An output processing unit 112 generates image data of a game being played by a user. A ring buffer 118 records the image data generated by the output processing unit 112. A file generation unit 124 generates a map file which is used to reproduce the image data recorded on the ring buffer 118 in the order in which the image data has been recorded on the ring buffer 118, and then records the map file on a file recording unit 126.

Digital or analog samples are sent from a video source to a video storage subsystem that encodes the samples into analog levels, stores the analog levels for a period of time, decodes the analog levels back into digital samples and then sends the digital samples to a video sink for display, N samples are encoded into L analog levels for storage. The storage subsystem may be located at the video source, at the video sink, or anywhere in between the two. The storage subsystem may be located on an electromagnetic pathway over which the L encoded analog levels are transmitted from a video source as an analog signal. The L encoded analog levels are written to storage and then later read from storage and retransmitted over the electromagnetic pathway toward a video sink. The storage subsystem may also be integrated with a transmitter that encodes the samples into analog levels for storage or may be integrated with a receiver that stores the analog levels and then decodes the analog levels back into samples. A sentinel track in the storage array detects attenuation or offset which is then compensated for.

Digital or analog samples are sent from a video source to a video storage subsystem that encodes the samples into analog levels, stores the analog levels for a period of time, decodes the analog levels back into digital samples and then sends the digital samples to a video sink for display, N samples are encoded into L analog levels for storage. The storage subsystem may be located at the video source, at the video sink, or anywhere in between the two. The storage subsystem may be located on an electromagnetic pathway over which the L encoded analog levels are transmitted from a video source as an analog signal. The L encoded analog levels are written to storage and then later read from storage and retransmitted over the electromagnetic pathway toward a video sink. The storage subsystem may also be integrated with a transmitter that encodes the samples into analog levels for storage or may be integrated with a receiver that stores the analog levels and then decodes the analog levels back into samples. A sentinel track in the storage array detects attenuation or offset which is then compensated for.

A video is transmitted from a transmitting-side to a receiving-side by a preference transmission method that is any of a first transmission method and a second transmission method. The first transmission method transmits an original video as the video. The second transmission method generates a reduced video by reducing the original video and transmits the reduced video as the video. When receiving the reduced video, the receiving-side applies a super-resolution technique to the reduced video to improve the image quality. A first delay time is a transmission time by the first transmission method. A second delay time is a sum of a transmission time by the second transmission method and the super-resolution processing time. A transmission method corresponding to a shorter one of the first delay time and the second delay time is selected as the preference transmission method.

A video is transmitted from a transmitting-side to a receiving-side by a preference transmission method that is any of a first transmission method and a second transmission method. The first transmission method transmits an original video as the video. The second transmission method generates a reduced video by reducing the original video and transmits the reduced video as the video. When receiving the reduced video, the receiving-side applies a super-resolution technique to the reduced video to improve the image quality. A first delay time is a transmission time by the first transmission method. A second delay time is a sum of a transmission time by the second transmission method and the super-resolution processing time. A transmission method corresponding to a shorter one of the first delay time and the second delay time is selected as the preference transmission method.

In some embodiments, an apparatus includes a memory configured to store data and a controller coupled to the memory. The controller is configured to receive, from a computing device coupled to the apparatus, one or more frames of a digital video. The controller is also configured to analyze one or more components of the memory. The controller is further configured to determine a set of states for the one or more components of the memory based on the analysis of the one or more components of the memory. The controller is further configured to determine a first encoding rate for the digital video from a plurality of encoding rates based on the set of states for the one or more components of the memory. The controller is further configured to encode the digital video based on the first encoding rate and to store the encoded digital video in the memory.

The present technology relates to a reproduction device, a reproduction method, and a recording medium that enable content having a wide dynamic range of brightness to be displayed with an appropriate brightness. A recording medium, on which the reproduction device of one aspect of the present technology performs reproduction, records coded data of an extended video that is a video having a second brightness range that is wider than a first brightness range, brightness characteristic information that represents a brightness characteristic of the extended video, and brightness conversion definition information used when performing a brightness conversion of the extended video to a standard video that is a video having the first brightness range. The reproduction device decodes the coded data and converts the extended video obtained by decoding the coded data to the standard video on the basis of the brightness conversion definition information.

The present disclosure relates to systems and methods for transmitting a plurality of channels of primary analog signals to at least one terminal device. The method may include combining, by a signal combining device, the plurality of channels of primary analog signals into a combined analog signal. The method may also include transmitting, by the signal combining device, the combined analog signal to a signal dividing device via a cable. The method may further include dividing, by the signal dividing device, the combined analog signal into a plurality of channels of divided analog signals, each of the plurality of channels of divided analog signals corresponding to one of the plurality of channels of primary analog signals. The method may still further include transmitting, by the signal dividing device, the plurality of channels of divided analog signals to the at least one terminal device.

The present disclosure relates to systems and methods for transmitting a plurality of channels of primary analog signals to at least one terminal device. The method may include combining, by a signal combining device, the plurality of channels of primary analog signals into a combined analog signal. The method may also include transmitting, by the signal combining device, the combined analog signal to a signal dividing device via a cable. The method may further include dividing, by the signal dividing device, the combined analog signal into a plurality of channels of divided analog signals, each of the plurality of channels of divided analog signals corresponding to one of the plurality of channels of primary analog signals. The method may still further include transmitting, by the signal dividing device, the plurality of channels of divided analog signals to the at least one terminal device.

Disclosed are a method for playing a CEUS movie file, an ultrasound movie file, and ultrasound apparatus. The method comprises: receiving a playing instruction for the movie file which is a dynamic data of generated by ultrasound echoes returned from a target tissue to which ultrasound waves are transmitted by a probe of an ultrasound apparatus; determining an imaging frame rate of the ultrasound images; determining a playback frame rate of the movie file according to the imaging frame rate negatively correlated with the playback frame rate; and playing the movie file with the playback frame rate. By using the playback frame rate which is negatively correlated with the imaging frame rate to play movie files, the movie files with low frame rate can be played more smoothly and the movie files with high frame rate can be played in line with the look and feel of the human eye.