Abstract: This projector includes a laser beam generation portion, an image projection portion including a scanning portion and projecting an image on a projection area, a beam receiving portion receiving the laser beam reflected by a detection object and a control portion detecting an operation performed on the projected image with the detection object on the basis of the moving state of the detection object.

Abstract: A projector is provided which includes: a Peltier device having a first surface in contact with an optical component (heat generating component) and a second surface in contact with a heat sink (heat dissipating component); and a Peltier device driving unit as a controller that generates a temperature difference between the two surfaces of the Peltier device by applying a cyclically changing voltage to the Peltier device. The Peltier device driving unit applies to the Peltier device a first voltage in a first of two time periods of a cycle and applies a lower second voltage in the second time period, the first voltage being for transferring heat from the optical component to the heat sink to reduce the temperature of the first surface below that of the second surface, and the second voltage being for preventing the transfer of heat from the second surface to the first surface.

Abstract: A manipulation input device includes a projection component, a photodetector and an inclination determination component. The projection component projects an image on a projection surface by scanning light from a light source. The photodetector detects as scattered light the light reflected by a manipulation object. The inclination determination component acquires, for a plurality of scan lines of the light, position information of the manipulation object that is specified based on scanning angle information when the photodetector has detected the scattered light, and width information of the manipulation object that corresponds to a continuous detection duration during which the photodetector continuously detects the scattered light. The inclination determination component determines inclination of the manipulation object based on at least one of a temporal change in a plurality of sets of the width information and a temporal change in a plurality of sets of the position information.

Abstract: A projector includes a light source, a projection component, a photodetector, and an inclination calculator. The light source outputs light. The projection component projects an image on a projection surface by scanning the light outputted by the light source at an angle to the projection surface. The photodetector detects, as a reflected light, the light that has been scanned by the projection component and reflected by a detection object within a light detection range of the photodetector. The light detection range is set to a predetermined range in a direction perpendicular to the projection surface. The inclination calculator calculates an inclination angle of the detection object in a sub-scanning direction of the light based on a position of the detection object on the projection surface and a number of times the reflected light is detected while scanning in the sub-scanning direction.

Abstract: A detecting device includes an irradiation component that includes a first light source and irradiates a specific region with light from the first light source, a light receiver that receives light reflected in the specific region, and a controller that performs an operation control of the irradiation component based on a specific criterion with respect to the light received by the light receiver.

Abstract: Provided is a projector that projects an image onto a screen, and detects a touch of an operating object on the screen and includes: a light source that emits laser light; a projecting unit configured to project the image onto the screen by scanning the laser light from the light source toward the screen; a light receiving unit configured to detect the laser light reflected from the operating object; and a control unit configured to determine that the operating object has touched the screen, based on change in the laser light detected by the light receiving unit.

Abstract: A projector includes a light source, a projection component, a photodetector, and an inclination calculator. The light source outputs light. The projection component projects an image on a projection surface by scanning the light outputted by the light source at an angle to the projection surface. The photodetector detects, as a reflected light, the light that has been scanned by the projection component and reflected by a detection object within a light detection range of the photodetector. The light detection range is set to a predetermined range in a direction perpendicular to the projection surface. The inclination calculator calculates an inclination angle of the detection object in a sub-scanning direction of the light based on a position of the detection object on the projection surface and a number of times the reflected light is detected while scanning in the sub-scanning direction.

Abstract: A manipulation input device includes a projection component, a photodetector, and a position calculator. The projection component is configured to project an image on a projection surface by scanning light from a light source. The photodetector is configured to detect as scattered light the light reflected by a manipulation object that has moved into a specific detection range including the projection surface. The position calculator is configured to calculate a distance of the manipulation object from a reference point based on a continuous detection duration during which the photodetector continuously detects the scattered light, the position calculator being further configured to calculate coordinates of the manipulation object on the projection surface based on the distance of the manipulation object from the reference point and position information indicating a scanning position of the light on the projection surface when the photodetector has detected the scattered light.

Abstract: A manipulation input device includes a projection component, a photodetector and an inclination determination component. The projection component projects an image on a projection surface by scanning light from a light source. The photodetector detects as scattered light the light reflected by a manipulation object. The inclination determination component acquires, for a plurality of scan lines of the light, position information of the manipulation object that is specified based on scanning angle information when the photodetector has detected the scattered light, and width information of the manipulation object that corresponds to a continuous detection duration during which the photodetector continuously detects the scattered light. The inclination determination component determines inclination of the manipulation object based on at least one of a temporal change in a plurality of sets of the width information and a temporal change in a plurality of sets of the position information.

Abstract: An input device includes a light source, a laser beam scanner, a photodetector, and an inclination determination component. The light source is configured to emit a laser beam. The laser beam scanner is configured to scan a plurality of lines of the laser beam in a line scanning direction. The lines of the laser beam are projected in a projection region of a projection surface. The photodetector is configured to detect a reflected light of the laser beam reflected by an object located above the projection region. The inclination determination component is configured to determine an inclination of the object with respect to the projection surface in the line scanning direction based on a change amount in a timing at which the photodetector detects the reflected light.

Abstract: This projector includes a laser beam generation portion, an image projection portion including a scanning portion and projecting an image on a projection area, a beam receiving portion receiving the laser beam reflected by a detection object and a control portion detecting an operation performed on the projected image with the detection object on the basis of the moving state of the detection object.

Abstract: This projector includes a laser beam emitting portion, a projection portion projecting an image on an arbitrary projection region by scanning laser beams, and a detecting portion detecting a laser beam reflected by the projection region and a detection object and outputting a detection signal corresponding to the detected laser beam, while the detection signal output from the detecting portion is corrected on the basis of a reference signal corresponding to the laser beam reflected by the projection region and detected by the detecting portion.

Abstract: This projector includes a laser beam emitting portion, a projection portion projecting an image on an arbitrary projection region, and a detecting portion detecting a laser beam reflected by an object to be detected, and is configured to acquire the inclination of the object to be detected with respect to the projection region on the basis of the laser beam detected by the detecting portion.

Abstract: A mobile communication terminal includes a first communication unit connectable to a first communication apparatus via a first network using a first wireless communication protocol, a second communication unit connectable to a second communication apparatus via a second network using a second wireless communication protocol different from the first wireless communication protocol, a controller configured to control the first and second communication units, a microphone, and a speaker. The controller transmits first data, addressed to the second communication apparatus, to the second network, transmits second data, addressed to the first communication apparatus, to the first network, causes the speaker to convert into corresponding voice a second voice signal addressed to the mobile communication terminal, and transmits a first voice signal.

Abstract: An IP telephone terminal outputs a call request for communication with a prescribed terminal and, if it is determined that connection failed, records the input voice. Thereafter, the IP telephone terminal determines that the prescribed telephone terminal has reached a state connectable through IP network, outputs a call request for communication with the prescribed terminal and if connection is determined to be established, transmits the recorded voice to the prescribed terminal.