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    • 1. 发明申请
    • Image capturing apparatus, imaging circuit, and image capturing method
    • 图像捕获装置,成像电路和图像捕获方法
    • US20070223824A1
    • 2007-09-27
    • US11710622
    • 2007-02-23
    • Fumiaki KatoKen Nakajima
    • Fumiaki KatoKen Nakajima
    • G06K9/36
    • H04N19/98H04N5/335H04N5/772H04N5/775H04N5/85H04N5/907H04N9/7921H04N9/8047H04N2101/00H04N2201/0084
    • An image capturing apparatus for capturing an image with solid state imaging devices may include a compressing section, a memory, a decompressing section, and a signal processing section. The compressing section may compress digitalized data of an image captured with the solid state imaging devices. The memory may temporarily store the compressed image data that is compressed by the compressing section. The decompressing section may decompress the compressed image data that is read out from the memory. The signal processing section may perform an image quality correction operation on the image data decompressed by the decompressing section. The compressed image data may contain a maximum value and a minimum value of pixel data in a block, information regarding positions of the maximum value and the minimum value in the block, and quantized data.
    • 用于使用固态成像装置捕获图像的图像捕获装置可以包括压缩部分,存储器,解压缩部分和信号处理部分。 压缩部分可以压缩用固态成像装置捕获的图像的数字化数据。 存储器可以临时存储由压缩部分压缩的压缩图像数据。 解压缩部分可以解压缩从存储器读出的压缩图像数据。 信号处理部分可以对由解压缩部分解压缩的图像数据执行图像质量校正操作。 压缩图像数据可以包含块中的像素数据的最大值和最小值,关于块中的最大值和最小值的位置的信息以及量化数据。
    • 2. 发明授权
    • Imaging apparatus, imaging circuit and imaging method
    • 成像设备,成像电路和成像方法
    • US08013910B2
    • 2011-09-06
    • US12123340
    • 2008-05-19
    • Fumiaki KatoKen Nakajima
    • Fumiaki KatoKen Nakajima
    • H04N5/235H04N5/76G06K9/00G06K9/40G06K9/46G06K9/56
    • H04N19/90H04N19/124H04N19/136H04N19/17H04N19/42
    • An image by using a solid-state imaging sensor, the imaging apparatus including: a compression section configured to compress image data by dividing the image data into blocks each composed of same color component pixels adjacent to each other as a unit of compression; a memory used for temporarily storing compressed image data; a decompression section configured to decompress the compressed image data read out from the memory; and a signal processing section configured to carry out an image-quality correction process on decompressed image data, wherein each of the blocks is split in advance into two quantization-subject areas, block types are distinguished from each other by the position of the inter-area boundary between the two quantization-subject areas, and the compression section has a dynamic-range computation sub-section, a block-type select sub-section, and a quantization processing sub-section are provided.
    • 通过使用固态成像传感器的图像,所述成像装置包括:压缩部,被配置为通过将图像数据划分为由彼此相邻的相同颜色分​​量像素组成的块作为压缩单位来压缩图像数据; 用于临时存储压缩图像数据的存储器; 解压缩部,被配置为对从所述存储器读出的压缩图像数据进行解压缩; 以及信号处理部,被配置为对解压缩图像数据执行图像质量校正处理,其中每个块被预先分割成两个量化对象区域,块类型通过帧间间隔的位置彼此区分开, 两个量化对象区域之间的区域边界,并且压缩部分具有动态范围计算子部分,块型选择子部分和量化处理子部分。
    • 3. 发明授权
    • Image capturing apparatus, imaging circuit, and image capturing method
    • 图像捕获装置,成像电路和图像捕获方法
    • US08023748B2
    • 2011-09-20
    • US11710622
    • 2007-02-23
    • Fumiaki KatoKen Nakajima
    • Fumiaki KatoKen Nakajima
    • G06K9/36
    • H04N19/98H04N5/335H04N5/772H04N5/775H04N5/85H04N5/907H04N9/7921H04N9/8047H04N2101/00H04N2201/0084
    • An image capturing apparatus for capturing an image with solid state imaging devices may include a compressing section, a memory, a decompressing section, and a signal processing section. The compressing section may compress digitalized data of an image captured with the solid state imaging devices. The memory may temporarily store the compressed image data that is compressed by the compressing section. The decompressing section may decompress the compressed image data that is read out from the memory. The signal processing section may perform an image quality correction operation on the image data decompressed by the decompressing section. The compressed image data may contain a maximum value and a minimum value of pixel data in a block, information regarding positions of the maximum value and the minimum value in the block, and quantized data.
    • 用于使用固态成像装置捕获图像的图像捕获装置可以包括压缩部分,存储器,解压缩部分和信号处理部分。 压缩部分可以压缩用固态成像装置捕获的图像的数字化数据。 存储器可以临时存储由压缩部分压缩的压缩图像数据。 解压缩部分可以解压缩从存储器读出的压缩图像数据。 信号处理部分可以对由解压缩部分解压缩的图像数据执行图像质量校正操作。 压缩图像数据可以包含块中的像素数据的最大值和最小值,关于块中的最大值和最小值的位置的信息以及量化数据。
    • 4. 发明申请
    • IMAGING APPARATUS, IMAGING CIRCUIT AND IMAGING METHOD
    • 成像设备,成像电路和成像方法
    • US20080291295A1
    • 2008-11-27
    • US12123340
    • 2008-05-19
    • Fumiaki KatoKen Nakajima
    • Fumiaki KatoKen Nakajima
    • H04N5/225G06K9/00
    • H04N19/90H04N19/124H04N19/136H04N19/17H04N19/42
    • An image by using a solid-state imaging sensor, the imaging apparatus including: a compression section configured to compress image data by dividing the image data into blocks each composed of same color component pixels adjacent to each other as a unit of compression; a memory used for temporarily storing compressed image data; a decompression section configured to decompress the compressed image data read out from the memory; and a signal processing section configured to carry out an image-quality correction process on decompressed image data, wherein each of the blocks is split in advance into two quantization-subject areas, block types are distinguished from each other by the position of the inter-area boundary between the two quantization-subject areas, and the compression section has a dynamic-range computation sub-section, a block-type select sub-section, and a quantization processing sub-section are provided.
    • 通过使用固态成像传感器的图像,所述成像装置包括:压缩部,被配置为通过将图像数据划分为由彼此相邻的相同颜色分​​量像素组成的块作为压缩单位来压缩图像数据; 用于临时存储压缩图像数据的存储器; 解压缩部,被配置为对从所述存储器读出的压缩图像数据进行解压缩; 以及信号处理部,被配置为对解压缩图像数据执行图像质量校正处理,其中每个块被预先分割成两个量化对象区域,块类型通过帧间间隔的位置彼此区分开, 两个量化对象区域之间的区域边界,并且压缩部分具有动态范围计算子部分,块型选择子部分和量化处理子部分。
    • 5. 发明授权
    • Face detection device, imaging apparatus and face detection method
    • 面部检测装置,成像装置和面部检测方法
    • US09495578B2
    • 2016-11-15
    • US13344191
    • 2012-01-05
    • Miyuki OkadaKen Nakajima
    • Miyuki OkadaKen Nakajima
    • G06K9/00H04N5/232
    • G06K9/00228H04N5/23219
    • A face detection device for detecting the face of a person in an input image may include the following elements: a face detection circuit including a hardware circuit configured to detect a face in an input image; a signal processing circuit configured to perform signal processing based on an input image signal in accordance with a rewritable program including a face detection program for detecting a face in an input image; and a controller configured to allow the face detection circuit and the signal processing circuit to perform face detection on an image of a frame or on respective images of adjacent frames among consecutive frames, and to control face detection by the signal processing circuit on the basis of a face detection result obtained by the face detection circuit.
    • 用于检测输入图像中的人脸的脸部检测装置可以包括以下元件:面部检测电路,包括被配置为检测输入图像中的脸部的硬件电路; 信号处理电路,被配置为根据包括用于检测输入图像中的面部的面部检测程序的可重写程序,基于输入图像信号执行信号处理; 以及控制器,其被配置为允许所述面部检测电路和所述信号处理电路对连续帧中的帧的图像或相邻帧的各个图像执行面部检测,并且基于所述信号处理电路来控制所述信号处理电路的面部检测 由脸部检测电路获得的面部检测结果。
    • 7. 发明授权
    • Imaging apparatus, imaging method, and program
    • 成像设备,成像方法和程序
    • US08102434B2
    • 2012-01-24
    • US11556304
    • 2006-11-03
    • Tsuyoshi YoshidaNobuyuki SatoKen Nakajima
    • Tsuyoshi YoshidaNobuyuki SatoKen Nakajima
    • H04N5/225H04N5/00
    • H04N5/232H04N5/23245H04N9/045H04N9/07
    • An imaging apparatus capturing and recording a moving image and a static image at the same time includes a converter converting an optical image of a subject into a pixel signal, performing decimation on the pixel signal and outputting the pixel signal that has been subjected to decimation when recording of the moving image is performed but recording of the static image is not performed, and outputting the pixel signal that has not been subjected to decimation when recording of the moving image and the static image is performed; an eliminating section performing decimation on the pixel signal output from the converter only when recording of the moving image and the static image is performed; a moving image data generator generating moving image data; a static image data generator generating static image data; and a recorder recording the moving image data and the static image data.
    • 同时拍摄和记录运动图像和静态图像的成像装置包括将被摄体的光学图像转换为像素信号的转换器,对像素信号执行抽取并输出已经进行抽取的像素信号,当 执行运动图像的记录,而不执行静态图像的记录,并且当执行运动图像和静态图像的记录时,输出未进行抽取的像素信号; 消除部,仅在进行运动图像和静态图像的记录时,对从转换器输出的像素信号进行抽取; 生成运动图像数据的运动图像数据生成器; 产生静态图像数据的静态图像数据发生器; 以及记录运动图像数据和静态图像数据的记录器。
    • 8. 发明申请
    • IMAGE PROCESSING APPARATUS AND METHOD, RECORDING MEDIUM, AND PROGRAM
    • 图像处理设备和方法,记录介质和程序
    • US20090067744A1
    • 2009-03-12
    • US12264500
    • 2008-11-04
    • Isao KAWANISHIMiyuki OkadaNobuyuki SatoKen Nakajima
    • Isao KAWANISHIMiyuki OkadaNobuyuki SatoKen Nakajima
    • G06K9/40
    • H04N5/243H04N5/217H04N5/23296H04N9/646
    • For each pixel read from an imaging device, a horizontal counter value and a vertical counter value corresponding to the pixel are supplied from a signal generator to a distance computation section via an optical-axis-center coordinate setting section and an up-and-down and right-and-left weighting section. In the distance computation section, the distance to the optical-axis center is computed, and correction coefficients for the zoom wide end and for the zoom tele end, which correspond to the distance, are obtained by look-up tables. The two obtained correction coefficients are blended at a mixture ratio determined by a blend ratio setting section. The blended shading correction coefficients are gain adjusted by a gain adjustment section, after which they are supplied to a correction section. As a result, a correction corresponding to the distance to the optical-axis-center position is performed on the signal of each pixel supplied from an imaging section.
    • 对于从成像装置读取的每个像素,将与像素相对应的水平计数器值和垂直计数器值经由光轴中心坐标设定部和上下方向从信号发生器供给到距离计算部 和右,右加权部分。 在距离计算部分中,计算到光轴中心的距离,并且通过查找表获得与距离对应的变焦宽端和变焦远端的校正系数。 将两个获得的校正系数以由混合比设置部确定的混合比混合。 混合阴影校正系数是通过增益调整部分调整的增益,之后将它们提供给校正部分。 结果,对从摄像部提供的每个像素的信号执行与光轴中心位置的距离相对应的校正。
    • 9. 发明授权
    • Image pickup apparatus and method
    • 图像拾取装置和方法
    • US07433531B2
    • 2008-10-07
    • US10468981
    • 2002-12-10
    • Isao KawanishiTomohiko NaruseKen Nakajima
    • Isao KawanishiTomohiko NaruseKen Nakajima
    • G06K9/36G06K9/38G06K9/46H04N1/41
    • H04N5/772H04N5/907H04N9/8047H04N9/8227H04N19/115H04N19/117H04N19/124H04N19/136H04N19/149H04N19/15H04N19/162H04N19/176H04N19/59H04N19/60H04N19/80H04N2101/00H04N2201/33357
    • The present invention relates to an image capturing apparatus and method in which the image recording time is reduced and the memory capacity required for compression is also reduced. A number-of-bytes calculation unit 302 determines the number of bytes after compression based on an integrated value of high-frequency integrated data supplied from a high-frequency integration processor. Based on the determined number of bytes, a Q-scale calculation unit 303 determines a Q-scale based on which the image data can be compressed one time to a predetermined data size. A Q-table generation unit 304 generates a Q-table based on the Q-scale. A DCT unit 321 performs a discrete cosine transform on the input image data. A quantization processor 322 adjusts the compression ratio of the image data based on the up-to-date Q-table supplied from the Q-table generation unit 304. A variable-length coding processor 323 encodes the image data with variable length coding such as Huffman coding, and outputs the resulting compressed image data. The present invention is applicable to digital cameras.
    • 本发明涉及图像记录时间缩短并且压缩所需的存储容量也降低的图像捕获装置和方法。 字节数计算单元302基于从高频积分处理器提供的高频综合数据的积分值来确定压缩后的字节数。 基于所确定的字节数,Q尺度计算单元303根据其可以将图像数据压缩一次到预定数据大小来确定Q标度。 Q表生成单元304基于Q量表生成Q表。 DCT单元321对输入图像数据执行离散余弦变换。 量化处理器322基于从Q表生成单元304提供的最新的Q表来调整图像数据的压缩比。 可变长度编码处理器323对诸如霍夫曼编码之类的可变长度编码的图像数据进行编码,并输出所得到的压缩图像数据。 本发明适用于数码相机。