes a storage section that stores a library preprogrammed to sequentially and automatically executes a plurality of processing included in a specific job, and a hardware processor that receives a command to execute the library from the information processing terminal, calls the library from the storage section, and executes the library.

Abstract: An image forming device comprises: a receiving part that receives image data containing first image data relating to a black and white image and second image data relating to a foil image; a carrying path along which a recording medium is carried in a predetermined direction; an inkjet printing part, arranged on the carrying path, injects an ink based on the first image data to the recording medium, and forms the black and white image or the color image on the recording medium; a toner image printing part, arranged on the carrying path, forms the toner image for adhesion based on the second image data, and transfers the toner image to the recording medium; and a foil image forming part, arranged on the carrying path, enables the toner image transferred to the recording medium to melt and attaches the foil to the melted toner image to form the foil image.

Abstract: An image forming apparatus includes a hardware processor that: sets a post-processing position to a sheet; determines whether or not the post-processing position is processable by a post-processing unit; and generates, when determining that the post-processing position is processable, image data in which the post-processing position to the sheet has been drawn, wherein the hardware processor generates the image data in a data format allowing display of the image data by software for creating or editing print content.

Abstract: An image forming apparatus includes: a fixing device that thermally fixes an image based on a print job onto a sheet; and a hardware processor that changes a set temperature of the fixing device depending on a type of a printer driver that has generated the print job.

Abstract: An image forming apparatus includes: a first hardware processor that receives setting of a type of a recording medium by a user; a detector that detects a type determination parameter for a recording medium including a recording medium for which setting of a type has been received by the first hardware processor; a second hardware processor that determines a type of a recording medium based on a detection result of the detector; an image former that forms an image on the recording medium; and a third hardware processor that transmits, to an external device, at least two pieces of information of information regarding the type received, information regarding the type determined by the second hardware processor, or information regarding matching or mismatching of the type received and the type determined with respect to the recording medium for which setting of a type has been received by the first hardware processor.

Abstract: An ultrasonic diagnostic system includes: a plurality of batteries that functions as a power source of an ultrasonic diagnostic apparatus; and a hardware processor that switches and executes individual charging of the plurality of batteries.