Abstract: A relay control method for a computer to execute a process includes when receiving a waiting notification from a first device that provides an authentication, transitioning to a state where waiting is performed without transmitting a response to the waiting notification to the first device; receiving an authentication request from a second device that has a virtual environment; and in a case of a state where the authentication request is received and waiting is performed without transmitting the response to the waiting notification, transmitting the response to the received waiting notification, that includes the received authentication request, to the first device.

Abstract: An Information processing apparatus, includes a memory; and a processor coupled to the memory and the processor configured to: store, for each of a plurality of areas represented by a geographical boundary line, information for specifying position of an area and a size of the area to the memory, acquire data regarding a position of a moving body, set a predetermined range on the basis of the acquired data, extract a target area from the plurality of areas on the basis of the predetermined range and the position of each of the plurality of areas, and control a size, stored in the memory, of the extracted target area.

Abstract: A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

Abstract: A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

Abstract: A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

Abstract: An Information processing apparatus, includes a memory; and a processor coupled to the memory and the processor configured to: store, for each of a plurality of areas represented by a geographical boundary line, information for specifying position of an area and a size of the area to the memory, acquire data regarding a position of a moving body, set a predetermined range on the basis of the acquired data, extract a target area from the plurality of areas on the basis of the predetermined range and the position of each of the plurality of areas, and control a size, stored in the memory, of the extracted target area.

Abstract: A base material processing apparatus includes a first edge sensor, a second edge sensor, and a displacement amount calculation part. The first edge sensor acquires a first detection result (R1) by detecting the position of an edge of a base material in the width direction at a first detection position. The second edge sensor acquires a second detection result (R2) by detecting the position of the edge of the base material in the width direction at a second detection position. The displacement amount calculation part calculates the amount of displacement in the position of the base material in the transport direction on the basis of the first detection result (R1) and the second detection result (R2). Accordingly, the amount of displacement in the position of the base material in the transport direction can be detected without depending on images such as register marks.

Abstract: There is provided an information processing device that is a first information processing device, the information processing device including a memory, and a processor coupled to the memory and the processor configured to transmit, to a second information processing device, a first beacon for indicating that the first information processing device operates as a gateway, receive a second beacon for requesting that the first information processing device transmits data included in the second beacon to a server, and transmit, to the server, the data included in the second beacon and a source identification of the second beacon.

Abstract: A spatial modulator is configured by arranging a plurality of modulating units in an X-axis direction, the modulating units each including at least one light modulating element having a fixed reflecting surface with a constant height from a base surface and a movable reflecting surface with a variable height from the base surface. The spatial modulator spatially modulates a laser beam by the plurality of modulating units. A driver circuit unit applies a voltage corresponding to a driving value to each of the plurality of modulating units, to drive the modulating units individually. A shift amount acquiring portion acquires a driving value at a reference time point and a driving value at an inspecting time point which correspond to a specific light amount value, and acquires a differential value thereof as a shift amount.

Abstract: A spatial modulator is configured by arranging a plurality of modulating units in an X-axis direction, the modulating units each including at least one light modulating element having a fixed reflecting surface with a constant height from a base surface and a movable reflecting surface with a variable height from the base surface. The spatial modulator spatially modulates a laser beam by the plurality of modulating units. A driver circuit unit applies a voltage corresponding to a driving value to each of the plurality of modulating units, to drive the modulating units individually. A shift amount acquiring portion acquires a driving value at a reference time point and a driving value at an inspecting time point which correspond to a specific light amount value, and acquires a differential value thereof as a shift amount.

Abstract: A projector device includes an acquisition unit configured to acquire an image from an image pickup unit that picks up the image on a projection side of a transmissive type screen to which a display image is projected by a projector; a detection unit configured to detect a position where a luminance is changed on the acquired image; and an output unit configured to output the position on the acquired image where the change in luminance is detected.

Abstract: A portable mobile terminal includes: a detection control unit; and a movement trajectory calculation unit configured to calculate a movement trajectory of a terminal body based on a detection result of an absolute position of the terminal body by the absolute position detecting unit and an acquisition result of a line segment indicating a rectilinear distance of the terminal body by a link information generation unit. The detection control unit determines a timing that comes every given time as a tentative detection timing, and in a case where the link information generation unit has not acquired a new line segment till the tentative detection timing after a previous detection timing, the detection control unit determines a timing at which the link information generation unit acquires a new line segment next as a detection timing, and starts up the absolute position detecting unit.

Abstract: A projector device includes an acquisition unit configured to acquire an image from an image pickup unit that picks up the image on a projection side of a transmissive type screen to which a display image is projected by a projector; a detection unit configured to detect a position where a luminance is changed on the acquired image; and an output unit configured to output the position on the acquired image where the change in luminance is detected.

Abstract: A portable mobile terminal includes: a detection control unit; and a movement trajectory calculation unit configured to calculate a movement trajectory of a terminal body based on a detection result of an absolute position of the terminal body by the absolute position detecting unit and an acquisition result of a line segment indicating a rectilinear distance of the terminal body by a link information generation unit. The detection control unit determines a timing that comes every given time as a tentative detection timing, and in a case where the link information generation unit has not acquired a new line segment till the tentative detection timing after a previous detection timing, the detection control unit determines a timing at which the link information generation unit acquires a new line segment next as a detection timing, and starts up the absolute position detecting unit.