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公开(公告)号:US20110142357A1
公开(公告)日:2011-06-16
申请号:US12639696
申请日:2009-12-16
Applicant: Chih Yu Chang , Tzyh Chiang Oscal Chen
Inventor: Chih Yu Chang , Tzyh Chiang Oscal Chen
IPC: G06K9/36
CPC classification number: H04N19/436 , H04N19/91
Abstract: A variable length encoding (VLE) device of an image compression system is suitable for encoding transformed and quantized block image signals. The VLE device includes a plurality of encoding modules, for performing VLE on the block image signals; and a selection module (VLE module start controller), for selecting a number of the encoding modules in turn to encode the block image signals. The encoding modules are configured for parallel processing, and an operating frequency of each of the encoding modules is a fractional frequency of a throughput rate of the image compression system. The VLE device is not affected by the time consumed by the VLE in the image compression process, and enables the entire image compression system to operate as desired and achieve the required throughput rate.
Abstract translation: 图像压缩系统的可变长度编码(VLE)装置适用于编码经变换和量化的块图像信号。 VLE装置包括多个编码模块,用于对块图像信号执行VLE; 以及选择模块(VLE模块启动控制器),用于依次选择多个编码模块来对块图像信号进行编码。 编码模块被配置用于并行处理,并且每个编码模块的操作频率是图像压缩系统的吞吐率的分数频率。 VLE设备不受VLE在图像压缩过程中消耗的时间的影响,并使整个图像压缩系统能够根据需要进行操作并达到所需的吞吐率。
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Patent Agency Ranking
公开(公告)号:US08254709B2
公开(公告)日:2012-08-28
申请号:US12639696
申请日:2009-12-16
Applicant: Chih Yu Chang , Tzyh Chiang Oscal Chen
Inventor: Chih Yu Chang , Tzyh Chiang Oscal Chen
CPC classification number: H04N19/436 , H04N19/91
Abstract: A variable length encoding (VLE) device of an image compression system is suitable for encoding transformed and quantized block image signals. The VLE device includes a plurality of encoding modules, for performing VLE on the block image signals; and a selection module (VLE module start controller), for selecting a number of the encoding modules in turn to encode the block image signals. The encoding modules are configured for parallel processing, and an operating frequency of each of the encoding modules is a fractional frequency of a throughput rate of the image compression system. The VLE device is not affected by the time consumed by the VLE in the image compression process, and enables the entire image compression system to operate as desired and achieve the required throughput rate.
Abstract translation: 图像压缩系统的可变长度编码(VLE)装置适用于编码经变换和量化的块图像信号。 VLE装置包括多个编码模块,用于对块图像信号执行VLE; 以及选择模块(VLE模块启动控制器),用于依次选择多个编码模块来对块图像信号进行编码。 编码模块被配置用于并行处理,并且每个编码模块的操作频率是图像压缩系统的吞吐率的分数频率。 VLE设备不受VLE在图像压缩过程中消耗的时间的影响,并使整个图像压缩系统能够根据需要进行操作并达到所需的吞吐率。
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公开(公告)号:US20070046557A1
公开(公告)日:2007-03-01
申请号:US11467537
申请日:2006-08-25
Applicant: Oscal Chen , Timothy Chen , Kuo-Yu Chen , Chih-Chi Ling , Min-Chin Lee
Inventor: Oscal Chen , Timothy Chen , Kuo-Yu Chen , Chih-Chi Ling , Min-Chin Lee
IPC: H01Q9/28
Abstract: A wideband planar dipole antenna comprises a substrate and two antenna bodies. Metal conductor is printed on the single surface/double surfaces of the substrate to form the antenna bodies. With a dipole antenna architecture, the antenna bodies are manufactured as loop structures similar to concentric circles. The loop structures can be of rectangular or circular shapes. Loops of metal conductors with different lengths resonate to obtain similar but different frequencies. Each path of every antenna body can be finally connected with a metal conductor sheet capable of changing to any shape. Every path can interfere with adjacent paths to achieve the wideband effect. An asymmetric mechanism can be added in one of the antenna bodies. Besides letting the antenna have the resonance effect of the symmetric part, the loop path at the signal source can also be increased to enhance the receiving performance of the antenna.
Abstract translation: 宽带平面偶极天线包括基板和两个天线体。 金属导体印刷在基板的单面/双面上,形成天线体。 利用偶极天线架构,天线体被制造为类似于同心圆的环形结构。 环形结构可以是矩形或圆形。 具有不同长度的金属导体的环路谐振以获得相似但不同的频率。 每个天线体的每个路径可以最终与能够改变任何形状的金属导体片连接。 每个路径都可能干扰相邻的路径,以实现宽带效应。 可以在一个天线体中添加非对称机构。 除了使天线具有对称部分的谐振效应之外,还可以增加信号源的环路径,以增强天线的接收性能。
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4.发明申请公开(公告)号:US20070046800A1
公开(公告)日:2007-03-01
申请号:US11211670
申请日:2005-08-26
Applicant: Oscal Chen , Wei-Jean Liu , Hsiu-Fen Yeh
Inventor: Oscal Chen , Wei-Jean Liu , Hsiu-Fen Yeh
CPC classification number: H04N5/374 , H01L27/14609 , H04N5/35518
Abstract: The present invention discloses an apparatus of high dynamic-range CMOS image sensor and method thereof. The present invention utilize a pixel circuit outputting an output signal, wherein the pixel circuit has a photodiode and a plurality of transistors; and utilize a current source as a charge supplement unit to supply current into one end of the photodiode, and providing charges to the parasitic capacitor of the photodiode to delay saturation in the pixel circuit. In addition, a feedback circuit can be further designed connecting the pixel circuit. The feedback circuit receives the output signal from the pixel circuit and then outputs a control signal according to the output signal of the pixel circuit to control status of the charge supplement unit, and thereby increasing the dynamic range of the CMOS image sensor.
Abstract translation: 本发明公开了一种高动态范围CMOS图像传感器及其方法。 本发明利用输出输出信号的像素电路,其中像素电路具有光电二极管和多个晶体管; 并且利用电流源作为电荷补充单元来向光电二极管的一端提供电流,并向光电二极管的寄生电容器提供电荷以延迟像素电路中的饱和。 此外,可以进一步设计连接像素电路的反馈电路。 反馈电路从像素电路接收输出信号,然后根据像素电路的输出信号输出控制信号,控制电荷补充单元的状态,从而增加CMOS图像传感器的动态范围。
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公开(公告)号:US20060227968A1
公开(公告)日:2006-10-12
申请号:US11101921
申请日:2005-04-08
Applicant: Oscal Chen , Chia-Hsiung Liu
Inventor: Oscal Chen , Chia-Hsiung Liu
IPC: H04N7/167
CPC classification number: G10L19/018 , G11B20/00086 , G11B20/00891
Abstract: A time-dependent watermark system is provided for information integrity identification and tampering detection and damaged area reconstruction for digitally recorded speech that can be used as evidence in the court of law. The present invention utilizes the speech characteristics of frame, reconstruction information and time-dependent information to generate watermark for adding to the speech data at the secondary parameters where the impact on the speech quality is minimal. The present invention also provides a detection mechanism of tampering location and tamper way. The analysis scheme, according to the location and the type of the damaged watermark, determines the location and the way of tampering so that the reconstruction can be performed with the reconstruction information established in advance.
Abstract translation: 提供了时间依赖水印系统,用于信息完整性识别和篡改检测以及数字记录语音的损坏区域重建,可用作法庭证据。 本发明利用帧的语音特征,重构信息和时间依赖信息来产生水印,以便在对语音质量的影响最小的次要参数中添加语音数据。 本发明还提供了一种篡改位置和篡改方式的检测机制。 分析方案根据损坏水印的位置和类型确定篡改的位置和方式,以便可以用预先建立的重建信息进行重建。
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6.发明申请公开(公告)号:US20060171685A1
公开(公告)日:2006-08-03
申请号:US11156290
申请日:2005-06-18
Applicant: Oscal Chen , Chien-Fa Chen , Chih-Chang Chen , Fang-Chu Chen
Inventor: Oscal Chen , Chien-Fa Chen , Chih-Chang Chen , Fang-Chu Chen
IPC: H04N7/26
CPC classification number: H04N19/12 , H04N19/156 , H04N19/172 , H04N19/428 , H04N19/573 , H04N19/61
Abstract: A method for reducing memory size and amount of data accessed of a buffered-frame storage device in a video codec is provided. It is applicable to a codec compliant with a video encoding and decoding standard. When a block is decompressed, the block is stored in the buffered-frame storage device using either compression data or reconstructed data based on its encoded mode and the positions of its reference frames, or based on a topological pattern and a pre-determined memory capacity constraint. With this method, not only the memory size of the buffered-frame storage device, but also the computational complexity requirement for decoding compression data of reference frames is reduced. The present invention compromises among the buffered-frame memory size, amount of data accessed, and computational complexity requirement.
Abstract translation: 提供了一种用于减少视频编解码器中的缓冲帧存储设备的存储器大小和数据量的方法。 它适用于符合视频编码和解码标准的编解码器。 当块被解压缩时,使用压缩数据或基于其编码模式的重建数据或其参考帧的位置,或者基于拓扑模式和预定的存储容量,将块存储在缓冲帧存储设备中 约束。 利用这种方法,不仅缓冲帧存储设备的存储器大小,还降低了对参考帧的压缩数据进行解码的计算复杂度要求。 本发明在缓冲帧存储器大小,访问数据量和计算复杂度要求之间妥协。
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