JPH11196382A - In-field interpolation method and circuit - Google Patents
In-field interpolation method and circuitInfo
- Publication number
- JPH11196382A JPH11196382A JP9369510A JP36951097A JPH11196382A JP H11196382 A JPH11196382 A JP H11196382A JP 9369510 A JP9369510 A JP 9369510A JP 36951097 A JP36951097 A JP 36951097A JP H11196382 A JPH11196382 A JP H11196382A
- Authority
- JP
- Japan
- Prior art keywords
- video signal
- scanning line
- interpolation
- signal
- input
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、入力した映像信号
(例えばインタレース走査用の映像信号)を、その走査
線を2倍にした映像信号(例えばプログレッシブ走査用
の映像信号)に変換する際に用いられるフィールド内内
挿方法及び回路に関するものである。例えば、PDP
(プラズマディスプレイパネル)やLCD(液晶ディス
プレイ)パネルを表示パネルに用いた表示装置内のディ
ジタル映像信号処理において、インタレース走査用の映
像信号をプログレッシブ走査用の映像信号に変換する際
に、同一フィールド内の走査線補間で補間走査線(内挿
点を結ぶ走査線)の映像信号を求めるフィールド内内挿
方法及び回路に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for converting an input video signal (for example, an interlace scanning video signal) into a video signal whose scanning line is doubled (for example, a progressive scanning video signal). Field interpolation method and circuit used in the method. For example, PDP
In a digital video signal processing in a display device using a (plasma display panel) or an LCD (liquid crystal display) panel as a display panel, when the video signal for interlaced scanning is converted into the video signal for progressive scanning, the same field is used. The present invention relates to a field interpolation method and circuit for obtaining a video signal of an interpolated scanning line (a scanning line connecting interpolation points) by scanning line interpolation.
【0002】[0002]
【従来の技術】従来、この種のフィールド内内挿方法
は、図4に示す回路を用いた0次内挿方法や、図5に示
す回路を用いた平均値内挿方法によって行われていた。
図4に示す回路を用いた0次内挿方法は、入力端子10
に入力したインタレース走査用の映像信号Viを1ライ
ン遅延部12で1ライン分遅延させて補間走査線の映像
信号を作成し、メモリへの書き込みに対して2倍の速さ
のクロックで読み出す倍速変換部14によって、出力端
子16からプログレッシブ走査用の映像信号Vpを出力
するようにしていた。倍速変換部14は、これに限るも
のでないが、例えば、入力端子10に入力した映像信号
を記憶可能な第1メモリ(例えばラインメモリ)と1ラ
イン遅延部12で遅延させた補間走査線の映像信号を記
憶可能な第2メモリ(例えばラインメモリ)とを有し、
第1、第2メモリへの書き込みに対して2倍の速さのク
ロックで1ライン毎に交互に読み出すことにより、出力
端子16からプログレッシブ走査用の映像信号Vpを出
力する。この映像信号は、図6に示すような、上側の走
査線の映像信号をそのまま補間走査線の映像信号として
用いたものとなる。図5に示す回路を用いた平均値内挿
方法は、加算器18と乗算器20からなる内挿点演算部
22によって、入力端子10に入力したインタレース走
査用の映像信号Viと、この映像信号を1ライン遅延部
12で1ライン分遅延させた信号とを平均化して補間走
査線の映像信号を作成し、倍速変換部14を用いて出力
端子16からプログレッシブ走査用の映像信号Vpを出
力するようにしていた。この映像信号Vpは、図7に示
すような、上側と下側の走査線の映像信号を平均化した
信号を補間走査線の映像信号として用いたものとなる。2. Description of the Related Art Conventionally, this kind of field interpolation method has been performed by a zero-order interpolation method using a circuit shown in FIG. 4 or an average value interpolation method using a circuit shown in FIG. .
The 0-order interpolation method using the circuit shown in FIG.
The video signal Vi for interlaced scanning input into the memory is delayed by one line by the one-line delay unit 12 to generate a video signal of an interpolated scanning line, and is read out with a clock twice as fast as writing to the memory. The double-speed conversion unit 14 outputs a video signal Vp for progressive scanning from the output terminal 16. The double-speed conversion unit 14 is not limited to this. For example, a first memory (for example, a line memory) capable of storing a video signal input to the input terminal 10 and an image of an interpolation scanning line delayed by the one-line delay unit 12 A second memory (for example, a line memory) capable of storing a signal,
A video signal Vp for progressive scanning is output from the output terminal 16 by alternately reading out each line with a clock twice as fast as writing to the first and second memories. As this video signal, the video signal of the upper scanning line as shown in FIG. 6 is used as it is as the video signal of the interpolation scanning line. The average value interpolation method using the circuit shown in FIG. 5 is based on an interlaced scanning video signal Vi input to the input terminal 10 by the interpolation point calculation unit 22 including the adder 18 and the multiplier 20. The signal obtained by averaging the signal obtained by delaying the signal by one line in the one-line delay unit 12 to generate a video signal of the interpolation scanning line, and outputting the video signal Vp for progressive scanning from the output terminal 16 using the double-speed conversion unit 14 I was trying to do it. As the video signal Vp, a signal obtained by averaging the video signals of the upper and lower scanning lines as shown in FIG. 7 is used as the video signal of the interpolation scanning line.
【0003】[0003]
【発明が解決しようとする課題】しかしながら、図4に
示す0次内挿方法を用いた回路では、図6に示すよう
に、補間走査線の映像信号として、隣接する上側の走査
線の映像信号をそのまま用いているので、画像が滑らか
に変化している部分でギザギザが目立つという問題点が
あった。また、図5に示す平均値内挿方法を用いた回路
では、図7に示すように、補間走査線の映像信号とし
て、補間走査線の上側と下側に隣接する走査線の映像信
号を平均化した信号を用いているので、画像の輪郭部分
が滑らかになって輪郭が失われるという問題点があっ
た。However, in the circuit using the zero-order interpolation method shown in FIG. 4, as shown in FIG. 6, the video signal of the adjacent upper scanning line is used as the video signal of the interpolation scanning line. Is used as it is, so that there is a problem that jaggedness is noticeable in a portion where the image changes smoothly. Further, in the circuit using the average value interpolation method shown in FIG. 5, as shown in FIG. 7, the video signals of the adjacent scanning lines above and below the interpolation scanning line are averaged as the video signals of the interpolation scanning line. Since the converted signal is used, there has been a problem that the outline portion of the image becomes smooth and the outline is lost.
【0004】本発明は、上述の問題点に鑑みなされたも
ので、画像が滑らかに変化している部分ではギザギザが
目立たないとともに、画像の輪郭部分では輪郭が失われ
ることのない内挿を行うことのできるフィールド内内挿
方法及び回路を提供することを目的とする。SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and performs interpolation in which jaggies are not conspicuous in a portion where an image changes smoothly and contours are not lost in a contour portion of the image. It is an object of the present invention to provide a field interpolation method and circuit which can perform the field interpolation.
【0005】[0005]
【課題を解決するための手段】請求項1、2の発明は、
入力した映像信号(例えばインタレース走査用の映像信
号)を、その走査線を2倍にした映像信号(例えばプロ
グレッシブ走査用の映像信号)に変換する際に用いられ
るフィールド内内挿方法において、補間走査線の上側と
下側に隣接する走査線の入力映像信号から輪郭量を検出
し、輪郭量が設定値より大きいときには補間走査線の上
側又は下側に隣接する走査線の入力映像信号を補間走査
線の映像信号とし、輪郭量が設定値より小さいときには
補間走査線の上側と下側に隣接する走査線の入力映像信
号を平均化した信号を補間走査線の映像信号としてなる
ことを特徴とする。According to the first and second aspects of the present invention,
In a field interpolation method used when converting an input video signal (for example, an interlace scanning video signal) to a video signal whose scanning line is doubled (for example, a progressive scanning video signal), interpolation is performed. The contour amount is detected from the input video signals of the scanning lines adjacent to the upper and lower sides of the scanning line, and when the contour amount is larger than the set value, the input video signal of the scanning line adjacent to the upper or lower side of the interpolation scanning line is interpolated. When the contour amount is smaller than the set value, a signal obtained by averaging the input video signals of the scanning lines adjacent to the upper side and the lower side of the interpolation scanning line is used as the video signal of the interpolation scanning line. I do.
【0006】請求項3、4の発明は、請求項1、2の発
明方法を実施する回路の発明であって、入力映像信号を
1ライン分遅延させる1ライン遅延部と、この1ライン
遅延信号と入力映像信号とに基づいて入力映像信号の輪
郭量を検出する輪郭量検出部と、この検出した輪郭量を
設定値と比較する比較部と、この比較出力に応じて、補
間走査線の上側又は下側に隣接する走査線の入力映像信
号と補間走査線の上側と下側に隣接する走査線の入力映
像信号を平均化した信号とを切り換え、補間走査線の映
像信号として出力する内挿点演算部とを具備してなるこ
とを特徴とする。According to a third aspect of the present invention, there is provided a circuit for implementing the method of the first or second aspect, wherein a one-line delay unit for delaying an input video signal by one line, and the one-line delay signal A contour amount detector for detecting a contour amount of the input video signal based on the input video signal, a comparator for comparing the detected contour amount with a set value, and an upper portion of the interpolation scanning line corresponding to the comparison output. Alternatively, an interpolation that switches between an input video signal of a scanning line adjacent to the lower side and a signal obtained by averaging the input video signals of the scanning lines adjacent to the upper side and the lower side of the interpolation scanning line, and outputs the signal as a video signal of the interpolation scanning line. And a point calculation unit.
【0007】画像の輪郭成分が所定以上で輪郭量検出部
で検出した輪郭量が設定値より大きいときには、比較部
の比較出力によって補間走査線の上側又は下側に隣接す
る走査線の入力映像信号が補間走査線の映像信号として
出力するので、輪郭を失わない内挿をすることができ
る。画像の輪郭成分が所定以下で輪郭量検出部で検出し
た輪郭量が設定値より小さいときには、比較部の比較出
力によって補間走査線の上側と下側に隣接する走査線の
入力映像信号を平均化させた信号が補間走査線の映像信
号として出力するので、画像の滑らかな変化部分でギザ
ギザが目立たない内挿をすることができる。When the contour component of the image is equal to or more than a predetermined value and the contour amount detected by the contour amount detecting section is larger than the set value, the input video signal of the scanning line adjacent to the upper or lower side of the interpolation scanning line is obtained by the comparison output of the comparing section. Is output as the video signal of the interpolation scanning line, so that interpolation without losing the contour can be performed. When the contour component of the image is equal to or less than a predetermined value and the contour amount detected by the contour amount detection unit is smaller than the set value, the comparison output of the comparison unit averages the input video signals of the scanning lines adjacent above and below the interpolation scanning line. Since the signal thus output is output as a video signal of the interpolation scanning line, it is possible to perform interpolation in which jaggedness is not noticeable in a smoothly changing portion of the image.
【0008】請求項5の発明は、請求項3、4の発明に
おいて、内挿点演算部の回路構成を簡単にするために、
内挿点演算部を、入力映像信号と1ライン遅延部の出力
信号とを加算する加算器と、この加算器の加算信号に1
/2の係数を乗算する乗算器と、この乗算器の乗算信号
と入力映像信号とを比較部の比較出力に応じて切り換
え、補間走査線の映像信号として出力する切換器とで構
成する。According to a fifth aspect of the present invention, in order to simplify the circuit configuration of the interpolation point calculating section,
An adder for adding the input video signal to the output signal of the one-line delay unit;
A multiplier for multiplying by a factor of / 2, and a switch for switching between the multiplied signal of the multiplier and the input video signal in accordance with the comparison output of the comparison unit and outputting the signal as an interpolated scanning line video signal.
【0009】請求項6、7の発明は、入力した映像信号
(例えばインタレース走査用の映像信号)を、その走査
線を2倍にした映像信号(例えばプログレッシブ走査用
の映像信号)に変換する際に用いられるフィールド内内
挿方法において、補間走査線の上側と下側に隣接する走
査線の入力映像信号から輪郭量を検出し、この輪郭量に
応じて、補間走査線の上側又は下側に隣接する走査線の
入力映像信号と補間走査線の上側と下側に隣接する走査
線の入力映像信号を平均化した信号との混合比を切り換
え、この混合比で混合した信号を補間走査線の映像信号
としてなることを特徴とする。According to the sixth and seventh aspects of the present invention, an input video signal (for example, a video signal for interlaced scanning) is converted into a video signal whose scanning line is doubled (for example, a video signal for progressive scanning). In the field interpolation method used in this case, the contour amount is detected from the input video signals of the scanning lines adjacent to the upper side and the lower side of the interpolation scanning line, and the upper or lower side of the interpolation scanning line is detected according to the contour amount. The mixing ratio between the input video signal of the adjacent scanning line and the signal obtained by averaging the input video signals of the scanning lines adjacent above and below the interpolation scanning line is switched, and the signal mixed at this mixing ratio is used as the interpolation scanning line. Characterized in that the video signal is
【0010】請求項8、9の発明は、請求項6、7の発
明方法を実施する回路であって、入力映像信号を1ライ
ン分遅延させる1ライン遅延部と、この1ライン遅延信
号と入力映像信号とに基づいて入力映像信号の輪郭量を
検出する輪郭量検出部と、この輪郭量検出部で検出した
輪郭量に応じて、予め設定した複数対の係数の中から対
応した1対の係数を出力する輪郭量・係数変換部と、こ
の輪郭量・係数変換部の出力する係数に応じて、補間走
査線の上側又は下側に隣接する走査線の入力映像信号と
補間走査線の上側と下側に隣接する走査線の入力映像信
号を平均化した信号との混合比を切り換え、この混合比
で混合した信号を補間走査線の映像信号として出力する
内挿点演算部とを具備してなることを特徴とする。The present invention according to claims 8 and 9 is a circuit for implementing the method according to claims 6 and 7, wherein the one-line delay section for delaying the input video signal by one line, and the one-line delay signal A contour amount detector for detecting the contour amount of the input video signal based on the video signal; and a pair of a plurality of preset coefficients corresponding to the contour amount detected by the contour amount detector. A contour amount / coefficient conversion unit for outputting a coefficient, and an input video signal of a scanning line adjacent to an upper side or a lower side of the interpolation scanning line and an upper side of the interpolation scanning line according to the coefficient output from the contour amount / coefficient conversion unit And an interpolation point calculation unit for switching a mixing ratio between an input video signal of a scanning line adjacent to the lower side and a signal averaged, and outputting a signal mixed at the mixing ratio as a video signal of an interpolation scanning line. It is characterized by becoming.
【0011】輪郭量検出部で検出した輪郭量に応じて、
補間走査線の上側又は下側に隣接する走査線の入力映像
信号と、補間走査線の上側と下側に隣接する走査線の入
力映像信号を平均化させた信号との混合比が切り換えら
れ、この混合比で混合した信号が補間走査線の映像信号
となるので、輪郭量が大きいほど、補間走査線の映像信
号中において前者(補間走査線の上側又は下側に隣接す
る走査線の入力映像信号)の占める割合が大きくなると
共に、後者(補間走査線の上側と下側に隣接する走査線
の入力映像信号を平均化させた信号)の占める割合が小
さくなる。このため、画像の輪郭部分で輪郭を失わない
内挿をすることがでるとともに、画像の滑らかな変化部
分でギザギザが目立たない内挿をすることができる。According to the contour amount detected by the contour amount detecting section,
The input video signal of the scanning line adjacent to the upper or lower side of the interpolation scanning line, the mixing ratio of the signal obtained by averaging the input video signal of the scanning line adjacent to the upper and lower sides of the interpolation scanning line is switched, Since the signal mixed at this mixing ratio becomes the video signal of the interpolation scanning line, the larger the contour amount is, the more the input signal of the scanning line adjacent to the upper or lower side of the interpolation scanning line is included in the video signal of the interpolation scanning line. Signal), and the latter (a signal obtained by averaging the input video signals of the adjacent scanning lines above and below the interpolation scanning line) decreases. For this reason, it is possible to perform the interpolation without losing the contour at the contour portion of the image, and to perform the interpolation in which the jaggedness is not noticeable at the smoothly changing portion of the image.
【0012】請求項10の発明は、請求項8、95の発
明において、内挿点演算部の回路構成を簡単にするため
に、内挿点演算部を、1ライン遅延部で遅延させた信号
と入力映像信号とを加算する第1加算器と、この第1加
算器の加算信号に1/2の係数を乗算する第1乗算器
と、この第1乗算器の乗算信号に輪郭量・係数変換部か
ら出力する一方の係数を乗算する係数可変型の第2乗算
器と、1ライン遅延部で遅延させた信号に輪郭量・係数
変換部から出力する他方の係数を乗算する係数可変型の
第3乗算器と、第2、第3乗算器の乗算信号を加算し補
間走査線の映像信号として出力する第2加算器とで構成
する。According to a tenth aspect of the present invention, in the eighth and 95th aspects, the signal obtained by delaying the interpolation point operation unit by a one-line delay unit in order to simplify the circuit configuration of the interpolation point operation unit. Adder for adding the input signal and the input video signal, a first multiplier for multiplying the addition signal of the first adder by a factor of と, and a contour amount / coefficient for the multiplication signal of the first multiplier. A variable coefficient second multiplier for multiplying one of the coefficients output from the conversion unit, and a variable coefficient type multiplier for multiplying the signal delayed by the one-line delay unit with the other coefficient output from the contour amount / coefficient conversion unit It comprises a third multiplier and a second adder for adding the multiplied signals of the second and third multipliers and outputting as a video signal of the interpolation scanning line.
【0013】[0013]
【発明の実施の形態】以下、本発明によるフィールド内
内挿方法及び回路の一実施形態例を図面を用いて説明す
る。図1は第1実施形態例(主に請求項1〜3の発明に
対応)を示すもので、図4、図5と同一部分は同一符号
とする。図1において、10はインタレース走査用のデ
ィジタルの映像信号Viを入力する入力端子、12は入
力映像信号Viを1ライン分遅延させて出力する1ライ
ン遅延部である。30は、入力映像信号Viと1ライン
遅延部12から出力した映像信号とに基づいて、入力映
像信号Viの輪郭量Rを検出する輪郭量検出部、32は
検出した輪郭量Rを予め設定した閾値としての設定値S
と比較する比較部である。34は同一フィールド内の走
査線補間で補間走査線の映像信号を演算する内挿点演算
部、14は内臓メモリへの書き込みに対して2倍の速さ
のクロックで読み出す倍速変換部、16はプログレッシ
ブ走査用の映像信号Vpを出力する出力端子である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a field interpolation method and circuit according to the present invention will be described below with reference to the drawings. FIG. 1 shows a first embodiment (mainly corresponding to the inventions of claims 1 to 3), and the same parts as those in FIGS. 4 and 5 are denoted by the same reference numerals. In FIG. 1, reference numeral 10 denotes an input terminal for inputting a digital video signal Vi for interlaced scanning, and reference numeral 12 denotes a one-line delay unit for delaying the input video signal Vi by one line and outputting the delayed signal. Reference numeral 30 denotes a contour amount detection unit that detects a contour amount R of the input video signal Vi based on the input video signal Vi and the video signal output from the one-line delay unit 12, and 32 sets the detected contour amount R in advance. Set value S as threshold
This is a comparison unit for comparing with. Numeral 34 denotes an interpolation point calculating unit for calculating a video signal of an interpolated scanning line by scanning line interpolation in the same field, 14 denotes a double-speed conversion unit which reads out data with a clock twice as fast as writing to the internal memory, and 16 denotes a double-speed conversion unit An output terminal for outputting a video signal Vp for progressive scanning.
【0014】前記内挿点演算部34は、入力映像信号V
iと1ライン遅延部12から出力した映像信号とを加算
する加算器36と、この加算器36の加算信号に1/2
の係数を乗算して平均値を求める乗算器38と、この乗
算器38で求めた映像信号と1ライン遅延部12から出
力した映像信号とを切り換えて出力する切換器40とか
らなり、この切換器40は前記比較器32の比較出力で
切り換わる。前記倍速変換部14は、これに限るもので
はないが、例えば、入力端子10に入力した映像信号V
iを記憶可能な第1メモリ(例えばラインメモリ)と切
換器40からの補間走査線の映像信号を記憶可能な第2
メモリ(例えばラインメモリ)とを有し、第1、第2メ
モリへの書き込みに対して2倍の速さのクロックで1ラ
イン毎に交互に読み出すことにより、出力端子16から
プログレッシブ走査用の映像信号Vpを出力する。The interpolation point calculator 34 calculates the input video signal V
i, and an adder 36 that adds the video signal output from the one-line delay unit 12, and a half of the added signal of the adder 36.
And a switch 40 for switching and outputting the video signal obtained by the multiplier 38 and the video signal output from the one-line delay unit 12. The switch 40 is switched by the comparison output of the comparator 32. The double speed conversion unit 14 includes, but is not limited to, for example, a video signal V input to the input terminal 10.
i and a second memory capable of storing the video signal of the interpolation scanning line from the switch 40.
A memory (for example, a line memory), and alternately reads out each line with a clock twice as fast as writing to the first and second memories. The signal Vp is output.
【0015】つぎに、図1の作用を説明する。入力端子
10に入力した映像信号Viによる画像の輪郭成分が所
定量以下で輪郭量検出部30で検出した輪郭量Rが設定
値Sより小さい(R<S又はR≦S)ときには、図中実
線で示すように、比較部32の比較出力によって切換器
40が乗算器38の出力信号を倍速変換部14へ出力し
ている。このため、図7で示した平均値内挿法の場合と
同様に、補間走査線の上側と下側に隣接する走査線の入
力映像信号を平均化させた信号が補間走査線の映像信号
として倍速変換部14へ出力する。したがって画像の滑
らかな変化部分でギザギザが目立たない内挿をすること
ができる。入力端子10に入力した映像信号Viによる
画像の輪郭成分が所定量以上で輪郭量検出部30で検出
した輪郭量Rが設定値Sより大きい(R≧S又はR>
S)ときには、図中点線で示すように、比較部32の比
較出力によって切換器40が1ライン遅延部12の出力
信号を倍速変換部14へ出力している。このため、図6
で示した0次内挿法の場合と同様に、補間走査線の上側
に隣接する走査線の入力映像信号が補間走査線の映像信
号として倍速変換部14へ出力する。したがって画像の
輪郭部分で輪郭を失わない内挿をすることができる。Next, the operation of FIG. 1 will be described. When the outline component of the image based on the video signal Vi input to the input terminal 10 is equal to or less than a predetermined amount and the outline amount R detected by the outline amount detection unit 30 is smaller than the set value S (R <S or R ≦ S), the solid line in FIG. As shown by, the switch 40 outputs the output signal of the multiplier 38 to the double speed conversion unit 14 by the comparison output of the comparison unit 32. For this reason, as in the case of the average value interpolation method shown in FIG. 7, the signal obtained by averaging the input video signals of the scanning lines adjacent to the upper and lower sides of the interpolation scanning line is used as the video signal of the interpolation scanning line. The data is output to the double speed conversion unit 14. Therefore, it is possible to perform interpolation in which the jaggedness is not noticeable in a smoothly changing portion of the image. The contour component of the image based on the video signal Vi input to the input terminal 10 is equal to or more than a predetermined amount, and the contour amount R detected by the contour amount detection unit 30 is larger than a set value S (R ≧ S or R>
At S), the switch 40 outputs the output signal of the one-line delay unit 12 to the double speed conversion unit 14 by the comparison output of the comparison unit 32, as indicated by the dotted line in the figure. Therefore, FIG.
As in the case of the zero-order interpolation method shown in the above, the input video signal of the scanning line adjacent above the interpolation scanning line is output to the double speed conversion unit 14 as the video signal of the interpolation scanning line. Therefore, it is possible to perform interpolation without losing the outline at the outline portion of the image.
【0016】図1の実施形態例では、内挿点演算部を加
算器、乗算器及び切換器で構成したが、本発明はこれに
限るものでなく、比較部の比較出力に応じて、補間走査
線の上側に隣接する走査線の入力映像信号と補間走査線
の上側と下側に隣接する走査線の入力映像信号を平均化
した信号とを切り換え、補間走査線の映像信号として出
力するものであればよい。In the embodiment of FIG. 1, the interpolation point calculation unit is constituted by an adder, a multiplier and a switch. However, the present invention is not limited to this, and the interpolation is performed according to the comparison output of the comparison unit. Switching between an input video signal of a scanning line adjacent to the upper side of the scanning line and a signal obtained by averaging the input video signals of the scanning lines adjacent to the upper side and the lower side of the interpolation scanning line, and outputting as a video signal of the interpolation scanning line Should be fine.
【0017】図2は本発明の第2実施形態例(主に請求
項4〜6の発明に対応)を示すもので、図1と同一部分
は同一符号とする。図2において、10は入力端子、1
2は1ライン遅延部、14は倍速変換部、16は出力端
子、30は輪郭量検出部、42は輪郭量・係数変換部、
44は内挿点演算部である。FIG. 2 shows a second embodiment (mainly corresponding to the inventions of claims 4 to 6) of the present invention, and the same parts as those in FIG. In FIG. 2, 10 is an input terminal, 1
2 is a one-line delay unit, 14 is a double speed conversion unit, 16 is an output terminal, 30 is an outline amount detection unit, 42 is an outline amount / coefficient conversion unit,
Reference numeral 44 denotes an interpolation point calculation unit.
【0018】前記輪郭量・係数変換部42は、例えば輪
郭量Rのレベルと複数対の係数j、1−jを対応して記
憶したLUT(ルックアップテーブル)を具備し、図3
に示すように、輪郭量検出部30で検出した輪郭量Rの
レベルが0〜8の9段階の何れに属するかに応じて、予
め設定した複数対の係数j、1−jの中から対応した1
対の係数を出力する。例えば、輪郭量Rのレベルが3の
段階にあるときには係数5/8(j=5/8)、3/8
(1−j=3/8)を出力する。The contour amount / coefficient conversion unit 42 includes, for example, an LUT (lookup table) in which the level of the contour amount R and a plurality of pairs of coefficients j and 1-j are stored in correspondence with each other.
As shown in FIG. 7, depending on which of the nine levels 0 to 8 the level of the contour amount R detected by the contour amount detection unit 30 belongs to, a plurality of pairs of preset coefficients j and 1-j correspond to each other. Done 1
Output the coefficient of the pair. For example, when the level of the contour amount R is in the stage of 3, the coefficient is 5/8 (j = 5/8), 3/8
(1-j = 3/8) is output.
【0019】前記内挿点演算部44は、入力映像信号V
iと1ライン遅延部12から出力した映像信号とを加算
する第1加算器46と、この第1加算器46の加算信号
に1/2の係数を乗算し映像信号Viと1ライン遅延信
号の平均値を求める第1乗算器48と、この第1乗算器
48の出力信号に前記輪郭量・係数変換部42からの係
数jを乗算して出力する係数可変型の第2乗算器50
と、1ライン遅延部12から出力した映像信号に前記輪
郭量・係数変換部42からの係数1−jを乗算して出力
する係数可変型の第3乗算器52と、第2乗算器50と
第3乗算器52の出力信号を加算して補間走査線の映像
信号として出力する第2加算器54とからなっている。The interpolation point calculator 44 calculates the input video signal V
i, and a first adder 46 that adds the video signal output from the one-line delay unit 12, and multiplies the addition signal of the first adder 46 by a factor of し to generate a video signal Vi and a one-line delay signal. A first multiplier 48 for calculating an average value; and a second variable multiplier 50 for multiplying an output signal of the first multiplier 48 by a coefficient j from the contour amount / coefficient conversion unit 42 and outputting the result.
A third multiplier 52 of a variable coefficient type, which multiplies the video signal output from the one-line delay unit 12 by the coefficient 1-j from the contour amount / coefficient conversion unit 42, and outputs the result; A second adder 54 that adds the output signals of the third multiplier 52 and outputs the added signal as a video signal of the interpolation scanning line.
【0020】つぎに、図2の作用を説明する。入力端子
10に入力した映像信号Viによる画像の輪郭成分に応
じて、輪郭量検出部30で検出する輪郭量Rのレベルが
変化し、この輪郭量Rのレベル変化に応じて輪郭量・係
数変換部42から第1、第2乗算器50、52へ出力す
る係数j、1−jが図3に示すように変化する。第1、
第2乗算器50、52で乗算する係数j、1−jが変化
すると、第2加算器54によって混合する第1乗算器4
8からの出力信号と1ライン遅延部12からの出力信号
との混合比が変化する。このため、輪郭量Rが大きいほ
ど、倍速変換部14に入力する補間走査線の映像信号中
に占める上側走査線の映像信号の混合割合が大きくなる
とともに、下側走査線の映像信号の混合割合が小さくな
る。例えば、図3に示すように、係数j、1−jが1、
0(輪郭量Rのレベル0に対応)のときには、上側と下
側の走査線の混合割合がともに1/2となって図7の平
均値内挿法と同様に作用し、係数j、1−jが0、1
(輪郭量Rのレベル8に対応)のときには、上側の走査
線の混合割合が1、下側の走査線の混合割合が0となっ
て図6の0次内挿法と同様に作用し、係数j、1−jが
1/2、1/2(輪郭量Rのレベル4に対応)のときに
は、上側の走査線の混合割合が3/4、下側の走査線の
混合割合が1/4となる。したがって、画像の輪郭部分
で輪郭を失わない内挿をするとともに、画像の滑らかな
変化部分でギザギザが目立たない内挿をすることができ
る。Next, the operation of FIG. 2 will be described. The level of the contour amount R detected by the contour amount detection unit 30 changes according to the contour component of the image based on the video signal Vi input to the input terminal 10, and the contour amount / coefficient conversion is performed according to the level change of the contour amount R. The coefficients j and 1-j output from the unit 42 to the first and second multipliers 50 and 52 change as shown in FIG. First,
When the coefficients j and 1-j to be multiplied by the second multipliers 50 and 52 change, the first multiplier 4 mixed by the second adder 54
8 and the output signal from the one-line delay unit 12 change. For this reason, as the contour amount R increases, the mixing ratio of the video signal of the upper scanning line in the video signal of the interpolation scanning line input to the double-speed converter 14 increases, and the mixing ratio of the video signal of the lower scanning line increases. Becomes smaller. For example, as shown in FIG.
0 (corresponding to the level 0 of the contour amount R), the mixture ratio of the upper and lower scanning lines is both な っ て, and operates in the same manner as the average value interpolation method of FIG. -J is 0, 1
In the case of (corresponding to level 8 of the contour amount R), the mixing ratio of the upper scanning line is 1 and the mixing ratio of the lower scanning line is 0, which works in the same manner as the zero-order interpolation method in FIG. When the coefficients j and 1-j are 1/2 and 1/2 (corresponding to the level 4 of the contour amount R), the mixing ratio of the upper scanning line is 3/4 and the mixing ratio of the lower scanning line is 1 /. It becomes 4. Therefore, it is possible to perform the interpolation without losing the contour in the contour portion of the image, and to perform the interpolation without noticeable jaggedness in the smoothly changing portion of the image.
【0021】図2の実施形態例では、内挿点演算部を第
1、第2加算器及び第1、第2、第3乗算器で構成した
が、本発明はこれに限るものでなく、輪郭量・係数変換
部の出力する係数に応じて、補間走査線の上側に隣接す
る走査線の入力映像信号と補間走査線の上側と下側に隣
接する走査線の入力映像信号を平均化した信号との混合
比を切り換え、この混合比で混合した信号を補間走査線
の映像信号として出力するものであればよい。In the embodiment shown in FIG. 2, the interpolation point calculation section is constituted by the first and second adders and the first, second and third multipliers. However, the present invention is not limited to this. The input video signal of the scanning line adjacent to the upper side of the interpolation scanning line and the input video signal of the scanning line adjacent to the upper and lower sides of the interpolation scanning line are averaged according to the coefficient output from the contour amount / coefficient conversion unit. Any signal may be used as long as it switches the mixing ratio with the signal and outputs a signal mixed at this mixing ratio as a video signal of the interpolation scanning line.
【0022】前記実施形態例では、輪郭量Rが大きいと
き(例えば設定値Sより大きいとき)に、補間走査線の
上側に隣接する走査線の映像信号を補間走査線の映像信
号としたが、本発明はこれに限るものでなく、補間走査
線の下側に隣接する走査線の映像信号を補間走査線の映
像信号としたものにも利用することができる。In the above embodiment, when the contour amount R is large (for example, when the set value S is larger than the set value S), the video signal of the scanning line adjacent above the interpolation scanning line is used as the video signal of the interpolation scanning line. The present invention is not limited to this, and can also be used when the video signal of the scanning line adjacent to the lower side of the interpolation scanning line is used as the video signal of the interpolation scanning line.
【0023】前記実施形態例では、入力したインタレー
ス走査用の映像信号をプログレッシブ走査用の映像信号
に変換する際に用いられるフィールド内内挿方法及び回
路について説明したが、本発明はこれに限るものでな
く、入力した映像信号を、その走査線を2倍にした映像
信号に変換する際に用いられるフィールド内内挿方法及
び回路についても利用することができる。In the above-described embodiment, the field interpolation method and the circuit used for converting the input interlaced scanning video signal into the progressive scanning video signal have been described. However, the present invention is not limited to this. Instead, the present invention can also be applied to a field interpolation method and circuit used when converting an input video signal into a video signal whose scanning line is doubled.
【0024】[0024]
【発明の効果】請求項1及び2の発明は、入力した映像
信号(例えばインタレース走査用の映像信号)を、その
走査線を2倍にした映像信号(プログレッシブ走査用の
映像信号)に変換する際に用いられるフィールド内内挿
方法において、補間走査線の上側と下側に隣接する走査
線の入力映像信号から輪郭量を検出し、輪郭量が設定値
より大きいときには補間走査線の上側又は下側に隣接す
る走査線の入力映像信号を補間走査線の映像信号とし、
輪郭量が設定値より小さいときには補間走査線の上側と
下側に隣接する走査線の入力映像信号を平均化した信号
を補間走査線の映像信号としたので、画像の輪郭部分で
輪郭を失わない内挿をすることができるとともに、画像
の滑らかな変化部分で滑らかに変化する内挿をすること
ができる。このため、画像の輪郭部分がぼけることがな
いとともに、画像の滑らかな変化部分でギザギザが目立
つことがなく、高画質な画像を表現できる。According to the first and second aspects of the present invention, an input video signal (for example, a video signal for interlaced scanning) is converted into a video signal (video signal for progressive scanning) whose scanning line is doubled. In the field interpolation method used at the time of performing, the contour amount is detected from the input video signals of the scanning lines adjacent to the upper side and the lower side of the interpolation scanning line, and when the contour amount is larger than the set value, the upper side of the interpolation scanning line or The input video signal of the scanning line adjacent to the lower side is used as the video signal of the interpolation scanning line,
When the contour amount is smaller than the set value, a signal obtained by averaging the input video signals of the scanning lines adjacent to the upper and lower sides of the interpolation scanning line is used as the video signal of the interpolation scanning line, so that the contour is not lost at the contour portion of the image. The interpolation can be performed, and the interpolation that smoothly changes at a smoothly changing portion of the image can be performed. For this reason, the outline of the image is not blurred, and the jaggedness is not noticeable in the smoothly changing portion of the image, so that a high-quality image can be expressed.
【0025】請求項3及び4の発明は、入力した映像信
号(例えばインタレース走査用の映像信号)を、その走
査線を2倍にした映像信号(プログレッシブ走査用の映
像信号)に変換する際に用いられるフィールド内内挿回
路において、入力映像信号を1ライン分遅延させる1ラ
イン遅延部と、この1ライン遅延信号と入力映像信号と
に基づいて入力映像信号の輪郭量を検出する輪郭量検出
部と、検出した輪郭量を設定値と比較する比較部と、こ
の比較出力に応じて、補間走査線の上側又は下側に隣接
する走査線の入力映像信号と補間走査線の上側と下側に
隣接する走査線の入力映像信号を平均化した信号とを切
り換え、補間走査線の映像信号として出力する内挿点演
算部とを具備したので、請求項1の発明と同様に、画像
の輪郭部分で輪郭を失わない内挿をすることができると
ともに、画像の滑らかな変化部分で滑らかに変化する内
挿をすることができ、高画質な画像を表現できる。According to the third and fourth aspects of the present invention, when an input video signal (for example, a video signal for interlaced scanning) is converted into a video signal (video signal for progressive scanning) whose scanning line is doubled. , A one-line delay unit that delays an input video signal by one line, and a contour amount detection unit that detects a contour amount of the input video signal based on the one-line delay signal and the input video signal A comparison unit for comparing the detected contour amount with a set value, and an input video signal of a scanning line adjacent to an upper side or a lower side of the interpolation scanning line and an upper and lower side of the interpolation scanning line in accordance with the comparison output. And an interpolation point calculating unit for switching between an input video signal of an adjacent scanning line and a signal obtained by averaging the input video signal and outputting the signal as an interpolated scanning line video signal. Part with contour It is possible to the interpolation is not lost, smoothly changes in a smooth change portion of the image can be the interpolation can be expressed a high-quality image.
【0026】請求項5の発明は、請求項3又は4の発明
において、内挿点演算部を、入力映像信号と1ライン遅
延部の出力信号とを加算する加算器と、この加算器の加
算信号に1/2の係数を乗算する乗算器と、この乗算器
の乗算信号と入力映像信号とを比較部の比較出力に応じ
て切り換え、補間走査線の映像信号として出力する切換
器とで構成したので、内挿点演算部の回路構成を簡単に
することができる。According to a fifth aspect of the present invention, in the third or fourth aspect of the present invention, the interpolation point calculating section includes an adder for adding the input video signal and the output signal of the one-line delay section, and an adder for the adder. A multiplier for multiplying the signal by a factor of 1/2, and a switcher for switching the multiplied signal of the multiplier and the input video signal in accordance with the comparison output of the comparison unit and outputting as a video signal of an interpolation scanning line. Therefore, the circuit configuration of the interpolation point calculation unit can be simplified.
【0027】請求項6及び7の発明は、入力した映像信
号(例えばインタレース走査用の映像信号)を、その走
査線を2倍にした映像信号(プログレッシブ走査用の映
像信号)に変換する際に用いられるフィールド内内挿方
法において、補間走査線の上側と下側に隣接する走査線
の入力映像信号から輪郭量を検出し、この輪郭量に応じ
て、補間走査線の上側又は下側に隣接する走査線の入力
映像信号と補間走査線の上側と下側に隣接する走査線の
入力映像信号を平均化した信号との混合比を切り換え、
この混合比で混合した信号を補間走査線の映像信号とし
たので、画像の輪郭部分で輪郭を失わない内挿をするこ
とができるとともに、画像の滑らかな変化部分で滑らか
に変化する内挿をすることができる。このため、画像の
輪郭部分がぼけることがないとともに、画像の滑らかな
変化部分でギザギザが目立つことがなく、高画質な画像
を表現できる。According to the present invention, when an input video signal (for example, a video signal for interlaced scanning) is converted into a video signal whose scanning line is doubled (a video signal for progressive scanning). In the field interpolation method used in the above, the contour amount is detected from the input video signal of the scanning line adjacent to the upper side and the lower side of the interpolation scanning line, and according to this contour amount, the contour amount is detected above or below the interpolation scanning line. Switching the mixing ratio between the input video signal of the adjacent scanning line and the signal obtained by averaging the input video signals of the adjacent scanning lines above and below the interpolation scanning line,
Since the signal mixed at this mixing ratio is used as the video signal of the interpolation scanning line, interpolation can be performed without losing the outline at the outline of the image, and interpolation that smoothly changes at the smoothly changing portion of the image can be performed. can do. For this reason, the outline of the image is not blurred, and the jaggedness is not noticeable in the smoothly changing portion of the image, so that a high-quality image can be expressed.
【0028】請求項8及び9の発明は、入力した映像信
号(例えばインタレース走査用の映像信号)を、その走
査線を2倍にした映像信号(プログレッシブ走査用の映
像信号)に変換する際に用いられるフィールド内内挿回
路において、入力映像信号を1ライン分遅延させる1ラ
イン遅延部と、この1ライン遅延信号と入力映像信号と
に基づいて入力映像信号の輪郭量を検出する輪郭量検出
部と、この検出した輪郭量のレベルに応じて、複数対の
係数の中から対応した1対の係数を出力する輪郭量・係
数変換部と、この出力した係数に応じて、補間走査線の
上側又は下側に隣接する走査線の入力映像信号と補間走
査線の上側と下側に隣接する走査線の入力映像信号を平
均化した信号との混合比を切り換え、この混合比で混合
した信号を補間走査線の映像信号として出力する内挿点
演算部とを具備したので、請求項6又は7の発明と同様
に、画像の輪郭部分で輪郭を失わない内挿をすることが
できるとともに、画像の滑らかな変化部分で滑らかに変
化する内挿をすることができ、高画質な画像を表現でき
る。According to the eighth and ninth aspects of the present invention, when an input video signal (for example, a video signal for interlaced scanning) is converted into a video signal (video signal for progressive scanning) whose scanning line is doubled. , A one-line delay unit that delays an input video signal by one line, and a contour amount detection unit that detects a contour amount of the input video signal based on the one-line delay signal and the input video signal Unit, a contour amount / coefficient conversion unit that outputs a corresponding pair of coefficients from a plurality of pairs of coefficients according to the level of the detected contour amount, and an interpolation scanning line of the interpolation scan line according to the output coefficients. Switching the mixing ratio between the input video signal of the scanning line adjacent to the upper side or the lower side and the signal obtained by averaging the input video signal of the scanning line adjacent to the upper side and the lower side of the interpolation scanning line, and a signal mixed at this mixing ratio Interpolation run Since there is provided an interpolation point calculation unit for outputting as a line video signal, it is possible to perform interpolation without losing the contour at the contour portion of the image and to smooth the image, as in the invention of claim 6 or 7. It is possible to perform interpolation that changes smoothly at a portion where the change occurs, and to express a high-quality image.
【0029】請求項10の発明は、請求項8又は9の発
明において、内挿点演算部を、1ライン遅延部で遅延さ
せた信号と入力映像信号とを加算する第1加算器と、こ
の第1加算器の加算信号に1/2の係数を乗算する第1
乗算器と、この第1乗算器の乗算信号に輪郭量・係数変
換部から出力する一方の係数を乗算する係数可変型の第
2乗算器と、1ライン遅延部で遅延させた信号に輪郭量
・係数変換部から出力する他方の係数を乗算する係数可
変型の第3乗算器と、第2、第3乗算器の乗算信号を加
算し補間走査線の映像信号として出力する第2加算器と
で構成したので、内挿点演算部の回路構成を簡単にする
ことができる。According to a tenth aspect of the present invention, in the invention of the eighth or ninth aspect, a first adder for adding the signal delayed by the one-line delay unit and the input video signal to the interpolation point calculation unit, The first multiplication of the addition signal of the first adder by a factor of 1/2
A multiplier, a second variable multiplier that multiplies the multiplied signal of the first multiplier by one of the coefficients output from the contour amount / coefficient conversion unit, and a contour amount to a signal delayed by the one-line delay unit A variable-variable third multiplier that multiplies the other coefficient output from the coefficient conversion unit, and a second adder that adds the multiplication signals of the second and third multipliers and outputs the result as a video signal of an interpolation scanning line. , The circuit configuration of the interpolation point calculation unit can be simplified.
【図1】本発明によるフィールド内内挿方法を実施する
回路の第1実施形態例を示すブロック図である。FIG. 1 is a block diagram showing a first embodiment of a circuit for implementing a field interpolation method according to the present invention.
【図2】本発明によるフィールド内内挿方法を実施する
回路の第2実施形態例を示すブロック図である。FIG. 2 is a block diagram showing a second embodiment of a circuit for performing a field interpolation method according to the present invention.
【図3】図2中の輪郭量・係数変換部の作用を説明する
説明図である。FIG. 3 is an explanatory diagram illustrating an operation of a contour amount / coefficient conversion unit in FIG. 2;
【図4】従来例の0次内挿法を実施する回路のブロック
図である。FIG. 4 is a block diagram of a circuit for performing a zero-order interpolation method of a conventional example.
【図5】従来例の平均値内挿法を実施する回路のブロッ
ク図である。FIG. 5 is a block diagram of a circuit that implements an average value interpolation method in a conventional example.
【図6】図4の作用を説明する説明図である。FIG. 6 is an explanatory diagram for explaining the operation of FIG. 4;
【図7】図5の作用を説明する説明図である。FIG. 7 is an explanatory diagram for explaining the operation of FIG. 5;
10…入力端子、 12…1ライン遅延部、 14…倍
速変換部、 16…出力端子、 30…輪郭量検出部、
32…比較部、 34、44…内挿点演算部、 3
6、46、54…加算器、 38、48、50、52…
乗算器、 40…切換器、 42…輪郭量・係数変換
部、 j、1−j…輪郭量・係数変換部42から出力す
る1対の係数、 R…輪郭量、 S…設定値、 Vi…
インタレース走査用のディジタルの映像信号、 Vp…
プログレッシブ走査用のディジタルの映像信号。Reference Signs List 10: input terminal, 12: one-line delay unit, 14: double speed conversion unit, 16: output terminal, 30: contour amount detection unit
32 ... comparator, 34, 44 ... interpolation point calculator, 3
6, 46, 54 ... adder, 38, 48, 50, 52 ...
Multiplier, 40: Switcher, 42: Contour amount / coefficient conversion unit, j, 1-j: A pair of coefficients output from the contour amount / coefficient conversion unit 42, R: Contour amount, S: Set value, Vi:
Digital video signal for interlaced scanning, Vp ...
Digital video signal for progressive scanning.
Claims (10)
した映像信号に変換する際に用いられるフィールド内内
挿方法において、補間走査線の上側と下側に隣接する走
査線の入力映像信号から輪郭量を検出し、輪郭量が設定
値より大きいときには補間走査線の上側又は下側に隣接
する走査線の入力映像信号を補間走査線の映像信号と
し、輪郭量が設定値より小さいときには補間走査線の上
側と下側に隣接する走査線の入力映像信号を平均化した
信号を補間走査線の映像信号としてなることを特徴とす
るフィールド内内挿方法。In a field interpolation method used when converting an input video signal into a video signal whose scanning line is doubled, input of a scanning line adjacent to an upper side and a lower side of an interpolation scanning line. The contour amount is detected from the video signal, and when the contour amount is larger than the set value, the input video signal of the scanning line adjacent above or below the interpolation scanning line is used as the video signal of the interpolation scanning line, and the contour amount is smaller than the set value. A field interpolation method characterized in that a signal obtained by averaging input video signals of scanning lines adjacent to the upper and lower sides of the interpolation scanning line is sometimes used as the video signal of the interpolation scanning line.
プログレッシブ走査用の映像信号に変換する際に用いら
れるフィールド内内挿方法において、補間走査線の上側
と下側に隣接する走査線の入力映像信号から輪郭量を検
出し、輪郭量が設定値より大きいときには補間走査線の
上側又は下側に隣接する走査線の入力映像信号を補間走
査線の映像信号とし、輪郭量が設定値より小さいときに
は補間走査線の上側と下側に隣接する走査線の入力映像
信号を平均化した信号を補間走査線の映像信号としてな
ることを特徴とするフィールド内内挿方法。2. A field interpolation method used when converting an input interlaced scanning video signal into a progressive scanning video signal, the input of scanning lines adjacent to the upper and lower sides of the interpolated scanning line. The contour amount is detected from the video signal, and when the contour amount is larger than the set value, the input video signal of the scanning line adjacent above or below the interpolation scanning line is used as the video signal of the interpolation scanning line, and the contour amount is smaller than the set value. A field interpolation method characterized in that a signal obtained by averaging input video signals of scanning lines adjacent to the upper and lower sides of the interpolation scanning line is sometimes used as the video signal of the interpolation scanning line.
した映像信号に変換する際に用いられるフィールド内内
挿回路において、前記入力映像信号を1ライン分遅延さ
せる1ライン遅延部と、この1ライン遅延部で遅延させ
た信号と前記入力映像信号とに基づいて前記入力映像信
号の輪郭量を検出する輪郭量検出部と、この輪郭量検出
部で検出した輪郭量を設定値と比較する比較部と、この
比較部の比較出力に応じて、補間走査線の上側又は下側
に隣接する走査線の入力映像信号と補間走査線の上側と
下側に隣接する走査線の入力映像信号を平均化した信号
とを切り換え、補間走査線の映像信号として出力する内
挿点演算部とを具備してなることを特徴とするフィール
ド内内挿回路。3. A one-line delay unit for delaying the input video signal by one line in a field interpolation circuit used when converting an input video signal into a video signal whose scanning line is doubled. A contour amount detection unit for detecting a contour amount of the input video signal based on the signal delayed by the one-line delay unit and the input video signal, and a contour value detected by the contour amount detection unit as a set value. A comparison unit to be compared, and an input video signal of a scanning line adjacent to the upper side or lower side of the interpolation scanning line and an input image signal of a scanning line adjacent to the upper side and lower side of the interpolation scanning line according to the comparison output of the comparison unit A field interpolation circuit for switching between a signal obtained by averaging the signal and outputting the signal as a video signal of an interpolation scanning line.
プログレッシブ走査用の映像信号に変換する際に用いら
れるフィールド内内挿回路において、前記入力映像信号
を1ライン分遅延させる1ライン遅延部と、この1ライ
ン遅延部で遅延させた信号と前記入力映像信号とに基づ
いて前記入力映像信号の輪郭量を検出する輪郭量検出部
と、この輪郭量検出部で検出した輪郭量を設定値と比較
する比較部と、この比較部の比較出力に応じて、補間走
査線の上側又は下側に隣接する走査線の入力映像信号と
補間走査線の上側と下側に隣接する走査線の入力映像信
号を平均化した信号とを切り換え、補間走査線の映像信
号として出力する内挿点演算部とを具備してなることを
特徴とするフィールド内内挿回路。4. A one-line delay section for delaying the input video signal by one line in a field interpolation circuit used when converting an input interlaced scanning video signal into a progressive scanning video signal. A contour amount detection unit for detecting a contour amount of the input video signal based on the signal delayed by the one-line delay unit and the input video signal, and a contour value detected by the contour amount detection unit as a set value. A comparison unit to be compared, and an input video signal of a scanning line adjacent to the upper side or lower side of the interpolation scanning line and an input image signal of a scanning line adjacent to the upper side and lower side of the interpolation scanning line according to the comparison output of the comparison unit A field interpolation circuit for switching between a signal obtained by averaging the signal and outputting the signal as a video signal of an interpolation scanning line.
遅延部の出力信号とを加算する加算器と、この加算器の
加算信号に1/2の係数を乗算する乗算器と、この乗算
器の乗算信号と入力映像信号とを比較部の比較出力に応
じて切り換え、補間走査線の映像信号として出力する切
換器とからなる請求項3又は4記載のフィールド内内挿
回路。5. An interpolation point calculating section, comprising: an adder for adding an input video signal and an output signal of a one-line delay section; a multiplier for multiplying the added signal of the adder by a factor of 、; 5. The field interpolation circuit according to claim 3, further comprising a switch for switching between the multiplied signal of the multiplier and the input video signal in accordance with the comparison output of the comparing section, and outputting the signal as a video signal of the interpolation scanning line.
した映像信号に変換する際に用いられるフィールド内内
挿方法において、補間走査線の上側と下側に隣接する走
査線の入力映像信号から輪郭量を検出し、この輪郭量に
応じて、補間走査線の上側又は下側に隣接する走査線の
入力映像信号と補間走査線の上側と下側に隣接する走査
線の入力映像信号を平均化した信号との混合比を切り換
え、この混合比で混合した信号を補間走査線の映像信号
としてなることを特徴とするフィールド内内挿方法。6. A field interpolation method used when converting an input video signal into a video signal whose scanning line is doubled, wherein input signals of scanning lines adjacent to the upper and lower sides of the interpolation scanning line are input. A contour amount is detected from a video signal, and an input video signal of a scanning line adjacent to an upper side or a lower side of an interpolation scanning line and an input image signal of a scanning line adjacent to an upper side and a lower side of the interpolation scanning line are detected in accordance with the contour amount. A field interpolation method characterized by switching a mixing ratio with a signal obtained by averaging a signal, and forming a signal mixed at the mixing ratio as a video signal of an interpolation scanning line.
プログレッシブ走査用の映像信号に変換する際に用いら
れるフィールド内内挿方法において、補間走査線の上側
と下側に隣接する走査線の入力映像信号から輪郭量を検
出し、この輪郭量に応じて、補間走査線の上側又は下側
に隣接する走査線の入力映像信号と補間走査線の上側と
下側に隣接する走査線の入力映像信号を平均化した信号
との混合比を切り換え、この混合比で混合した信号を補
間走査線の映像信号としてなることを特徴とするフィー
ルド内内挿方法。7. A field interpolation method used when converting an input interlaced scanning video signal into a progressive scanning video signal, wherein an input of a scanning line adjacent to an upper side and a lower side of an interpolation scanning line is input. A contour amount is detected from a video signal, and an input video signal of a scanning line adjacent to an upper side or a lower side of an interpolation scanning line and an input image signal of a scanning line adjacent to an upper side and a lower side of the interpolation scanning line are detected in accordance with the contour amount. A field interpolation method characterized by switching a mixing ratio with a signal obtained by averaging a signal, and forming a signal mixed at the mixing ratio as a video signal of an interpolation scanning line.
した映像信号に変換する際に用いられるフィールド内内
挿回路において、前記入力映像信号を1ライン分遅延さ
せる1ライン遅延部と、この1ライン遅延部で遅延させ
た信号と前記入力映像信号とに基づいて前記入力映像信
号の輪郭量を検出する輪郭量検出部と、この輪郭量検出
部で検出した輪郭量に応じて、予め設定した複数対の係
数の中から対応した1対の係数を出力する輪郭量・係数
変換部と、この輪郭量・係数変換部の出力する係数に応
じて、補間走査線の上側又は下側に隣接する走査線の入
力映像信号と補間走査線の上側と下側に隣接する走査線
の入力映像信号を平均化した信号との混合比を切り換
え、この混合比で混合した信号を補間走査線の映像信号
として出力する内挿点演算部とを具備してなることを特
徴とするフィールド内内挿回路。8. A one-line delay unit for delaying the input video signal by one line in a field interpolation circuit used when converting an input video signal into a video signal whose scanning line is doubled. A contour amount detecting unit for detecting a contour amount of the input video signal based on the signal delayed by the one-line delay unit and the input video signal, and a contour amount detected by the contour amount detecting unit; A contour amount / coefficient conversion unit that outputs a pair of coefficients corresponding to a plurality of preset pairs of coefficients, and an upper or lower side of the interpolation scanning line according to the coefficient output by the contour amount / coefficient conversion unit. The mixing ratio between the input video signal of the adjacent scanning line and the signal obtained by averaging the input video signals of the scanning lines adjacent above and below the interpolation scanning line is switched, and the signal mixed at this mixing ratio is used as the interpolation scanning line. Interpolation output as a video signal Field interpolation circuit, characterized by comprising; and a calculation unit.
プログレッシブ走査用の映像信号に変換する際に用いら
れるフィールド内内挿回路において、前記入力映像信号
を1ライン分遅延させる1ライン遅延部と、この1ライ
ン遅延部で遅延させた信号と前記入力映像信号とに基づ
いて前記入力映像信号の輪郭量を検出する輪郭量検出部
と、この輪郭量検出部で検出した輪郭量に応じて、予め
設定した複数対の係数の中から対応した1対の係数を出
力する輪郭量・係数変換部と、この輪郭量・係数変換部
の出力する係数に応じて、補間走査線の上側又は下側に
隣接する走査線の入力映像信号と補間走査線の上側と下
側に隣接する走査線の入力映像信号を平均化した信号と
の混合比を切り換え、この混合比で混合した信号を補間
走査線の映像信号として出力する内挿点演算部とを具備
してなることを特徴とするフィールド内内挿回路。9. A one-line delay unit for delaying the input video signal by one line in a field interpolation circuit used when converting an input interlaced scanning video signal into a progressive scanning video signal. A contour amount detecting unit for detecting a contour amount of the input video signal based on the signal delayed by the one-line delay unit and the input video signal, and a contour amount detected by the contour amount detecting unit; A contour amount / coefficient conversion unit that outputs a pair of coefficients corresponding to a plurality of preset pairs of coefficients, and an upper or lower side of the interpolation scanning line according to the coefficient output by the contour amount / coefficient conversion unit. The mixing ratio between the input video signal of the adjacent scanning line and the signal obtained by averaging the input video signals of the scanning lines adjacent above and below the interpolation scanning line is switched, and the signal mixed at this mixing ratio is used as the interpolation scanning line. Video signal Field interpolation circuit, characterized by comprising; and a interpolation point calculation unit among which to output.
させた信号と入力映像信号とを加算する第1加算器と、
この第1加算器の加算信号に1/2の係数を乗算する第
1乗算器と、この第1乗算器の乗算信号に輪郭量・係数
変換部から出力する一方の係数を乗算する係数可変型の
第2乗算器と、前記1ライン遅延部で遅延させた信号に
前記輪郭量・係数変換部から出力する他方の係数を乗算
する係数可変型の第3乗算器と、前記第2、第3乗算器
の乗算信号を加算し補間走査線の映像信号として出力す
る第2加算器とからなる請求項8又は9記載のフィール
ド内内挿回路。10. A first adder for adding a signal delayed by a one-line delay unit and an input video signal, said interpolation point calculating unit;
A first multiplier for multiplying the addition signal of the first adder by 係数 coefficient, and a coefficient variable type for multiplying the multiplication signal of the first multiplier by one coefficient output from the contour amount / coefficient conversion unit A third multiplier of a variable coefficient type for multiplying the signal delayed by the one-line delay unit with the other coefficient output from the contour amount / coefficient conversion unit; 10. The field interpolation circuit according to claim 8, further comprising a second adder for adding the multiplication signals of the multipliers and outputting as a video signal of the interpolation scanning line.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP9369510A JPH11196382A (en) | 1997-12-26 | 1997-12-26 | In-field interpolation method and circuit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP9369510A JPH11196382A (en) | 1997-12-26 | 1997-12-26 | In-field interpolation method and circuit |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH11196382A true JPH11196382A (en) | 1999-07-21 |
Family
ID=18494608
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP9369510A Pending JPH11196382A (en) | 1997-12-26 | 1997-12-26 | In-field interpolation method and circuit |
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Country | Link |
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JP (1) | JPH11196382A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005151135A (en) * | 2003-11-14 | 2005-06-09 | Sony Corp | Apparatus and method of determining picture boundary, and apparatus and method of processing picture signal using same |
JP2009216954A (en) * | 2008-03-10 | 2009-09-24 | Sony Corp | Video signal processing apparatus, video signal processing method and computer program |
-
1997
- 1997-12-26 JP JP9369510A patent/JPH11196382A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005151135A (en) * | 2003-11-14 | 2005-06-09 | Sony Corp | Apparatus and method of determining picture boundary, and apparatus and method of processing picture signal using same |
JP2009216954A (en) * | 2008-03-10 | 2009-09-24 | Sony Corp | Video signal processing apparatus, video signal processing method and computer program |
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