The present technique relates to an image processing device and a method therefor allowing rate control to be performed more easily. An image encoding device that encodes image data to generate an encoded stream includes: a setting unit configured to set binary parameters used for defining the size, the accumulated data amount, and the like of a hypothetical decoder defined in the encoded stream obtained by encoding the image data in binary data generated by arithmetic coding; an encoding unit configured to encode image data to generate an encoded stream; and a transmitting unit configured to transmit the binary parameter set by the setting unit and the encoded stream generated by the encoding unit to an image decoding device that decodes the encoded stream via a predetermined transmission path such as a recording medium or a network. The present disclosure can be applied to image processing devices, for example.

A system, circuit and method are provided herein for reducing perceived flicker in video images transmitted using compression and bit rate control. According to one embodiment of the method, a parameter used in the video compression scheme is stored. The parameter stored is one that is subject to adjustment during normal operation of the video compression scheme. Compressed video frame data issued by a compression encoder is used to test for a still-picture condition. When a still-picture condition is detected, the value of the parameter used by the video compression scheme is fixed to the stored value for the duration of the still-picture condition. An embodiment of the system includes an encoder, buffer, bit rate controller, and flicker reduction circuit. An embodiment of the flicker reduction circuit includes a still-picture detection circuit operably coupled to a compressed data path beginning at the output of the encoder.

A system, circuit and method are provided herein for reducing perceived flicker in video images transmitted using compression and bit rate control. According to one embodiment of the method, a parameter used in the video compression scheme is stored. The parameter stored is one that is subject to adjustment during normal operation of the video compression scheme. Compressed video frame data issued by a compression encoder is used to test for a still-picture condition. When a still-picture condition is detected, the value of the parameter used by the video compression scheme is fixed to the stored value for the duration of the still-picture condition. An embodiment of the system includes an encoder, buffer, bit rate controller, and flicker reduction circuit. An embodiment of the flicker reduction circuit includes a still-picture detection circuit operably coupled to a compressed data path beginning at the output of the encoder.

Methods and apparatus for coding video information having a plurality of video samples are disclosed. Blocks for video data are coded by an encoder based upon a quantization parameter (QP) for each block. The QP used for each block may be limited by a maximum QP value. A buffer fullness of a buffer unit may be determined that indicates of a ratio between a number of bits currently occupied in the buffer unit and a current capacity of the buffer unit. The encoder may determine an adjustment value for the maximum QP based upon the determined buffer fullness. By dynamically adjusting the maximum QP for coding blocks of video data, distortion from quantization may be reduced while preventing the buffer unit from overflowing or emptying.

The disclosed invention is a enhancement to the Video Encoder component of the MPEG standard to improve both the efficiency and quality of the video presentation at the display device. The inventions described below pertain to the enhancement of video compression technology. In general, they are compatible with MPEG video standards (as in current art), but represent novel enhancements thereof. The above inventions apply to several transmission media and networks including cable, DSL, wireless, satellite and IP networks. Another category of invention in this disclosure enhances networking performance by recognizing that the transmitted information is video, rather than data. This invention can be scaled to other classes of multimedia data such as speech or audio or images.

The disclosed invention is a enhancement to the Video Encoder component of the MPEG standard to improve both the efficiency and quality of the video presentation at the display device. The inventions described below pertain to the enhancement of video compression technology. In general, they are compatible with MPEG video standards (as in current art), but represent novel enhancements thereof. The above inventions apply to several transmission media and networks including cable, DSL, wireless, satellite and IP networks. Another category of invention in this disclosure enhances networking performance by recognizing that the transmitted information is video, rather than data. This invention can be scaled to other classes of multimedia data such as speech or audio or images.

Described herein are techniques related to wirelessly streaming content to a remote display device. Parameters are selected for the streaming based on content information received via an application programming interface (API) associated with a media player. This Abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.

Described herein are techniques related to wirelessly streaming content to a remote display device. Parameters are selected for the streaming based on content information received via an application programming interface (API) associated with a media player. This Abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.

A method of managing a network bandwidth by controlling of an image compression rate and controlling of a frame generation, and an image transmission system using the same are provided. The method includes approving generation of an intra-frame (I-frame) for one among a plurality of image compression hardware (H/W) units, storing compressed image data compressed by the plurality of image compression H/W units in a plurality of buffers corresponding to the plurality of image compression H/W units, controlling a data storage level of the plurality of buffers, and encapsulating the compressed image data stored in each of the plurality of buffers into a network packet and transmitting the encapsulated image data to the outside through an external network.

A method of managing a network bandwidth by controlling of an image compression rate and controlling of a frame generation, and an image transmission system using the same are provided. The method includes approving generation of an intra-frame (I-frame) for one among a plurality of image compression hardware (H/W) units, storing compressed image data compressed by the plurality of image compression H/W units in a plurality of buffers corresponding to the plurality of image compression H/W units, controlling a data storage level of the plurality of buffers, and encapsulating the compressed image data stored in each of the plurality of buffers into a network packet and transmitting the encapsulated image data to the outside through an external network.