A method and system are disclosed for capturing observations of customer-premise equipment or customer-provided equipment (CPE) devices. The method includes reporting a problem detect by a user during use of a customer-premise equipment or customer-provided equipment (CPE) device with one or more specific buttons on a remote controller; and entering the problem into a log with a timestamp.

A method and system are disclosed for capturing observations of customer-premise equipment or customer-provided equipment (CPE) devices. The method includes reporting a problem detect by a user during use of a customer-premise equipment or customer-provided equipment (CPE) device with one or more specific buttons on a remote controller; and entering the problem into a log with a timestamp.

A method and system are disclosed for capturing observations of customer-premise equipment or customer-provided equipment (CPE) devices. The method includes reporting a problem detect by a user during use of a customer-premise equipment or customer-provided equipment (CPE) device with one or more specific buttons on a remote controller; and entering the problem into a log with a timestamp.

A method and system are disclosed for capturing observations of customer-premise equipment or customer-provided equipment (CPE) devices. The method includes reporting a problem detect by a user during use of a customer-premise equipment or customer-provided equipment (CPE) device with one or more specific buttons on a remote controller; and entering the problem into a log with a timestamp.

A method for analyzing a three-dimensional model of an object which includes: obtaining the three-dimensional model generated based on images of the object, the images being imaged by respective cameras from respective viewpoints, the three-dimensional model including three-dimensional points each of which indicating a position of the object; obtaining a camera parameter of one camera among the respective cameras; generating, based on the camera parameter and the three-dimensional model, a depth image indicating a distance between the one camera and the object; generating a foreground image indicating an area in which the object is present in the one image imaged by the one camera; comparing the depth image and the foreground image to determine whether there is a deficiency of a three-dimensional point in the three-dimensional model; and outputting deficiency information if it is determined that there is the deficiency of the three-dimensional point in the three-dimensional model.

Disclosed are an electronic device and a method for controlling the electronic device. Specifically, the electronic device according to the present disclosure receives a first image signal and a second image signal which are separated from an original image signal through a first channel and a second channel having different frequency bandwidths, and which have different data rates. When the first image signal and the second image signal are received, the electronic device determines whether an error exists in the second image signal, obtains a first output image signal and a second output image signal on the basis of the first image signal and the second image signal according to a result of the determination, and outputs the obtained first output image signal or second output image signal.

Disclosed are an electronic device and a method for controlling the electronic device. Specifically, the electronic device according to the present disclosure receives a first image signal and a second image signal which are separated from an original image signal through a first channel and a second channel having different frequency bandwidths, and which have different data rates. When the first image signal and the second image signal are received, the electronic device determines whether an error exists in the second image signal, obtains a first output image signal and a second output image signal on the basis of the first image signal and the second image signal according to a result of the determination, and outputs the obtained first output image signal or second output image signal.

Aspects of the disclosure provide for a method. In some examples, the method includes receiving a video stream comprising multiple frames, analyzing the video stream to compare data values representing an image pixel at a specified location in a first of the frames to data values representing an image pixel at the specified location in a second of the frames, determining that the video stream is frozen responsive to the data values representing the image pixel at the specified location in the first of the frames being the same as the data values representing the image pixel at the specified location in the second of the frames, and taking action responsive to determining that the video stream is frozen.

An electronic apparatus includes an electronic apparatus includes: a communication interface; a memory storing at least one instruction; and a processor configured to execute the at least one instruction to: receive, from an external device through the communication interface, state information of the external device, execute a self-diagnosis mode to obtain error information of at least one of the electronic apparatus or the external device based on state information of the electronic apparatus and the state information of the external device, obtain setting information corresponding to at least one of the electronic apparatus or the external device based on the obtained error information, and control at least one of the electronic apparatus or the external device based on the obtained setting information.

A transmission configuration and/or configuration errors and recovery may be determined or implemented by temporal interpretation of one or more signals. A transmitter may interpret one or more signals a first way during one or more time windows and a second way during one or more other time windows. Video resolution may be indicated in a V-by-One® interface by temporal interpretation of HPD and/or CDR lock. Transmission format may be indicated before or after transmission begins. Transmitter configuration error detection and recovery may be implemented by temporal interpretation. A transmitter may transmit data in an assumed/default format. A receiver may indicate the assumed transmission format is incompatible with the receiver configuration. A receiver may indicate a compatible transmission format, for example, based on timing or pulsing transitions in a temporally repurposed signal. A transmitter may respond to the repurposed signal indication by transmitting a different (e.g., compatible) format.