JP3880054B2 - SEEK PROCESSING TIME MEASURING DEVICE AND DIGITAL DATA REPRODUCING DEVICE HAVING THE SAME - Google Patents

Description

【００４２】
又、キーフレーム間隔測定部１０１が測定する最大フレーム数とは、例えば、キーフレームとキーフレームとの間に存在する差分フレームの数又は、その差分フレームと、その差分フレームから過去方向に遡った位置にあるキーフレームとを足した値のことである。したがって、上記表１の例において、Max Key Frame Int Numは、１０１と２０１、４０１と５０１、５０１と６０１、６５１と７５１との間のフレーム数１００となる。
【００４３】
次に、シーク処理時間算出部１０２では、システム性能から予め決まっている、デジタルデータに含まれる圧縮動画像データの１フレームのデコード処理に要する最大時間（Frame Dec Time、以下、最大デコード処理時間という）が設定されているため、キーフレーム間隔測定部１０１から入力された最大フレーム数を基にし、以下の算式（１）を用いて理論上の最大シーク処理時間（Max Seek Wait Time）を算出する（ステップＳ２０５：最大シーク処理時間算出工程）。
【００４４】
Max Seek Wait Time＝Max Key Frame Int Num×Frame Dec Time・・（１）
【００４５】
例えば、ＭＰＥＧ４ＶｉｄｅｏデコードＤＳＰを用いた場合、その性能として、最大画像サイズの圧縮動画像データの１フレームのデコードのみ（表示は行わない）では、毎秒５０フレームまで処理が可能だとすると、Frame Dec Timeは１／５０秒となり、これに、Max Key Frame Int Numの１００を乗ずると、Max Seek Wait Timeは２秒と算出される。
【００４６】
このようにして算出した最大シーク処理時間の情報は、利用者３００に出力される。デジタルデータ再生装置１は、シーク処理時間算出部１０２から出力された情報に基づいて、動画プレーヤ（利用者３００）により、そのコンテンツを再生しようとしているユーザに対してワーニング（注意報）をディスプレイ上に表示する。尚、このワーニングは、デジタルデータ再生装置１がユーザからのシーク操作指示を受けてから、実際に動画像が再生されるまでの間に行うようにする。好ましくは、デジタルデータ再生装置１がユーザからのシーク操作指示を受けてから、シーク処理が開始されるまでの間に行うようにする。
【００４７】
又、シーク処理時間算出部１０２は、キーフレーム間隔測定部１０１から最大フレーム数を測定できないことを示す情報を入力された場合、最大シーク処理時間の代わりに、最大シーク処理時間を算出できないことを示す情報を利用者３００に出力する。
【００４８】
動画プレーヤにおけるワーニングは、シーク処理時間算出部１０２から出力された情報に応じて、例えば次のような動作が可能となる。
シーク処理時間算出部１０２から出力された最大シーク処理時間が５秒未満の場合、デジタルデータ再生装置１は、ワーニングを出さずにそのままシーク位置からデジタルデータの再生を行う。
【００４９】
シーク処理時間算出部１０２から出力された最大シーク処理時間が５秒以上２０秒未満の場合、デジタルデータ再生装置１は、図３（ａ）に示すように、「！このファイルは、シーク動作に時間がかかる可能性があります」というワーニングをディスプレイに表示すると共に、ユーザからの指示が無い限り、シーク操作を行えないように制御する。
【００５０】
シーク処理時間算出部１０２から出力された最大シーク処理時間が２０秒以上となる場合又はシーク処理時間算出部１０２からシーク処理時間の最大値を算出できないことを示す情報が出力された場合、デジタルデータ再生装置１は、図３（ｂ）に示すように、「！！このファイルは、シーク繰作ができません」というワーニングをディスプレイに表示すると共に、シーク操作をできないように制御する。
【００５１】
尚、上記ワーニングは、ディスプレイ上に文字等として出力させる以外に、スピーカから音声として出力させるようにしても良いし、文字と音声の両方を出力させるようにしても良い。ワーニングを音声として出力することで、ユーザにその注意を気付かせ易くすることができる。
【００５２】
以上のように本実施形態によれば、キーフレーム間隔測定部１０１により、シーク再生しようとするデジタルデータに含まれる圧縮動画像データの最大キーフレーム数を求め、シーク処理時間算出部１０２において、上記求めた最大フレーム数と、圧縮動画像データの１フレームのデコード処理に要する最大時間とに基づいて、最大シーク処理時間を算出して出力し、出力された情報に応じて、ユーザにワーニングを行う。
【００５３】
これにより、シーク処理がなかなか終わらない場合のユーザの焦燥感を軽減することができる。また、シーク処理を開始する前に、事前に算出した最大シーク処理時間に基づいた内容の注意をユーザに対して行うことにより、優れた操作性と良好なユーザインターフェースを実現できる。
【００５４】
又、本実施形態によれば、キーフレーム間隔測定部１０１が、デジタルデータのヘッダ情報に含まれるキーフレーム位置情報を基に、最大フレーム数を求めるため、デジタルデータのヘッダ部のチェックのみで最大フレーム数を求めることができる。したがって、デジタルデータ全体をチェックするする必要がなく、処理を高速に行うことができる。
【００５５】
尚、本実施形態では、キーフレーム間隔測定部１０１が、デジタルデータのヘッダ情報に含まれるキーフレーム位置情報を基に、最大フレーム数を求めるようにしているが、デジタルデータのヘッダ情報に含まれるキーフレーム位置情報が１つしかない場合、キーフレーム間隔測定部１０１は、圧縮動画像データを構成する全フレーム数を最大フレーム数とする。これにより、キーフレーム情報の数が１つの場合は、簡単に最大フレーム数を求めることが可能なため、シーク処理時間測定装置１００の処理を高速に行うことができる。
【００５６】
（第２実施形態）
図４は、本発明の第２実施形態に係るシーク処理時間測定装置を備えたデジタルデータ再生装置の構成を示すブロック図である。図１と構成は同じであるが、データの流れ、及びキーフレーム間隔測定部１０１とシーク処理時間算出部１０２の機能が一部異なる。尚、同一構成要素には図１と同じ符号を付して説明を省略する。
【００５７】
次に、本実施形態に係るシーク処理時間測定装置２００の動作について、図５に示すフローチャートを参照しながら説明する。
図５は、本発明の第二実施形態に係るシーク処理時間測定装置の動作を説明するためのフローチャートである。
【００５８】
まず、利用者３００により、キーフレーム間隔測定部１０１に対して、最大シーク処理時間を調査したいデジタルデータが指定されると、キーフレーム間隔測定部１０１は指定されたデジタルデータを読み出す（ステップＳ５０１：指定データ読み込み工程）。又、基準となる画像サイズ（所定画像サイズ）の圧縮画像データの１フレームのデコード処理に要する時間が、利用者３００からシーク処理時間算出部１０２に通知される（ステップＳ５０２：デコード時間通知工程）。
【００５９】
次いで、キーフレーム間隔測定部１０１は、デジタルデータのヘッダ情報、若しくは圧縮動画像データのヘッダ情報を調べて圧縮動画像データの画像サイズを決定し、シーク処理時間算出部１０２に入力する（ステップＳ５０３：画像サイズ決定工程）。ここで、圧縮動画像データの画像サイズとは、圧縮動画像データを構成するドット数のことであり、大きさを縦×横の値で表したものである。
【００６０】
例えば、前述したＭＰ４では、ヘッダ情報に画像の縦横サイズフィールドがあり、ＭＰＥＧ４Ｖｉｄｅｏにおいても先頭部分に同様のフィールドが存在する。これらにより、圧縮動画像データの画像サイズを決定することが可能である。
【００６１】
又、キーフレーム間隔測定部１０１は、第１実施形態で説明したように、デジタルデータの最大フレーム数を測定し、シーク処理時間算出部１０２に入力する。
【００６２】
続いて、シーク処理時間算出部１０２では、圧縮動画像データの１フレームのデコード処理に要する時間（Frame Dec Time）を、キーフレーム間隔測定部１０１から入力された画像サイズと、利用者３００から通知された基準となる画像サイズの圧縮画像データの１フレームのデコード処理に要する時間（Frame Dec Time Org）とから算出する。一般に、圧縮動画像データのデコード処理量は画像サイズ（面積）に比例するので、基準となる画像サイズの圧縮動画像データのデコード処理量が分かれば、例えば以下の式により１フレームのデコード処理時間を算出することができる。
【００６３】
Frame Dec Time＝（Frame Dec Time Org×画像サイズ）／基準画像サイズ・・（２）
【００６４】
例えば、本実施形態で指定されたデジタルデータに含まれる圧縮動画像データの画像サイズが、上記基準となる画像サイズの１．５倍であった場合、本実施形態で指定されたデジタルデータに含まれる圧縮動画像データの１フレームのデコード処理に要する時間は、基準となる画像サイズの圧縮画像データの１フレームのデコード処理に要する時間の１．５倍となる。
【００６５】
シーク処理時間算出部１０２は、式（２）より算出した圧縮動画像データの１フレームのデコード処理に要する時間と、キーフレーム間隔測定部１０１から入力された最大フレーム数とに基づいて最大シーク処理時間を算出し、その情報を利用者３００に出力する。又、シーク処理時間算出部１０２は、キーフレーム間隔測定部１０１から入力された情報が、最大フレーム数を測定できないことを示す情報であった場合、第１実施形態と同様に、最大シーク処理時間を算出できないことを示す情報を利用者３００に出力する。
【００６６】
以上のように本実施形態によれば、キーフレーム間隔測定部１０１により、シーク処理を行うと指定された圧縮動画像データの画像サイズを求め、求めた画像サイズと、基準となる画像サイズの圧縮動画像データの１フレームのデコード処理時間とから、圧縮動画像データの１フレームのデコード処理に要する時間を算出することができる。
【００６７】
ここで算出される圧縮動画像データの１フレームのデコード処理に要する時間は、圧縮動画像データの画像サイズによって決定されるものであるため、最大シーク処理時間を正確に算出することができる。
【００６８】
又、デジタルデータ再生装置のプラットフォームやシステムが変更されて圧縮動画像データのデコード処理能力が変化した場合でも、その変化に合わせて、圧縮動画像データの１フレームのデコード処理能力を変更することができる。このため、プラットフォームやシステムの変更の度に、シーク処理時間測定装置を別の装置に変更するといったことが不要となる。
【００６９】
尚、第１実施形態で説明したシーク処理時間測定装置の機能と第２実施形態で説明したシーク処理時間測定装置の機能との双方の機能を有するシーク処理時間測定装置を実現することも可能である。この場合は、該シーク処理時間測定装置に、２つの機能のうちどちらかの機能を選択する手段を設けることで、デジタルデータ再生装置のシステム性能等に応じて、最大シーク処理時間算出の方法を切り替えることができる。
【００７０】
【発明の効果】
本発明によれば、シーク操作におけるユーザの不快感を軽減するために、シーク処理に要する時間を求めることが可能なシーク処理時間測定装置を提供することができる。
【図面の簡単な説明】
【図１】本発明の第１実施形態に係るデジタルデータ再生装置の構成を示すブロック図。
【図２】本発明の第１実施形態に係るシーク処理時間測定装置の動作を示すフローチャート。
【図３】本発明の第１実施形態に係るシーク処理時間測定装置を適用した動画プレーヤにおけるワーニングの例を示し、（ａ）は最大シーク時間が５秒以上２０秒未満の場合、（ｂ）は最大シーク時間が２０秒以上となる場合の例である。
【図４】本発明の第２実施形態に係るデジタルデータ再生装置の構成を示すブロック図。
【図５】本発明の第２実施形態に係るシーク処理時間測定装置の動作を示すフローチャート。
【図６】圧縮動画像データの構成を示すイメージ図。
【図７】従来の圧縮動画像データのシーク処理手順を示すフローチャート。
【符号の説明】
１、２ デジタルデータ再生装置
１００、２００ シーク処理時間測定装置
１０１ キーフレーム間隔測定部
１０２ シーク処理時間算出部
３００ 利用者[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a seek processing time measuring device that measures the time required for seek processing of compressed moving image data, and a digital data reproducing device including the seek processing time measuring device.
[0002]
[Prior art]
A device that reproduces digital data such as music and video, represented by a DVD player (hereinafter referred to as a multimedia player) reproduces and displays compressed moving image data represented by a moving picture coding experts group (MPEG). It is generally done. Among the commercially available products of these multimedia playback devices, there are those equipped with a seek playback function that randomly accesses a large amount of digital data by a simple user operation and plays back from a desired position in the sequence. .
[0003]
There are various patterns in the digital data seek playback operation. For example, seek after +3 seconds or seek after -3 seconds by operating the fast forward / rewind button, or digitally by seek bar There are data that specify the absolute time of data and can be reproduced from, for example, 10 seconds or from 1 minute.
[0004]
A method for processing compressed moving image data in such a seek reproduction operation will be described with reference to FIGS.
[0005]
FIG. 6 shows the structure of compressed moving image data encoded by MPEG, which is roughly composed of two types of frame data consisting of a key frame and a difference frame. Among these, the key frame is also called an I frame or an intra frame, and is encoded within the frame, and it is a frame that can constitute one image by itself. A difference frame is also called a P frame or an inter frame, and a plurality of frames are inserted at key frame intervals, and the difference from the previous frame is encoded. It is.
[0006]
FIG. 7 is a flowchart showing a seek playback procedure of compressed moving image data configured as described above, and a case where playback is designated from the 13th frame as the seek position will be described as an example.
[0007]
First, step S701 is a seek frame position determination step, in which a frame position T to be reproduced is determined from a seek position designated by an absolute time or the like. Here, T = 13. Note that playback time information is generally present in each frame as header and management information, and although there is an error of several tens of milliseconds due to the frame interval, the frame at almost the specified position is specified. It is possible.
[0008]
The next step S702 is a decoding start key frame position determination step, and obtains the key frame position K closest to the past direction including the frame of the seek position from the position information of the key frame existing in the header part and management information. As is apparent from FIG. 6, the eighth key frame is determined as the nearest key frame in this example, and K = 8.
[0009]
Subsequently, step S703 is a compressed moving image frame decoding step, in which the K (= 8) th key frame is decoded. As described above, the reason why the decoding is first performed from the key frame is that the image cannot be normally reproduced only by the difference frame because of the above-mentioned MPEG characteristics.
[0010]
Next, in the seek position arrival determination step in step S704, it is determined whether or not the decoded frame has reached the designated seek position T (= 13). As a result, if not reached, 1 is added to K in the decoding frame position updating step of step S705, and the process returns to step S703. In this example, this process is repeated a total of 5 times until the 13th frame is decoded.
[0011]
On the other hand, when the decoded frame reaches the designated seek position in the step S704, that is, if K = T, the image of the frame is displayed in the decoded image display step in step S706 and is synchronized with the audio or the like. To shift to normal playback operation. Note that decoding and display are repeated in the 14th and subsequent frames.
[0012]
As a method of processing compressed moving image data in such a seek reproduction operation, the management information included in each frame is used as a separate drive to speed up disk access, thereby reducing the time required for completion of the operation during the seek reproduction operation. Some can be shortened (see, for example, Patent Document 1). In addition, there is a technique that can register the key frame interval in advance and devise the management method to speed up the time until the completion of the seek reproduction operation (for example, see Patent Document 2).
[0013]
[Patent Document 1]
Japanese Patent No. 3193117 (pages 7-9, FIGS. 8-11)
[Patent Document 2]
Japanese Patent No. 3165120 (page 3-5, FIGS. 1 to 4)
[0014]
[Problems to be solved by the invention]
However, in the above-described method in which decoding is performed in order from the nearest key frame in the past direction with respect to the specified seek position, when the key frame interval is extremely far away, the decoding in step S705 is performed. The number of times of going through the frame position update process increases. Therefore, there is a problem that the time that the user waits until the operation is completed during the seek reproduction operation is increased.
[0015]
In addition, the above-described two conventional techniques aim to increase the speed of the seek reproduction operation and to efficiently perform the seek reproduction operation. For the compressed moving image data in which the key frame interval is extremely separated as described above. On the other hand, the problem that the user waits still remains.
[0016]
For example, for a content (digital data) that has a playback time of 1 hour or more but has a key frame only in the first frame, when the user makes a seek request to the position just before the end of playback, A frame that takes up to an hour or more must be decoded before reaching that position. In commercial DVDs and the like, there is little possibility that such extreme contents exist, but this may happen in contents downloaded via a network such as the Internet.
[0017]
The present invention has been made in view of the above circumstances, and a seek processing time measuring apparatus capable of obtaining the time required for seek processing of compressed moving image data in order to reduce user discomfort in a seek operation, and the same An object of the present invention is to provide a digital data reproducing apparatus provided with
[0018]
[Means for Solving the Problems]
The seek processing time measuring device of the present invention is a seek processing time measuring device for measuring a time required for seek processing of compressed moving image data composed of a key frame and a difference frame between the key frames, wherein the compressed moving image The maximum frame number measuring means for obtaining the maximum value of the number of frames in the key frame interval of the image data, the maximum value of the frame number obtained by the maximum frame number measuring means, and the decoding process of one frame of the compressed moving image data Maximum seek processing time calculation means for calculating and outputting the maximum value of the time required for the seek processing based on the maximum value of the decoding processing time.
[0019]
With this configuration, the maximum time required for the seek process can be calculated and output.
[0020]
The seek processing time measuring device of the present invention is a seek processing time measuring device for measuring a time required for seek processing of compressed moving image data composed of a key frame and a difference frame between the key frames, wherein the compressed moving image A maximum frame number measuring means for obtaining a maximum value of the number of frames in a key frame interval of image data; an image size measuring means for obtaining an image size of the compressed moving image data; an image size obtained by the image size measuring means; Based on the time required for decoding one frame of compressed moving image data of an image size, a decoding processing time required for decoding one frame of the compressed moving image data is calculated, and the calculated decoding processing time and the maximum Based on the maximum number of frames obtained by the frame number measuring means, the seek process And a maximum seek processing time calculation means which calculates and outputs the maximum value of the time required.
[0021]
With this configuration, the maximum time required for the seek process can be calculated and output.
[0022]
The seek processing time measuring device according to the present invention includes a maximum seek processing time calculation unit according to claim 1, a maximum seek processing time calculation unit according to claim 2, and a maximum seek processing time calculation unit according to claim 1. Selection means for selecting one of the maximum seek processing time calculation means according to claim 2.
[0023]
With this configuration, the maximum value of the time required for the seek process can be calculated according to various situations.
[0024]
Also, the seek processing time measuring apparatus of the present invention can determine the maximum value of the number of frames when the maximum number of frames measurement means cannot determine the maximum number of frames in the key frame interval of the compressed moving image data. Information indicating that there is no frame, and the maximum seek processing time calculation unit performs the seek process based on the information indicating that the maximum value of the number of frames output from the maximum frame number measurement unit cannot be obtained. Information indicating that the maximum time required cannot be calculated is output.
[0025]
With this configuration, when the maximum value of the number of frames in the key frame interval cannot be obtained, it is possible to output information indicating that the maximum value of time required for the seek process cannot be calculated.
[0026]
Further, in the seek processing time measuring apparatus of the present invention, the maximum frame number measuring means calculates the maximum number of frames in the key frame interval based on key frame position information included in a header portion of the compressed moving image data. Ask.
[0027]
With this configuration, since the maximum number of frames can be obtained only by checking the header portion, the maximum value of the time required for the seek process can be calculated at high speed.
[0028]
Further, the seek processing time measuring apparatus of the present invention, when there is only one key frame position information in the header part, the number of all frames in the compressed moving image data is the maximum value of the number of frames, When the key frame position information does not exist in the header portion, information indicating that the maximum value of the number of frames cannot be obtained is set as the maximum value of the number of frames.
[0029]
With this configuration, in the case of compressed moving image data in which only one key frame position information exists, the time for obtaining the maximum value of the number of frames in the key frame interval can be shortened, and the time required for seek processing can be reduced. The maximum value can be calculated at high speed. In addition, in the case of moving image data in which no key frame exists, it is possible to output information indicating that the maximum time required for seek processing cannot be calculated.
[0030]
The digital data reproducing apparatus of the present invention includes the seek processing time measuring device, and includes notification means for notifying contents according to information output from the seek processing time calculating means.
[0031]
With this configuration, it is possible to prompt the user to warn about the seek operation before starting the seek process in accordance with the information output from the seek processing time calculation unit, and to make the user feel uncomfortable in the seek operation of the compressed moving image data. It becomes possible to reduce.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
The seek processing time measuring apparatus according to the embodiment of the present invention is capable of decoding one frame of compressed moving image data out of digital data including compressed moving image data and music data compressed in MPEG format. This is based on the fact that it is known according to the system that performs the above and that the header portion of the digital data or compressed moving image data contains key frame position information. For example, when a system is configured using an MPEG4 Video decoding DSP, the decoding processing speed of one frame of compressed moving image data is determined by the DSP performance (for example, the maximum is 60 frames / second, etc.).
[0033]
The seek processing time measuring device according to the embodiment of the present invention is based on the key frame position information included in the header portion of the compressed moving image data, and the time required for the seek processing for the compressed moving image data before the start of seeking. The theoretical maximum value is obtained, and information such as the seek processing time in the seek operation is given to the user in accordance with the information on the maximum value, so that the user can be alerted. Embodiments of a seek processing time measuring apparatus and a digital data reproducing apparatus having the same according to the present invention will be described below in detail with reference to the drawings.
[0034]
The seek process referred to in the present embodiment refers to a process in which the digital data reproducing apparatus performs operations from S703 to S706 shown in FIG.
[0035]
(First embodiment)
FIG. 1 is a block diagram showing a configuration of a digital data reproducing apparatus provided with a seek processing time measuring apparatus according to the first embodiment of the present invention.
The seek processing time measuring apparatus 100 includes a key frame interval measuring unit 101 that obtains the maximum number of frames in the key frame interval (hereinafter referred to as the maximum number of frames) from the header information of the compressed moving image data, and a key frame interval measuring unit 101. And a seek processing time calculation unit 102 that calculates a maximum value of time required for seek processing (hereinafter referred to as maximum seek processing time) from the maximum number of frames obtained by the above.
[0036]
A user 300 is a moving image player application whose main purpose is to reproduce and manage digital data, and is a part that directly exchanges operations with users. Further, the digital data reproducing apparatus 1 having the user 300 and the seek processing time measuring apparatus 100 reproduces moving images and sounds included in the digital data by connecting to a display, a speaker, and the like (not shown).
[0037]
Next, the operation of the seek processing time measuring apparatus 100 will be described with reference to the flowchart of FIG. FIG. 2 is a flowchart for explaining the operation of the seek processing time measuring apparatus according to the first embodiment of the present invention.
[0038]
First, when the user 300 designates digital data to be searched for the maximum seek processing time to the seek processing time measuring apparatus 100, the key frame interval measuring unit 101 reads the designated digital data (step S201: Designated data reading step).
[0039]
The key frame interval measurement unit 101 checks whether there is key frame position information in the header portion of the designated digital data (step S202: key frame information presence / absence determination step). As a result, when there is key frame position information, the maximum frame number (Max Key Frame Int Num) is measured (step S203: maximum frame number measurement step). On the other hand, when there is no key frame position information, information indicating that the maximum number of frames cannot be measured is set as a measurement value (step S204: measurement impossible value setting step).
[0040]
Note that the format of the digital data specified here is MP4 (ISO / IEC 14496-1), and there is a key frame number table as shown in Table 1, for example, in the header portion.
[0041]
[Table 1]

[0042]
The maximum number of frames measured by the key frame interval measurement unit 101 is, for example, the number of difference frames existing between key frames or the difference frames and the difference frames and the difference frames going back in the past direction. It is a value obtained by adding the key frame at the position. Therefore, in the example of Table 1, Max Key Frame Int Num is 100 frames between 101 and 201, 401 and 501, 501 and 601, and 651 and 751.
[0043]
Next, the seek processing time calculation unit 102 determines the maximum time (Frame Dec Time, hereinafter referred to as the maximum decoding processing time) required for decoding one frame of compressed moving image data included in digital data, which is determined in advance from system performance. ) Is set, the theoretical maximum seek processing time (Max Seek Wait Time) is calculated using the following formula (1) based on the maximum number of frames input from the key frame interval measurement unit 101. (Step S205: Maximum seek processing time calculation step).
[0044]
Max Seek Wait Time = Max Key Frame Int Num x Frame Dec Time (1)
[0045]
For example, when an MPEG4 Video decoding DSP is used, as a performance, if only one frame of compressed moving image data of the maximum image size is decoded (not displayed), processing up to 50 frames per second is possible. / 50 seconds, and when this is multiplied by 100 of Max Key Frame Int Num, Max Seek Wait Time is calculated as 2 seconds.
[0046]
Information on the maximum seek processing time calculated in this way is output to the user 300. Based on the information output from the seek processing time calculation unit 102, the digital data playback apparatus 1 displays a warning (caution) on the display for the user who is about to play back the content by the video player (user 300). To display. This warning is performed after the digital data reproducing apparatus 1 receives a seek operation instruction from the user until the moving image is actually reproduced. Preferably, the digital data reproduction apparatus 1 is performed after the seek operation instruction is received from the user until the seek process is started.
[0047]
Further, when information indicating that the maximum number of frames cannot be measured is input from the key frame interval measurement unit 101, the seek processing time calculation unit 102 indicates that the maximum seek processing time cannot be calculated instead of the maximum seek processing time. The information shown is output to the user 300.
[0048]
The warning in the video player can be performed, for example, as follows according to the information output from the seek processing time calculation unit 102.
When the maximum seek processing time output from the seek processing time calculation unit 102 is less than 5 seconds, the digital data reproducing apparatus 1 reproduces digital data from the seek position as it is without issuing a warning.
[0049]
When the maximum seek processing time output from the seek processing time calculation unit 102 is not less than 5 seconds and less than 20 seconds, the digital data reproducing device 1 can execute “! A warning “This may take time” is displayed on the display, and control is performed so that a seek operation cannot be performed unless a user gives an instruction.
[0050]
When the maximum seek processing time output from the seek processing time calculation unit 102 is 20 seconds or more, or when information indicating that the seek processing time calculation unit 102 cannot calculate the maximum value of the seek processing time is output, the digital data As shown in FIG. 3B, the playback device 1 displays a warning “!! This file cannot be repeated for seek” on the display and controls so that a seek operation cannot be performed.
[0051]
The warning may be output as sound from a speaker, or may be output both as characters and sound, in addition to being output as characters on the display. By outputting the warning as a voice, it is possible to make the user aware of the warning.
[0052]
As described above, according to the present embodiment, the key frame interval measurement unit 101 obtains the maximum number of key frames of compressed moving image data included in digital data to be seek-reproduced, and the seek processing time calculation unit 102 Based on the obtained maximum number of frames and the maximum time required for decoding one frame of compressed moving image data, the maximum seek processing time is calculated and output, and a warning is given to the user according to the output information. .
[0053]
As a result, it is possible to reduce the feeling of frustration of the user when the seek process does not end easily. Further, by giving attention to the content based on the maximum seek processing time calculated in advance before starting the seek processing, excellent operability and a good user interface can be realized.
[0054]
In addition, according to the present embodiment, the key frame interval measurement unit 101 obtains the maximum number of frames based on the key frame position information included in the header information of the digital data. The number of frames can be obtained. Therefore, it is not necessary to check the entire digital data, and processing can be performed at high speed.
[0055]
In the present embodiment, the key frame interval measurement unit 101 obtains the maximum number of frames based on the key frame position information included in the header information of the digital data, but is included in the header information of the digital data. When there is only one key frame position information, the key frame interval measurement unit 101 sets the total number of frames constituting the compressed moving image data as the maximum number of frames. As a result, when the number of key frame information is one, the maximum number of frames can be easily obtained, so that the processing of the seek processing time measuring apparatus 100 can be performed at high speed.
[0056]
(Second Embodiment)
FIG. 4 is a block diagram showing a configuration of a digital data reproducing apparatus provided with a seek processing time measuring apparatus according to the second embodiment of the present invention. Although the configuration is the same as in FIG. 1, the data flow and the functions of the key frame interval measurement unit 101 and the seek processing time calculation unit 102 are partially different. In addition, the same code | symbol as FIG. 1 is attached | subjected to the same component, and description is abbreviate | omitted.
[0057]
Next, the operation of the seek processing time measuring apparatus 200 according to the present embodiment will be described with reference to the flowchart shown in FIG.
FIG. 5 is a flowchart for explaining the operation of the seek processing time measuring apparatus according to the second embodiment of the present invention.
[0058]
First, when the user 300 designates digital data for which the maximum seek processing time is to be investigated to the key frame interval measuring unit 101, the key frame interval measuring unit 101 reads the designated digital data (step S501: Designated data reading process). Also, the time required to decode one frame of compressed image data having a reference image size (predetermined image size) is notified from the user 300 to the seek processing time calculation unit 102 (step S502: decoding time notification step). .
[0059]
Next, the key frame interval measurement unit 101 determines the image size of the compressed moving image data by checking the header information of the digital data or the header information of the compressed moving image data, and inputs it to the seek processing time calculation unit 102 (step S503). : Image size determination step). Here, the image size of the compressed moving image data is the number of dots constituting the compressed moving image data, and the size is represented by a vertical x horizontal value.
[0060]
For example, in the above-described MP4, the header information includes the vertical and horizontal size fields of the image, and the same field exists in the head portion of MPEG4 Video. As a result, the image size of the compressed moving image data can be determined.
[0061]
Further, as described in the first embodiment, the key frame interval measurement unit 101 measures the maximum number of frames of the digital data and inputs it to the seek processing time calculation unit 102.
[0062]
Next, the seek processing time calculation unit 102 notifies the user 300 of the time (Frame Dec Time) required to decode one frame of the compressed moving image data and the image size input from the key frame interval measurement unit 101. It is calculated from the time (Frame Dec Time Org) required for the decoding process of one frame of the compressed image data having the reference image size. In general, since the decoding processing amount of compressed moving image data is proportional to the image size (area), if the decoding processing amount of compressed moving image data having a reference image size is known, for example, the decoding processing time of one frame can be calculated by the following equation Can be calculated.
[0063]
Frame Dec Time = (Frame Dec Time Org x image size) / reference image size (2)
[0064]
For example, when the image size of the compressed moving image data included in the digital data specified in the present embodiment is 1.5 times the reference image size, it is included in the digital data specified in the present embodiment. The time required to decode one frame of compressed moving image data is 1.5 times the time required to decode one frame of compressed image data having a reference image size.
[0065]
The seek processing time calculation unit 102 performs maximum seek processing based on the time required for decoding one frame of compressed moving image data calculated from the equation (2) and the maximum number of frames input from the key frame interval measurement unit 101. Time is calculated and the information is output to the user 300. In addition, when the information input from the key frame interval measurement unit 101 is information indicating that the maximum number of frames cannot be measured, the seek processing time calculation unit 102 is the maximum seek processing time as in the first embodiment. The information indicating that cannot be calculated is output to the user 300.
[0066]
As described above, according to the present embodiment, the key frame interval measurement unit 101 obtains the image size of the specified compressed moving image data when the seek process is performed, and compresses the obtained image size and the reference image size. From the decoding processing time of one frame of moving image data, the time required to decode one frame of compressed moving image data can be calculated.
[0067]
Since the time required for decoding one frame of compressed moving image data calculated here is determined by the image size of the compressed moving image data, the maximum seek processing time can be accurately calculated.
[0068]
Further, even when the platform or system of the digital data reproducing apparatus is changed and the decoding processing capability of the compressed moving image data is changed, the decoding processing capability of one frame of the compressed moving image data can be changed in accordance with the change. it can. For this reason, it is not necessary to change the seek processing time measuring device to another device each time the platform or system is changed.
[0069]
It is also possible to realize a seek processing time measuring apparatus having both the functions of the seek processing time measuring apparatus described in the first embodiment and the functions of the seek processing time measuring apparatus described in the second embodiment. is there. In this case, by providing the seek processing time measuring device with means for selecting one of the two functions, the maximum seek processing time calculation method can be selected according to the system performance of the digital data reproducing device. Can be switched.
[0070]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, in order to reduce the user's discomfort in seek operation, the seek processing time measuring apparatus which can obtain | require the time which a seek process requires can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a digital data reproducing apparatus according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing the operation of the seek processing time measuring apparatus according to the first embodiment of the present invention.
FIG. 3 shows an example of a warning in a video player to which the seek processing time measuring apparatus according to the first embodiment of the present invention is applied. FIG. 3A shows a case where the maximum seek time is 5 seconds or more and less than 20 seconds. Is an example when the maximum seek time is 20 seconds or more.
FIG. 4 is a block diagram showing a configuration of a digital data reproducing apparatus according to a second embodiment of the present invention.
FIG. 5 is a flowchart showing the operation of the seek processing time measuring apparatus according to the second embodiment of the present invention.
FIG. 6 is an image diagram showing a configuration of compressed moving image data.
FIG. 7 is a flowchart showing a conventional procedure for seek processing of compressed moving image data.
[Explanation of symbols]
1, 2 Digital data playback device
100, 200 seek processing time measuring device
101 Key frame interval measurement unit
102 Seek processing time calculation unit
300 users

Claims (7)

A seek processing time measuring device for measuring a time required for seek processing of compressed moving image data composed of a key frame and a difference frame between the key frame,
Maximum frame number measuring means for obtaining a maximum value of the number of frames in the key frame interval of the compressed moving image data;
Based on the maximum number of frames obtained by the maximum frame number measuring means and the maximum decoding processing time required for decoding one frame of the compressed moving image data, the maximum time required for the seek processing is A seek processing time measuring device comprising a maximum seek processing time calculating means for calculating and outputting. A seek processing time measuring device for measuring a time required for seek processing of compressed moving image data composed of a key frame and a difference frame between the key frame,
Maximum frame number measuring means for obtaining a maximum value of the number of frames in the key frame interval of the compressed moving image data;
Image size measuring means for obtaining an image size of the compressed moving image data;
Based on the image size obtained by the image size measuring means and the time required for decoding one frame of compressed moving image data of a predetermined image size, the decoding processing time required for decoding one frame of the compressed moving image data The maximum seek processing time calculation for calculating and outputting the maximum value of the time required for the seek processing based on the calculated decoding processing time and the maximum number of frames obtained by the maximum frame number measuring means And a seek processing time measuring device. The maximum seek processing time calculating means according to claim 1,
Maximum seek processing time calculation means according to claim 2,
A seek processing time measuring device comprising: a maximum seek processing time calculation unit according to claim 1; or a selection unit that selects either the maximum seek processing time calculation unit according to claim 2. The seek processing time measuring device according to claim 1,
The maximum frame number measurement means outputs information indicating that the maximum value of the number of frames cannot be obtained when the maximum value of the number of frames in the key frame interval of the compressed moving image data cannot be obtained.
The maximum seek processing time calculation means cannot calculate the maximum value of time required for the seek process based on information indicating that the maximum value of the number of frames output from the maximum frame number measurement means cannot be obtained. Seek processing time measuring device for outputting information indicating The seek processing time measuring device according to claim 4,
The maximum frame number measuring means is a seek processing time measuring device for obtaining a maximum value of the number of frames in the key frame interval based on key frame position information included in a header portion of the compressed moving image data. The seek processing time measuring device according to claim 5,
When there is only one key frame position information in the header part, the number of all frames in the compressed moving image data is set as the maximum value of the number of frames, and there is no key frame position information in the header part. Includes a seek processing time measuring apparatus that sets information indicating that the maximum value of the number of frames cannot be obtained as the maximum value of the number of frames. A digital data reproducing apparatus comprising: the seek processing time measuring device according to any one of claims 1 to 6; and a notification means for notifying contents according to information output from the seek processing time calculation means.

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