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image processing device comprising
Vertaling van "image processing device comprising" in Japans
備える画像処理装置
Provided is an image processing device comprising: a region setting unit that sets an analysis region within an image in accordance with input from a user; an analysis unit that acquires color information for the analysis region; a reference color determination unit that determines a reference color for use as a reference for image processing from the color information acquired by the analysis unit; and an image processing unit that applies processing to the image on the basis of the reference color.
ユーザからの入力に応じて画像中に解析領域を設定する領域設定部と、解析領域の色情報を取得する解析部と、解析部により取得された色情報から画像処理の基準となる基準色を決定する基準色決定部と、基準色に基づいて、画像に処理を施す画像処理部とを備える画像処理装置である。
An image processing device (31) of an embodiment of the present invention carries out an image process for a facial image which includes a person's mouth, said image processing device comprising: a teeth color similarity identification unit (51) which, for each location of a first region which includes at least a portion of a mouth of a facial image, identifies, on the basis of the difference between the color of each location and a representative color of teeth, a likelihood that the location is a tooth as a first organ likelihood; a teeth location significance determination unit (52) which determines a first significance such that the first significance declines the greater the distance from the first location of the first region; a teeth correction degree determination unit (53) which determines a degree of correction of the location such that the correction degree increases the greater the first organ likelihood and the first significance; and a teeth image correction unit (54) which uses the correction degree to correct the image.
Provided is an image processing device comprising: an image input unit that inputs an image for enlargement and parallax information for said image; an enlargement ratio input unit that inputs an enlargement ratio for said image; and a focus region setting unit that sets the image focus region.
画像処理装置は、拡大処理を施す画像と、画像に対応する視差情報とを入力する画像入力部と、画像の拡大率を入力する拡大率入力部と、画像の合焦領域を設定する合焦領域設定部とを備える。
Provided is an image processing device comprising: an assessment unit which assesses whether motion information of a current block which is an object of processing matches motion information of a collocated block which is positioned in the temporal periphery of the current block; and a merge information generation unit which, when a match is assessed by the assessment unit, generates temporal merge information which designates the collocated block to be a block which is temporally merged with the current block.
処理対象であるカレントブロックの動き情報と前記カレントブロックの時間的に周辺に位置するコロケーテッドブロックの動き情報とが一致するかを判定する判定部と、前記判定部により一致すると判定された場合に、前記コロケーテッドブロックを、前記カレントブロックと時間的にマージさせるブロックとして指定するテンポラルマージ情報を生成するマージ情報生成部とを備える画像処理装置を提供する。
Disclosed is an image processing device comprising image-acquisition means for getting an input image; and image restoring process means for generating a restored image by computing an image restoring filter based on the input image and a transfer function of an image capturing system used to form a subject image as the input image, wherein the image-restoring filter restores so that a difference of two color component spectra in the restored image is reduced more than the difference of the two color component spectra in the input image, when the subject image is a white point light source.
An image processing device comprising: an image display means which can display one of multiple images to be converted including at least an object of interest; a first reference point acceptance determination means which can accept the information on a first reference point candidate and a determination signal for the first reference point candidate which is displayed on an image to be converted based on the information on the first reference point candidate in answer to the operation by a user, and can determine a first reference point based on the information on the first reference point candidate for which the accepted determination signal has been determined; a second reference point acceptance determination means which can accept the information on a second reference point and can determine the second reference point; and a geometric conversion means which can convert the image to be converted geometrically and can output a converted image based on the first reference point that has been determined by the first reference point acceptance determination means and the second reference point that has been determined by the second reference point acceptance determination means.
An image processing device for sequentially generating a composite image each time a second image is inputted by connecting a first image constituted of a single image or a plurality of images jointed together with the inputted second image, the image processing device comprising: a center position acquiring unit (11) for acquiring the position information of a first center point as a center point of each of the images constituting the first image, and the position information of a second center point as a center point of the second image; and a composite image generating unit (12) for acquiring the first center points of images constituting the first image, which are superimposed on the second image, and generating a composite image by connecting the first image with the second image, using as a connection line a perpendicular bisector between the acquired first center point and second center point on the basis of the acquired position information of the first center point and position information of the second center point.
1枚の画像又は画像を複数つなぎ合わせて構成される第1画像と入力された第2画像とを当該第2画像の入力の度につなぎ合わせて合成画像を逐次生成する画像処理装置であって、第1画像を構成する画像それぞれの中心点である第1中心点の位置情報、及び第2画像の中心点である第2中心点の位置情報を取得する中心位置取得部11と、第1画像を構成する画像のうち第2画像と重なる画像の第1中心点を取得し、取得された第1中心点の位置情報及び第2中心点の位置情報に基づいて、取得された第1中心点と第2中心点との垂直二等分線を第1画像及び第2画像のつなぎ目としてつなぎ合わせ合成画像を生成する合成画像生成部12と、を備えて構成される。
An image processing device comprising an image signal input unit (11) for inputting a plurality of image signals different in exposure time, first and second level conversion factors computing units (12, 13) for computing the level conversion factors of a plurality of image signals, a weighting factor computing unit (14) for computing the weighting factors of a plurality of image signals, and an adding unit (17) for adding a plurality of image signals multiplied by respective level conversion factors to those multiplied by respective weighting factors, whereby it is possible to simply obtain wide-dynamic-range images and reduce small image information defects due to the accumulation of processing delays and computing errors.
[Problem] It has not conventionally been possible to obtain a required image effectively using a two-dimensional image and a three-dimensional image of the same object. [Solution] A required image can be obtained with an image processing device comprising: a two-dimensional image with depth information processing unit which stores a three-dimensional image which is image data of one or more three-dimensional objects and is configured from a plurality of voxel information having location information, color information, and depth information, and a two-dimensional image with depth information which is an image photographed of one or more three-dimensional objects, is aligned in location with the three-dimensional image, and is configured from a plurality of pixel information having location information, color information, and depth information, said two-dimensional image processing unit carrying out a first image process on the two-dimensional image with depth information using the depth information and acquiring a post-processing two-dimensional image with depth information; an extended image generation unit which generates an extended image in which the post-processing two-dimensional image with depth information and the three-dimensional image are overlapped; and an output unit which outputs the extended image.
【解決手段】1以上の三次元の物体の画像データであり、位置情報と色情報と深さ情報とを有する複数のボクセル情報から構成される三次元画像と、1以上の三次元の物体を撮影した画像であり、三次元画像と位置合わせがされている画像であり、位置情報と色情報と深さ情報とを有する複数のピクセル情報から構成される深さ情報付き二次元画像を格納しており、深さ情報付き二次元画像に対して、深さ情報を用いて、第一の画像処理を行い、処理後深さ情報付き二次元画像を取得する深さ情報付き二次元画像処理部と、処理後深さ情報付き二次元画像と三次元画像とを重ね合わせた拡張像を生成する拡張像生成部と、拡張像を出力する出力部とを具備する画像処理装置により、必要な画像を得ることができる。
[Solution] Provided is an image processing device comprising: an image acquisition unit that acquires captured images of real spaces from an image capture device; a setting unit that associates and sets, with the real spaces, augmented reality spaces that are virtually augmented versions of the real spaces shown in the captured images; and a control unit that determines the target position for an action that is to be implemented within the augmented reality space on the basis of the positional relationship between the optical axis of the image capture device and an object within the augmented reality space.
【解決手段】撮像装置から実空間の撮像画像を取得する画像取得部と、前記撮像画像に映る前記実空間を仮想的に拡張する拡張現実空間を前記実空間に関連付けて設定する設定部と、前記拡張現実空間内のオブジェクトと前記撮像装置の光軸との間の位置関係に基づいて、前記拡張現実空間内で実行されるアクションの対象位置を決定する制御部と、を備える情報処理装置を提供する。
Provided is an image processing device comprising: a scaler unit (2) that outputs up-converted image signals (UV) that have input image signals (Vin) that contain a noise component and that have been converted to a higher resolution in the horizontal direction in a frame image; and noise reduction sections (4-1, 4-2, 4-3) that take in the up-converted image signals (UV) and detect noise-containing pixels in a pixel row in the horizontal direction, and corrects pixel values in noise-containing pixels such that the noise component is reduced.
[Problem] To reduce the code amount of an enhancement layer by improving how to reuse a reconstructed image in a BLR mode. [Solution] Provided is an image processing device comprising: a base layer decoding unit for decoding the encoded stream of a base layer to generate the reconstructed image of the base layer; and a prediction control unit for, by using the reconstructed image generated by the base layer decoding unit, controlling a prediction mode selected when generating a prediction image of an enhancement layer.
【解決手段】ベースレイヤの符号化ストリームを復号して、前記ベースレイヤのリコンストラクト画像を生成するベースレイヤ復号部と、前記ベースレイヤ復号部により生成される前記リコンストラクト画像を用いて、エンハンスメントレイヤの予測画像を生成する際に選択される予測モードを制御する予測制御部と、を備える画像処理装置を提供する。
[Problem] To reduce the amount of coding required for prediction mode information when coding a plurality of layers by using different image coding methods in scalable video coding. [Solution] Provided is an image processing device comprising a base layer prediction unit and an enhancement layer prediction unit.
【課題】スケーラブル符号化において複数のレイヤを異なる画像符号化方式で符号化する場合に、予測モード情報のために要する符号量を削減すること。
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