JP3579014B2 - Data sorting storage device and data processing device using the same - Google Patents

Description

【表２】

デマルチプレクサ２１４にて番組ａを選別するために、ＰＩＤテーブル２０４には、表３に示すようにＰＩＤが予めＣＰＵ２１３により設定されている。
【００４４】
【表３】

ＰＩＤ抽出回路２０３は、図４（ａ）に示すトランスポートストリームが入力されると、各ＴＳパケットからＰＩＤを取り出し、ＰＩＤ比較回路２０５に出力する。
【００４５】
ＰＩＤ比較回路２０５は、ＰＩＤ抽出回路２０３から受信したＰＩＤが、ＰＩＤテーブル２０４に設定されているＰＩＤに一致するかどうか一致検出を行い、ＰＩＤテーブル２０４に一致するＰＩＤがあった場合には、一致検出信号として「一致」したことをパケット選別回路２０６に通知する。同時に一致したＰＩＤが設定されているＰＩＤテーブル２０４のＰＩＤエントリ番号を一致ＰＩＤエントリ番号として、データ蓄積制御回路２０８に通知する。一方、ＴＳパケットのＰＩＤとＰＩＤテーブル２０４のＰＩＤが一致しなかった場合、ＰＩＤ比較回路２０５はパケット選別回路２０６に一致検出信号として「不一致」であることを通知する。
【００４６】
パケット選別回路２０６では、ＰＩＤ比較回路２０５からの一致検出信号が「一致」を示す場合には、ＴＳパケットをフォーマット解析回路２０７に出力するが、「不一致」の場合にはＴＳパケットを破棄する。この結果、パケット選別回路２０６に入力されたトランスポートストリームは、図４（ｂ）に示すように番組ａを構成するＴＳパケットに選別される。
【００４７】
本実施の形態１のデータ蓄積制御回路２０８は、フォーマット解析回路２０７から入力された各ＴＳパケットにＰＩＤ比較回路２０５から受信した一致ＰＩＤエントリ番号を付与する。さらに、データ蓄積制御回路２０８では、メモリ２１１内に映像データ蓄積領域、音声データ蓄積領域、番組情報蓄積領域の３つの蓄積領域を管理しており、各ＴＳパケットの一致ＰＩＤエントリ番号に基づき、いずれかの蓄積領域にＴＳパケットデータを書きこむ。各ＴＳパケットデータに付与された一致ＰＩＤエントリ番号と、メモリ２１１内の蓄積領域との対応付けは表４のようになされている。
【００４８】
【表４】

データ蓄積制御回路２０８は、図４（ｃ）に示すように、３種類のＰＩＤ（Ｖａ１，Ｖａ２，Ｖａ３）の映像データを多重蓄積対象として、全てメモリ２１１内に設けられた一つの映像データ蓄積領域に蓄積する。
【００４９】
オーディオビデオデコード回路２１２は、データ蓄積制御回路２０８を制御して、番組ａの映像データをメモリ２１１の映像データ蓄積領域から読み出す。この際、図４（ｃ）に示すように３種類のＰＩＤ（Ｖａ１，Ｖａ２，Ｖａ３）の映像データが一つの映像データ蓄積領域に多重して蓄積されているため、オーディオビデオデコード回路２１２には再生すべき三種類の映像データがデータ蓄積制御回路２０８から順次渡されることになる。
【００５０】
このように本発明の実施の形態１によるデータ選別蓄積装置によれば、番組に含まれる複数の映像データをデマルチプレクサ２１４により選別し、該複数の映像データをメモリ２１１内の映像データ蓄積領域に順次書き込むので、オーディオビデオデコード回路２１２では、上記映像データ蓄積領域から複数の映像データを順次読み出し、各映像データのＰＩＤに基づいて同時再生することができ、画面上に複数の映像を同時に表示することが可能となる。
【００５１】
（実施の形態２）
次に、本発明の実施の形態２として、データ蓄積領域に蓄積された映像データのデコード処理を簡易に行うためのデータ選別蓄積装置について説明する。
上述した本発明の実施の形態１では、映像データは図４（ｃ）に示すように、メモリ２１１内の１つの映像データ蓄積領域に多重して蓄積されるため、デコード処理を行なう際には、オーディオビデオデコード回路２１２は、各映像データのＰＩＤに基づいて多重化された３種類の映像データを識別する必要がある。
【００５２】
そのため、オーディオビデオデコード回路２１２では映像データ蓄積領域から取り出した３種類の映像データから再びＰＩＤ（Ｖａ１，Ｖａ２，Ｖａ３）を抽出し、ＰＩＤに基づき３種類の映像データを識別し、それぞれのＰＩＤをもつパケットを別の映像としてデコードすることになる。すなわち、デマルチプレクサ２１４のＰＩＤ抽出回路２０３、ＰＩＤテーブル２０４、ＰＩＤ比較回路２０５、パケット選別回路２０６で行ったＰＩＤの一致検出とパケットの選別と同様の処理を繰り返すことになる。
【００５３】
そこで、本発明の実施の形態２によるデータ選別蓄積装置では、データ蓄積制御回路が、映像データをデータ蓄積領域に書込む際に、各映像データを識別するための情報を各映像データと共に記録する構成とする。
【００５４】
以下に、この本発明の実施の形態２によるデータ選別蓄積装置について詳細に説明する。なお、本実施例のディジタル放送受信装置及びデータ選別蓄積装置の構成は、上述した実施の形態１と同様であるので、説明には図２及び図３を用いる。
【００５５】
図５（ａ）は本発明の実施の形態２において、デマルチプレクサに入力されるトランスポートストリームを示す図、図５（ｂ）は図５（ａ）のトランスポートストリームからデマルチプレクサの選別処理により得られたＴＳパケットの内容を示す図、図５（ｃ）はデマルチプレクサにより選別されたデータがメモリに蓄積された状態を示す図である。
【００５６】
デマルチプレクサ２１４のデータ蓄積制御回路２０８は、パケット選別回路２０６にて選別された映像データ（図５（ｂ）参照）をメモリ２１１の映像データ蓄積領域に書きこむ際に、ＰＩＤ比較回路２０５で検出された一致ＰＩＤエントリ番号を、映像データに付与して映像データ蓄積領域に記録する。具体的には、図５（ｃ）に示すように、ＰＩＤテーブル２０４のエントリ０に設定されているＰＩＤ（＝Ｖａ１）を持つ映像データパケットには、一致ＰＩＤエントリ番号として「０」が、エントリ１に設定されているＰＩＤ（＝Ｖａ２）を持つ映像データパケットには、一致ＰＩＤエントリ番号として「１」が、エントリ２に設定されているＰＩＤ（＝Ｖａ３）を持つ映像データパケットには、一致ＰＩＤエントリ番号として「２」が付与されることになる。
【００５７】
オーディオビデオデコード回路２１２がメモリ２１１の映像データ蓄積領域に多重記録された映像データを取り出す時には、付与されている一致ＰＩＤエントリ番号をあらかじめ読み出すことになるため、映像データ内のＰＩＤの取り出しやＰＩＤの比較を行うことなく、３種類の映像データの識別を行うことが可能となる。
【００５８】
このように本発明の実施の形態２によるデータ選別蓄積装置によれば、オーディオビデオデコード回路２１２の構成及び処理内容の複雑化を伴うことなく、複数の映像データの同時再生を実現することができる。
【００５９】
（実施の形態３）
本発明の実施の形態３では、ディジタル放送受信装置２００において、図７（ａ）に示す２番組ａ，ｂが多重化されたトランスポートストリームから番組ａを選別し、番組ａに含まれる３種類の映像データをデコード再生する場合について説明する。以下、デマルチプレクサとメモリにより構成されるデータ選別蓄積装置の動作を中心に図６及び図７を用いて説明する。
【００６０】
本実施の形態におけるディジタル放送受信装置の構成は、実施の形態１において図２を用いて説明したディジタル放送受信装置２００と同じであり、ここではその説明を省略する。
図６は本発明の実施の形態３によるデータ選別蓄積装置の構成を示すブロック図である。図において、図２と同一符号は同一または相当部分である。
【００６１】
図７（ａ）は本発明の実施の形態３において、デマルチプレクサに入力されるトランスポートストリームを示す図、図７（ｂ）は図７（ａ）のトランスポートストリームからデマルチプレクサの選別処理により得られたＴＳパケットの内容を示す図、図７（ｃ）はデマルチプレクサにより選別されたＴＳパケットがメモリに蓄積された状態を示す図である。
【００６２】
図７（ａ）に示すトランスポートストリームは、実施の形態１と同様に表１、表２に示すようなＰＩＤをもつ映像データ、音声データ、番組情報を有する２つの番組ａ、ｂにより構成されている。
【００６３】
本発明の実施の形態３のＰＩＤテーブル５０４には、受信すべきデータのＰＩＤだけでなく、各ＰＩＤを有するＴＳパケットデータを蓄積するメモリ２１１内の蓄積領域を示す番号（以下、蓄積領域番号という）を格納できるようになっている。ここで、デマルチプレクサ５１４にて番組ａを選別するために、ＰＩＤテーブル５０４には、表５に示すようにＰＩＤと蓄積領域番号が予めＣＰＵ２１３により設定されている。
【００６４】
【表５】

ＰＩＤ抽出回路２０３は、図７（ａ）に示すトランスポートストリームが入力されると、各ＴＳパケットからＰＩＤを取り出し、ＰＩＤ比較回路５０５に出力する。
【００６５】
ＰＩＤ比較回路５０５は、ＰＩＤ抽出回路２０３から受信したＰＩＤが、ＰＩＤテーブル５０４に設定されているＰＩＤに一致するかどうか一致検出を行い、ＰＩＤテーブル５０４に一致するＰＩＤがあった場合には、一致検出信号として「一致」したことをパケット選別回路２０６に通知する。同時に一致したＰＩＤが設定されているＰＩＤエントリの蓄積領域番号を一致領域番号として、データ蓄積制御回路５０８に通知する。一方、ＴＳパケットのＰＩＤとＰＩＤテーブル５０４のＰＩＤが一致しなかった場合、ＰＩＤ比較回路５０５はパケット選別回路２０６に一致検出信号として「不一致」であることを通知する。
【００６６】
パケット選別回路２０６では、ＰＩＤ比較回路２０５からの一致検出信号が「一致」を示す場合には、ＴＳパケットをフォーマット解析回路２０７に出力するが、「不一致」の場合にはＴＳパケットを破棄する。この結果、パケット選別回路２０６に入力されたトランスポートストリームは、図７（ｂ）に示すように番組ａを構成するＴＳパケットに選別される。
【００６７】
データ蓄積制御回路５０８では、フォーマット解析回路２０７から入力された各ＴＳパケットにＰＩＤ比較回路５０５から受信した一致領域番号を付与し、さらに、この一致領域番号が示すメモリ２１１内の蓄積領域に各ＴＳパケットデータを書きこむ。
【００６８】
本実施の形態３のデータ蓄積制御回路５０８では、メモリ２１１内に映像データ蓄積領域（蓄積領域番号２）、音声データ蓄積領域（蓄積領域番号１）、番組情報蓄積領域（蓄積領域番号０）の３つの蓄積領域を管理しており、表５に示すように、受信した３種類の映像データには蓄積領域番号として「２」が付与されているため、３種類のＰＩＤ（Ｖａ１，Ｖａ２，Ｖａ３）の映像データは全て一つの映像データ蓄積領域に蓄積する。
【００６９】
オーディオビデオデコード回路２１２は、データ蓄積制御回路２０８を制御して、番組ａの映像データをメモリ２１１の映像データ蓄積領域から読み出す。この際、図７（ｃ）が示すように３種類のＰＩＤ（Ｖａ１，Ｖａ２，Ｖａ３）の映像データが一つの映像データ蓄積領域に多重して蓄積されているため、オーディオビデオデコード回路２１２には再生すべき３種類の映像データがデータ蓄積制御回路５０８から順次渡されることになる。
【００７０】
このように、オーディオビデオデコード回路２１２は３つの映像データを再生する場合にも１つの映像データを再生する場合と同様に、一つの映像データ蓄積領域から３種類の多重した映像データを読み出すことにより、３種類の映像の同時再生を行うことができる。
【００７１】
（実施の形態４）
次に、本発明の実施の形態４として、放送される映像データのＰＩＤが変更になる場合にスムーズなＰＩＤの切り替えを行うことができるデータ選別蓄積装置について説明する。なお、本実施の形態４では、上述した実施の形態３によるデータ選別蓄積装置にＰＩＤの切り替え機能を設けたものについて説明を行なう。従来、ディジタル放送受信装置が受信する映像データのＰＩＤが変更する場合は、ＣＰＵは、新たに受信しなければならないＰＩＤをＰＩＤテーブルに追加設定するとともに、この映像データを蓄積する蓄積領域をメモリに新たに設定し、受信データをこの蓄積領域に記録するように設定しなければなかった。
【００７２】
つまり、受信する映像データのＰＩＤが切り替わり、ＰＩＤ変更後の映像データが新たに設定した映像データ蓄積領域に蓄積されたことをＣＰＵが認識した後に、オーディオビデオデコード回路へ出力する映像データの蓄積領域を変更する。これにより、オーディオビデオデコード回路は、ＰＩＤ変更後の映像データを再生し始めることができるようになる。
【００７３】
しかしながら、このようなＰＩＤの切り替え動作では、ＰＩＤの変更のタイミングをＣＰＵが監視し、メモリ内の映像データ蓄積領域の設定や、オーディオビデオデコード回路へ出力するデータの記憶領域の変更などの操作をおこなう必要があった。そのため、ＣＰＵの処理が複雑化する。また、映像データのＰＩＤが切り替わる時点より遅れてＰＩＤ変更後の映像データの再生が開始されることになる。
【００７４】
そこで、本発明の実施の形態４によるデータ選別蓄積装置は、映像データのＰＩＤが変更になることを、あらかじめ番組情報を用いてディジタル放送受信装置２００に通知し、スムーズなＰＩＤの切り替えを実現するものである。
【００７５】
以下に、本発明の実施の形態４によるデータ選別蓄積装置について詳細に説明する。なお、本実施例のディジタル放送受信装置及びデータ選別蓄積装置の構成は、上述した実施の形態３と同様であるので、説明には図２及び図６を用いる。
【００７６】
図８（ａ）は本発明の実施の形態３において、デマルチプレクサに入力されるトランスポートストリームを示す図、図８（ｂ）は図８（ａ）のトランスポートストリームからデマルチプレクサの選別処理により得られたＴＳパケットの内容を示す図、図８（ｃ）はデマルチプレクサにより選別されたＴＳパケットがメモリに蓄積された状態を示す図である。
図８（ａ）に示すトランスポートストリームは、実施の形態１と同様に表１、表２に示すようなＰＩＤをもつ映像データ、音声データ、番組情報を有する２つの番組ａ、ｂにより構成されている。
【００７７】
本実施の形態４では、図８（ａ）に示すように、番組ａの映像データのＰＩＤが矢印で示す番組ａの映像データＰＩＤ変更位置１２でＶａ４に変更されるとする。そして、このような場合には、図７（ａ）の一つ目の番組情報Ｓａ１１で映像データのＰＩＤがＶａ１，Ｖａ２，Ｖａ３からＶａ４に変更になることが予めディジタル放送受信装置２００に通知されることとなる。つまり、ディジタル放送受信装置２００において、この番組情報Ｓａ１１がメモリ２１１の番組情報蓄積領域に記録され、ＣＰＵ２１３が番組情報蓄積領域からＳａ１１によるＰＩＤ変更通知を読み出すことにより、ＣＰＵ２１３は、ＰＩＤの変更をあらかじめ知ることができる。
【００７８】
ＣＰＵ２１３は、番組情報Ｓａにより映像データＰＩＤの切り替えが通知された時に、新たに受信するＰＩＤ＝Ｖａ４をＰＩＤテーブル５０４の空きエントリに設定する。なお、この時、ＰＩＤ切替え後に入力される映像データであるＰＩＤ＝Ｖａ４も、ＰＩＤ切り替え前の映像データと同じ蓄積領域（蓄積領域番号２）に記憶されるように設定する。
【００７９】
具体例をあげると、例えば、ＰＩＤテーブル５０４のエントリ５が空きエントリであった場合には、当該空きエントリ５にＰＩＤ＝Ｖａ４のエントリを新たに設定し、ＰＩＤテーブル５０４は、表６のようになる。
【００８０】
【表６】

このように設定しておくと、図７（ｂ）に示すように、デマルチプレクサ２１４に入力される映像データのＰＩＤがＶａ４に変更するのと同時に、パケット選別回路２０６によりＰＩＤ＝Ｖａ４のＴＳパケットを選別することができる。さらに、ＰＩＤテーブル５０４において、ＰＩＤ＝Ｖａ４のＴＳパケットの蓄積領域番号に映像データ蓄積領域番号を示す「２」が設定されているので、図７（ｃ）に示すように、データ蓄積制御回路５０８は自動的にＰＩＤ＝Ｖａ４のＴＳパケットを映像データ蓄積領域に蓄積することができる。
【００８１】
この結果、デマルチプレクサ５１４は、受信する映像データのＰＩＤが変更になった時点で、自動的に即座に新しいＰＩＤのデータを選別し、ＰＩＤ変更前と同じ映像データ蓄積領域に引き続き蓄積することができる。
【００８２】
このように、本発明の実施の形態４によるデータ選別蓄積装置によれば、ＣＰＵ２１３は映像データのＰＩＤが切り替わるのを監視する必要が無くなり、また、オーディオビデオデコード回路２１２は、再生する映像データのＰＩＤが切り変わる時点で、ＰＩＤ変更前と同一の映像データ蓄積領域からＰＩＤ変更後の映像データを継続して取り出し、再生することができる。従って、ＣＰＵ２１３の処理内容が簡易になり、しかも、再生する映像データの切り替え処理をスムーズに行うことができる。
【００８３】
（実施の形態５）
本発明の実施の形態５では、複数のＡＶデータ蓄積領域にそれぞれ別の番組の映像データや音声データを多重して蓄積し、これらを別のオーディオデコート回路に出力することにより、複数の番組の映像・音声を同時にデコードすることができるデータ選別蓄積装置について説明する。以下、デマルチプレクサとメモリにより構成されるデータ選別蓄積装置の動作を中心に図９、図１０、図１１を用いて説明する。
【００８４】
図９は本実施の形態におけるディジタル放送受信装置の構成を示すブロック図である。図において、図２と同一符号は同一または相当部分でありここではその説明は省略する。
図１０は本発明の実施の形態３によるデータ選別蓄積装置の構成を示すブロック図である。図において、図６と同一符号は同一または相当部分である。
【００８５】
図１１（ａ）は本発明の実施の形態５において、デマルチプレクサに入力されるトランスポートストリームを示す図、図１１（ｂ）は図１１（ａ）のトランスポートストリームからデマルチプレクサの選別処理により得られたＴＳパケットの内容を示す図、図１１（ｃ）はデマルチプレクサにより選別されたＴＳパケットがメモリに蓄積された状態を示す図であり、図１１（ａ）に示すトランスポートストリームは、実施の形態１と同様に表１、表２に示すようなＰＩＤをもつ映像データ、音声データ、番組情報を有する２つの番組ａ、ｂにより構成されている。
【００８６】
なお、ここでは、ディジタル放送受信装置１０００において、図１１（ａ）に示す２番組ａ，ｂが多重化されたトランスポートストリームから番組ａを選別し、番組ａに含まれる３種類の映像データの内の２種と音声データとを第１のオーディオビデオデコード回路２１２でデコード再生しつつ、同時にこのトランスポートストリームから番組ｂを選別し番組ｂに含まれる映像データと音声データを別のオーディオビデオデコード回路１０１２にてデコード再生する場合について説明する。
【００８７】
図１０において、本発明の実施の形態５によるデータ選別蓄積装置のＰＩＤテーブル５０４には、表７に示すようなＰＩＤと蓄積領域番号が予めＣＰＵ２１３により設定されている。また、データ蓄積制御回路１００８は、メモリ２１１内にＡＶデータ蓄積領域１（蓄積領域番号２）、ＡＶデータ蓄積領域２（蓄積領域番号１）、番組情報蓄積領域（蓄積領域番号０）の３つの蓄積領域を管理し、蓄積領域番号に基づいて、番組ａ，ｂをそれぞれ別のＡＶデータ蓄積領域に多重して蓄積し、デコード時には、これらを別のオーディオデコート回路に出力する。
【００８８】
【表７】

ＰＩＤ抽出回路２０３は、図１１（ａ）に示すトランスポートストリームが入力されると、各ＴＳパケットからＰＩＤを取り出し、ＰＩＤ比較回路５０５に出力する。
【００８９】
ＰＩＤ比較回路５０５は、ＰＩＤ抽出回路２０３から受信したＰＩＤが、ＰＩＤテーブル５０４に設定されているＰＩＤに一致するかどうか一致検出を行い、ＰＩＤテーブル５０４に一致するＰＩＤがあった場合には、一致検出信号として「一致」したことをパケット選別回路２０６に通知する。同時に一致したＰＩＤが設定されているＰＩＤエントリの蓄積領域番号を一致領域番号として、データ蓄積制御回路５０８に通知する。一方、ＴＳパケットのＰＩＤとＰＩＤテーブル５０４のＰＩＤが一致しなかった場合、ＰＩＤ比較回路５０５はパケット選別回路２０６に一致検出信号として「不一致」であることを通知する。
【００９０】
パケット選別回路２０６では、ＰＩＤ比較回路２０５からの一致検出信号が「一致」を示す場合には、ＴＳパケットをフォーマット解析回路２０７に出力するが、「不一致」の場合にはＴＳパケットを破棄する。この結果、パケット選別回路２０６に入力されたトランスポートストリームは、図１１（ｂ）に示すように番組ａ、番組ｂを構成するＴＳパケットに選別される。
【００９１】
データ蓄積制御回路１００８では、フォーマット解析回路２０７から入力された各ＴＳパケットを、ＰＩＤ比較回路５０５から受信した一致領域番号の示すメモリ２１１内の蓄積領域に各ＴＳパケットデータを書きこむ。
【００９２】
即ち、データ蓄積制御回路１００８は、蓄積領域番号として「２」が付与されている番組ａの２種類の映像データ（Ｖａ１，Ｖａ２）および音声データ（Ａａ１）を全てＡＶデータ蓄積領域１に蓄積し、蓄積領域番号として「１」が付与されている番組ｂの映像データ（Ｖｂ１）および音声データ（Ａｂ１）をＡＶデータ蓄積領域２に蓄積する。
【００９３】
オーディオビデオデコード回路２１２は、データ蓄積制御回路１００８を制御して、番組ａの映像データをメモリ２１１のＡＶデータ蓄積領域１から読み出す。この際、図１１（ｃ）が示すように３種類のＰＩＤ（Ｖａ１，Ｖａ２，Ａａ１）の映像データおよび音声データが一つのＡＶデータ蓄積領域１に多重して蓄積されているため、オーディオビデオデコード回路２１２には再生すべき２種類の映像データと１種類の音声データがデータ蓄積制御回路１００８から順次渡されることになる。オーディオビデオデコード回路２１２は、データ蓄積制御回路１００８から入力されたＶａ１，Ｖａ２，Ａａ１のＰＩＤをもつＴＳパケットからなるデータから、各データのＰＩＤに基づいて、２種類の映像データ、１種類の音声データを取り出し、デコードした後、デコードされた映像と音声すなわち番組ａの映像と音声を出力する。
【００９４】
一方、オーディオビデオデコード回路１０１２は、データ蓄積制御回路１００８を制御して、番組ｂの映像データをメモリ２１１のＡＶデータ蓄積領域２から読み出す。この際、図１１（ｃ）が示すように２種類のＰＩＤ（Ｖｂ１，Ａｂ１）の映像データおよび音声データが一つのＡＶデータ蓄積領域２に多重して蓄積されているため、オーディオビデオデコード回路１０１２には再生すべき映像データと音声データがデータ蓄積制御回路１００８から順次渡されることになる。オーディオビデオデコード回路１０１２は、データ蓄積制御回路１００８から入力されたＶｂ１，Ａｂ１のＰＩＤをもつＴＳパケットからなるデータから、各データのＰＩＤに基づいて、１種類の映像データ、１種類の音声データを取り出しデコードした後、デコードされた映像と音声すなわち番組ｂの映像と音声を出力する。
【００９５】
このように、１つの番組を構成する複数の映像データや音声データをすべて１つのＡＶデータ蓄積領域に多重して蓄積し、これをオーディオビデオデコード回路でデコード、再生することができる。
【００９６】
また、さらに２つのＡＶデータ蓄積領域に別の番組の映像データや音声データをそれぞれ多重して蓄積し、これらを別のオーディオビデオデコード回路に渡すことにより、複数の番組の映像・音声を同時にデコードすることのできるディジタル放送受信装置を構成することが可能となる。
【００９７】
これにより、オーディオビデオデコード回路２１２の出力をテレビ受像機（図９には記載なし）より表示・出力するとともに、別の番組であるオーディオビデオデコード回路１０１２の出力をＶＴＲ（図９には記載なし）に録画（裏番組録画）するというような複数のオーディオビデオデコード機能を要する使用方法に適用できるディジタル放送受信装置を実現できる。
【００９８】
なお、本実施の形態では、オーディオビデオデコード回路が２つの場合を説明したがこれに限られるものではなく、データ蓄積制御回路によりメモリ内に３つ以上のＡＶデータ蓄積領域を管理するとともに、それぞれのＡＶデータ蓄積領域に蓄積された映像・音声データを３つ以上のオーディオビデオデコード回路に出力することも可能である。
【００９９】
（実施の形態６）
次に、本発明の実施の形態６として、複数の映像データをメモリ内の複数の蓄積領域に個別に蓄積した場合（図１３（ｃ）参照）に、オーディオビデオデコード回路６１２が同時に再生すべき複数の映像データをデコードすることができるデータ選別蓄積装置について説明を行なう。
図１２は本発明の実施の形態６によるディジタル放送受信装置の構成を示すブロック図である。図において、図２と同一符号は同一または相当部分である。
【０１００】
デマルチプレクサ６１４におけるデータ蓄積制御装置６０８は、図１３（ｃ）に示すように、複数の映像データをメモリ６１１内の複数の蓄積領域に個別に蓄積する。また、オーディオビデオデコード回路６１２は、同時に再生すべき映像データの種類の数に応じて、複数の映像データ要求信号を発生させることができるように構成されている。
【０１０１】
データ蓄積制御回路６０８は、オーディオビデオデコード回路６１２から出力される複数の映像データ要求信号に応じて、それぞれの映像データ要求信号に対応する映像データをメモリ６１１の複数の映像データ蓄積領域から取り出し、オーディオビデオデコード回路６１２に出力する。
【０１０２】
このように構成されたディジタル放送受信装置６００では、デマルチプレクサ６１４がオーディオビデオデコード回路６１２が必要とする複数の映像データをメモリ６１１内の複数の映像データ蓄積領域から取り出し、オーディオビデオデコード回路６１２に供給することができるようになり、データの蓄積領域とデコーダとを結ぶＩＦの構造を大きく変更することなく、オーディオビデオデコード回路６１２が複数の映像データを同時に再生することが可能となる。
【０１０３】
なお、本発明の実施の形態１，２，３，４では、１つの番組内に構成された３種類の映像データを同時に再生表示する場合について説明したが、映像データの種類は３種類に限定されるものではない。また、複数の映像データが属する番組は１つに限定されるものではなく、複数の番組の映像を同時にオーディオビデオデコード回路で再生する場合にも本発明は適用することができる。
【０１０４】
また、本発明の実施の形態１，２，３，４では、複数の映像データを多重する場合について説明したが、映像データに限定されるものではなく、複数の音声データを多重してオーディオビデオデコード回路に渡す場合や、音声データと映像データを多重してオーディオビデオデコード回路に渡す場合にも適用することができる。
【０１０５】
さらに、本発明の実施の形態１，２，３，４，５，６では、ディジタル放送を例に説明を行ったが、ディジタル放送に限定されるものではなく、ディジタルビデオレコーダやマルチメディアメモリカードのような記録媒体からの映像や音声の再生や、ＩＥＥＥ１３９４などの通信媒体を介して伝送される映像データや音声データを受信再生する場合にも適用することができる。
【０１０６】
【発明の効果】
このように本発明によるデータ選別蓄積装置によれば、番組に含まれる複数のデータをデマルチプレクサより選別し、該複数のデータをメモリ内のデータ蓄積領域に多重して蓄積することにより、オーディオビデオデコード回路では、上記データ蓄積領域から複数の映像データを順次読み出し、各映像データのＰＩＤに基づいて同時再生することができ、画面上に複数の映像を同時に表示することが可能となる。
【０１０７】
さらに、本発明によるデータ選別蓄積装置によれば、データのＰＩＤが変更される場合に、当該データのＰＩＤ変更前に、新たに入力されるデータのＰＩＤを表わす情報を予め送信し、当該送信された情報に基づいて、ＰＩＤテーブルに新たに受信するデータのＰＩＤエントリを設定しておくことにより、ＣＰＵはデータのＰＩＤが切り替わるのを監視する必要が無くなり、また、オーディオビデオデコード回路は、再生するデータのＰＩＤが切り変わる時点で、ＰＩＤ変更前と同一の映像データ蓄積領域からＰＩＤ変更後の映像データを継続して取り出し、再生することができる。従って、ＣＰＵの処理内容が簡易になり、しかも、再生する映像データの切り替え処理をスムーズに行うことができる。
【０１０８】
また、さらに、複数のデータ蓄積領域に別の番組の映像データや音声データをそれぞれ多重して蓄積し、これらを別のオーディオビデオデコード回路に渡すことにより、複数の番組の映像・音声を同時にデコードすることのできるディジタル放送受信装置を構成することが可能となる。
【図面の簡単な説明】
【図１】トランスポートストリームの説明図である。
【図２】本発明の実施の形態１、２、３、４のディジタル放送受信装置の構成を示すブロック図である。
【図３】本発明の実施の形態１、２におけるデータ選別蓄積装置の構成を示すブロック図である。
【図４】本発明の実施の形態１のデータ選別蓄積装置によるデータ選別処理の説明図である。
【図５】本発明の実施の形態２のデータ選別蓄積装置によるデータ選別処理の説明図である。
【図６】本発明の実施の形態３におけるデータ選別蓄積装置の構成を示すブロック図である。
【図７】本発明の実施の形態３のデータ選別蓄積装置によるデータ選別処理の説明図である。
【図８】本発明の実施の形態４のデータ選別蓄積装置によるデータ選別処理の説明図である。
【図９】本発明の実施の形態５のディジタル放送受信装置の構成を示すブロック図である。
【図１０】本発明の実施の形態５におけるデータ選別蓄積装置の構成を示すブロック図である。
【図１１】本発明の実施の形態５のデータ選別蓄積装置によるデータ選別処理の説明図である。
【図１２】本発明の実施の形態６のディジタル放送受信装置の構成を示すブロック図である。
【図１３】従来または本発明の実施の形態６のデータ選別蓄積装置によるデータ選別処理の説明図である。
【符号の説明】
２００，６００ ディジタル放送受信装置
２０１ チューナー
２０２ ディジタル復調回路
２０３ ＰＩＤ抽出回路
２０４，５０４ ＰＩＤテーブル
２０５，５０５ ＰＩＤ比較回路
２０６ パケット選別回路
２０７ フォーマット解析回路
２０８，５０８，６０８，１００８ データ蓄積制御回路
２０９ セクションデータ選別回路
２１０ セクションテーブル
２１１，６１１ メモリ
２１２，６１２，１０１２ オーディオビデオデコード回路
２１３ ＣＰＵ
２１４，５１４，６１４，１０１４ デマルチプレクサ
２１５、１０１５ ＡＶメモリ[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a data selection / storage device for selecting and storing a desired type of data from multiplexed data obtained by multiplexing a plurality of types of data such as video and audio.
[0002]
[Prior art]
2. Description of the Related Art In recent years, video, audio, and other data are often transmitted and stored using digital data. In such a case, the data may be divided and formed into data such as a packet having a data structure composed of several fields, and then multiplexed on one transmission and storage medium to be transmitted and stored. In such a case, there is an MPEG system standard as a standard for data structure and multiplexing, and in many cases, data is transmitted and stored by a method conforming to the packet data structure of this standard.
[0003]
In such a system in which packet data is multiplexed, it is necessary for a device that receives data to select data to be received from the multiplexed packet data. Specifically, video data and audio data, various information accompanying the program such as PSI (program specific information) and SI (service information) are identified, and only necessary information is selected. Need to accumulate. Then, the stored video data is input to a video decoder to reproduce the video and the video is reproduced, the audio data is input to the audio decoder and the audio is reproduced, and information such as PSI and SI is processed by software. And used to control the operation of the receiving device.
[0004]
Next, as an example of the related art, a demultiplexer that performs data selection and that is used in a receiving apparatus for digital broadcasting or the like using a data multiplexing method conforming to the MPEG system standard will be described.
[0005]
In the MPEG system standard, video, audio, and other various data are multiplexed into one data stream in the form of a transport stream packet (hereinafter, referred to as a TS packet), and each TS packet has a packet identifier for indicating the type of data. (Hereinafter, referred to as PID). The demultiplexer selects input TS packets based on the PID and stores data extracted from necessary TS packet data in storage areas corresponding to the respective PIDs in the buffer memory.
[0006]
As a technique for selecting and storing data in a conventional demultiplexer, there is a "reverse transport processor having a memory address circuit" described in JP-A-7-297855. In a conventional demultiplexer, data selected by PID (described as SCID in the above patent publication) can be stored in a data storage area in a memory corresponding to each PID.
[0007]
[Problems to be solved by the invention]
However, the conventional data selection / storage device including the demultiplexer and the memory has the following problems. Here, a case where the transport stream shown in FIG. 1 is input to a conventional data selection / storage device will be described as an example.
[0008]
In the figure, data of two programs a and b are multiplexed on a transport stream. The program a has three types of video data (TS packets having PIDs of Va1, Va2, and Va3), one type of audio data (TS packets having a PID of Aa1), and one type of program information data (having a PID of Sa). The program b is composed of one type of video data (TS packet having the PID of Vb1), one type of audio data (TS packet having the PID of Ab1), and one type of program information data (the PID of Sb). (Hereinafter, program information data is abbreviated as program information).
[0009]
A case where a program a is taken out from the transport stream shown in FIG. 1 and played back by the conventional data selection / storage device will be described with reference to FIG.
FIG. 13A shows a transport stream input to the demultiplexer, and FIG. 13B shows the contents of TS packets obtained from the transport stream of FIG. 13A by the demultiplexer selection process. FIG. 13C shows a state where the TS packets selected by the demultiplexer are stored in the memory.
[0010]
In the demultiplexer, the TS packets having the PIDs of “Va1”, “Va2”, “Va3”, “Aa1”, and “Sa” from the transport stream shown in FIG. ), And only the TS packet shown in FIG. 13B is obtained.
[0011]
The conventional demultiplexer stores the selected data in the storage area in the memory corresponding to the PID, and therefore, as shown in FIG. 13C, the video data storage areas 1, 2, 3 have PID = Va1, Video data of each TS packet of Va2 and Va3 is stored, audio data of PID = Aa1 is stored in an audio data storage area, and program information data of PID = Sa is stored in a program information storage area. Data is input to the video decoder from one of the storage areas of the video storage areas 1, 2, and 3, and is reproduced as a video.
[0012]
In recent digital television broadcasting, a program having a plurality of videos in one program, such as a transport stream program a in FIG. 1, has been considered. Accordingly, digital television broadcast receivers are required to simultaneously reproduce a plurality of videos on the same screen.
[0013]
However, in the conventional demultiplexer, data is stored in different storage areas in the memory for each PID, and only video data having one PID is sent to the video decoder. Therefore, only one video can be reproduced at the same time. In order to simultaneously play back video on the same screen, there is a problem that the structure of the IF connecting the demultiplexer and the decoder needs to be largely changed.
[0014]
Further, for example, when the PID of the TS packet storing the video data is changed, for example, when the program a which has been viewed ends and the broadcast of the program c subsequently starts, the conventional demultiplexer uses the PID before and after the change. Are simultaneously selected and recorded in different storage areas of the memory, and the data is synchronized with the timing at which the PID of the broadcasted video data changes (the timing of switching from program a to program c). It was necessary to switch the storage area and send the video data to the video decoder.
Therefore, the processing contents of the demultiplexer become complicated, and further, there is a problem that the switching of the output of the video data to be sent to the video decoder is delayed when the program is switched.
[0015]
The present invention has been made in order to solve the above-described problems, and it has been made possible to simultaneously reproduce and display a plurality of videos on a screen. In addition, a program is switched, and a PID of a received TS packet is changed. It is an object of the present invention to provide a data selection / storage device that facilitates a process of switching video data to be output to a video decoder, and a data processing device using the same.
[0016]
[Means for Solving the Problems]
The present invention has been made to achieve the above object, and a data sorting and accumulating apparatus according to claim 1, wherein a data for sorting a specific type of data from multiplexed data obtained by multiplexing a plurality of types of data. A data selection storage device, comprising: a selection unit; and a data storage unit having a plurality of storage areas for storing data selected by the data selection unit,The data selection means specifies which storage area of the plurality of storage areas each of the selected data is to be stored, and stores a plurality of types of data in one of the plurality of storage areas. When storing in the storage area, the plurality of types of data are multiplexed and stored in one storage area, and when the type of data to be selected is changed, the data is included in the multiplexed data prior to the change. Information of the type of data to be newly selected to be transmitted, and changes the type of data to be newly selected.It is characterized by the following. Thus, in the data sorting / accumulating device of the present invention, a plurality of types of data multiplexed and accumulated in the accumulation area of the data accumulating means can be transferred to an external data reproducing device simultaneously and in parallel. Allows simultaneous playback of multiple video data, etc.Moreover, even when the identifier such as the PID of the received data changes, the data to be sorted can be changed smoothly.
[0017]
According to a second aspect of the present invention, in the data selection / storage device according to the first aspect, the data selection unit determines the type of each data from multiplexed data in which a plurality of types of data are multiplexed. Identification number extracting means for extracting an identification number to represent, identification number storage means having a plurality of identification number entries for storing identification numbers of data to be sorted, and identification number storage means for storing the identification number extracted from the multiplexed data. An identification number match detection unit for detecting whether or not the identification number matches at least one of a plurality of identification numbers stored in the unit; and multiplexing the data matching the identification number stored in the identification number storage unit. Data extracting means for extracting data from the data, and an identification code for identifying the type of data is assigned to the data extracted by the data extracting means. And another code imparting means, based on the identification code given by the identification code grant unit, each dataData storage control means for designating which storage area of the plurality of storage areas is to be stored, and storing data in the specified storage area, wherein the data storage control means selects from the multiplexed data. If it is specified that a plurality of types of data having different identification numbers are stored in one of the plurality of storage areas, the plurality of types of data are multiplexed in the storage area. When the type of data to be selected is changed, information of the type of newly selected data included in the multiplexed data and transmitted prior to the change is received. The above-mentioned identification number entry is set so as to newly store the identification number representing the type of data after the change.It is characterized by the following. Thus, in the data sorting / accumulating device of the present invention, a plurality of types of data multiplexed and accumulated in the accumulation area of the data accumulating means can be transferred to an external data reproducing device simultaneously and in parallel. Allows simultaneous playback of multiple video data, etc.Moreover, even when the identifier such as the PID of the received data changes, the data to be sorted can be changed smoothly.
[0018]
According to a third aspect of the present invention, there is provided a data sorting / accumulating apparatus according to the second aspect, wherein the identification code providing means corresponds to an identification number entry in the identification number storage means as an identification code. Assigned to data having an identification numberWhen the data accumulation control means specifies that a plurality of types of data having a plurality of identification codes are to be stored in one of the plurality of storage areas, the plurality of types of data are stored in the storage area. Multiplex and accumulate dataIt is characterized by the following. Thus, in the data sorting / accumulating device of the present invention, a plurality of types of data multiplexed and accumulated in the accumulation area of the data accumulating means can be transferred to an external data reproducing device simultaneously and in parallel. Can simultaneously reproduce a plurality of video data and the like.
[0019]
According to a fourth aspect of the present invention, there is provided a data selection / storage device according to the third aspect, wherein the data storage control means associates a plurality of identification codes with one storage area. If there is, the plurality of types of data having the plurality of identification codes are multiplexed and stored in the corresponding storage areas based on the correspondence between the previously specified identification code and the data storage area. It is characterized by the following. As a result, video data and audio data of different programs can be multiplexed and stored in a plurality of storage areas, respectively. Can be decoded simultaneously.
[0020]
According to a fifth aspect of the present invention, there is provided a data sorting / accumulating apparatus according to the second aspect, wherein each identification number entry of the identification number storage means includes, in addition to the identification number of the data to be sorted, The storage area number indicating the storage area of the data storage means to store the data having the identification number of the selection target is stored, and the identification code providing means stores, in each of the data extracted by the data extraction means, The storage area number in the identification number storage means is assigned as an identification code, and the data storage control means, when the same storage area number is stored for a different identification number in the identification number storage means, A plurality of types of data having numbers are multiplexed and stored in a storage area having the storage area number. Thus, in the data sorting / accumulating device of the present invention, a plurality of types of data multiplexed and accumulated in the accumulation area of the data accumulating means can be transferred to an external data reproducing device simultaneously and in parallel. Can simultaneously reproduce a plurality of video data and the like.
[0021]
According to a sixth aspect of the present invention, in the data selection / storage device according to the fifth aspect, the data storage control means stores the identification number storage means in correspondence of different identification numbers with the same storage area number. When a plurality of labels are stored, a plurality of types of data indicated by different identification numbers are multiplexed and stored in the storage areas indicated by the respective storage area numbers based on the storage area numbers. To do. As a result, video data and audio data of different programs can be multiplexed and stored in a plurality of storage areas, respectively. Can be decoded simultaneously.
[0022]
According to a seventh aspect of the present invention, there is provided a data sorting / accumulating apparatus according to any one of the second to sixth aspects, wherein the data accumulation control means includes a plurality of types of data having different identification numbers. Is stored in the same storage area of the data storage means, information for identifying each data is recorded together with each data. Thus, when an external device such as a data reproducing device uses a plurality of types of data multiplexed and stored in the data storage means of the data selection storage device of the present invention, the data can be easily identified and separated by type. It is possible to do.
[0026]
Claims of the invention8The data processing device according to claim 17A data processing device comprising: a data sorting / accumulating device according to any one of the above; and a data reproducing device that reads out and reproduces data stored in the data accumulating means of the data sorting / accumulating device. Is characterized in that in the data storage means of the data selection storage device, the multiplexed data is taken out from a storage area where a plurality of types of data having different identification numbers are multiplexed and stored, and reproduced. It is. Thereby, the data reproducing apparatus can obtain a plurality of types of data multiplexed and stored in the data storage means of the data selection storage apparatus at the same time, and simultaneously reproduce a plurality of image data. be able to.
[0027]
Claims of the invention9The data processing device according to the claim8The data processing device according to claim 1, further comprising a plurality of the data reproducing devices, wherein the data selection / storage device includes a plurality of storage areas in which a plurality of types of data are multiplexed and stored. Is characterized in that data multiplexed and stored from corresponding storage areas are taken out and reproduced. As a result, video data and audio data of different programs can be multiplexed and stored in a plurality of storage areas, respectively. Can be decoded simultaneously.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
As an embodiment of the present invention, in a digital broadcast conforming to the MPEG system standard, a digital broadcast receiving apparatus capable of receiving and reproducing a program including a plurality of video data, and a data selective storage built in the digital broadcast receiving apparatus The device will be described.
[0029]
In digital broadcasting, video data, audio data, and other various information are transmitted in a transport stream. The transport stream is composed of fixed-length transport stream packets (TS packets), and the TS packets are provided with a packet identifier (PID) as an identification number indicating the type of data contained therein.
[0030]
FIG. 1 shows a transport stream for transmitting two programs a and b. In the figure, data of two programs a and b are multiplexed on a transport stream. Program a has three types of video data (TS packets having PIDs of Va1, Va2 and Va3), one type of audio data (TS packets having PID of Aa1), and one type of program information (TS packets having PID of Sa). The program b is composed of one type of video data (TS packet having a PID of Vb1), one type of audio data (TS packet having a PID of Ab1), and one type of program information (having a PID of Sb). TS packets). Usually, a plurality of types of program information are broadcast for one program, but here, it is assumed that only one type of program information is broadcast for the sake of simplicity.
[0031]
FIG. 2 is a block diagram showing the configuration of the digital broadcast receiving device 200.
The digital broadcast received by the digital broadcast receiving device 200 is tuned by the tuner 201, digitally demodulated and error-corrected by the digital demodulation circuit 202, and output to the demultiplexer 214 as a transport stream.
[0032]
The demultiplexer 214 includes a PID extraction circuit 203, a PID table 204, a PID comparison circuit 205, a packet selection circuit 206, a format analysis circuit 207, a data accumulation control circuit 208, a section data selection circuit 209, and a section table 210.
[0033]
The PID extraction circuit 203 (identification number extraction means) receives the transport stream output from the digital demodulation circuit 202, extracts the PID from each TS packet, and sends the PID to the PID comparison circuit 205 (identification number match detection means). Output. In the PID table 204 (identification number storage means), a PID entry of a TS packet constituting a program to be received is set in advance by the CPU 213 (external control circuit). The PID entry can be freely rewritten by the CPU 213, and a new PID entry can be set as an empty entry, and an unnecessary entry can be deleted.
[0034]
The PID comparison circuit 205 compares and inspects, among the entries of the plurality of PIDs set in the PID table 204, whether there is an entry that matches the PID extracted from the TS packet, and compares the comparison result with the packet selection circuit 206. (Data extraction means).
[0035]
A TS packet is input to the packet selection circuit 206 from the PID extraction circuit 203, and if the PID comparison result from the PID comparison circuit 205 is “match”, the TS packet is output to the format analysis circuit 207. I do. If the PID comparison result is “mismatch”, the TS packet is discarded by the packet selection circuit 206.
[0036]
In general, video data and audio data are transmitted in the form of PES packet data stored in TS packets. The format analysis circuit 207 extracts PES packets of video data and audio data and stores them in a data storage control circuit 208 (data storage control means). ). On the other hand, program information such as a program table generally has section data format data stored in a TS packet and transmitted. A format analysis circuit 207 extracts section data of the program information and outputs it to a section data selection circuit 209.
[0037]
The section data selection circuit 209 checks whether or not the section data from the format analysis circuit 207 matches the section data candidates to be received stored in the section table 210 in advance. Program information) to the data accumulation control circuit 208.
[0038]
The data storage control circuit 208 manages a plurality of partitioned data storage areas in the memory 211 (data storage means). When video data and audio data are input from the format analysis circuit 207, the data storage control circuit 208 receives a data storage area for video data or audio data in the memory 211 (hereinafter, a video data storage area, an audio data When video data and audio data are written in a storage area, and program information is input from the section data selection circuit 209, the program information is stored in a data storage area for program information (hereinafter referred to as a program information storage area) in the memory 211. Write information. The program information written in the memory 211 is read out by the CPU 213 and is presented to a viewer or used for controlling the operation of the digital broadcast receiving apparatus 200 main body.
[0039]
The data accumulation control circuit 208 reads out the video data and the audio data written in the memory 211 and outputs the video data and the audio data to the audio video decode circuit 212 in response to a request from the audio video decode circuit 212 (data reproducing device).
The audio / video decode circuit 212 performs a reproduction process of the video data and the audio data input from the data accumulation control circuit 208.
[0040]
Embodiment 1 of the present invention describes a case where digital broadcast receiving apparatus 200 selects program a from the transport stream shown in FIG. 1 and simultaneously decodes three pieces of video data included in program a. Hereinafter, the operation of the data selection / storage device including the demultiplexer 214 and the memory 211 will be mainly described with reference to FIGS.
[0041]
FIG. 3 is a block diagram showing a configuration of the data selection and storage device according to the first embodiment of the present invention. In the figure, the same reference numerals as those in FIG. 2 denote the same or corresponding parts.
FIG. 4A is a diagram showing a transport stream input to the demultiplexer in the first embodiment of the present invention, and FIG. 4B is a process for selecting a demultiplexer from the transport stream data of FIG. 4A. And FIG. 4C is a diagram showing a state where the TS packets selected by the demultiplexer are stored in the memory.
[0042]
The transport stream shown in FIG. 4A includes video data and audio data having PIDs as shown in Tables 1 and 2, and two programs a and b having program information.
[0043]
[Table 1]

[Table 2]

In order to select the program a by the demultiplexer 214, the PID is preset in the PID table 204 by the CPU 213 as shown in Table 3.
[0044]
[Table 3]

When the transport stream shown in FIG. 4A is input, the PID extraction circuit 203 extracts a PID from each TS packet and outputs the PID to the PID comparison circuit 205.
[0045]
The PID comparison circuit 205 detects whether the PID received from the PID extraction circuit 203 matches the PID set in the PID table 204, and if there is a matching PID in the PID table 204, the match is detected. The packet matching circuit 206 is notified of the "match" as a detection signal. At the same time, a PID entry number of the PID table 204 in which the matching PID is set is notified to the data accumulation control circuit 208 as a matching PID entry number. On the other hand, when the PID of the TS packet and the PID of the PID table 204 do not match, the PID comparison circuit 205 notifies the packet selection circuit 206 of "mismatch" as a match detection signal.
[0046]
The packet selection circuit 206 outputs the TS packet to the format analysis circuit 207 when the match detection signal from the PID comparison circuit 205 indicates “match”, but discards the TS packet when the match detection signal is “mismatch”. As a result, the transport stream input to the packet sorting circuit 206 is sorted into TS packets constituting the program a as shown in FIG.
[0047]
The data accumulation control circuit 208 according to the first embodiment assigns a matching PID entry number received from the PID comparison circuit 205 to each TS packet input from the format analysis circuit 207. Further, the data storage control circuit 208 manages three storage areas of a video data storage area, an audio data storage area, and a program information storage area in the memory 211, and based on the matching PID entry number of each TS packet, The TS packet data is written in the storage area. The correspondence between the matching PID entry number assigned to each TS packet data and the storage area in the memory 211 is as shown in Table 4.
[0048]
[Table 4]

As shown in FIG. 4C, the data storage control circuit 208 sets the video data of the three types of PIDs (Va1, Va2, Va3) to be multiplexed and stored in one video data storage provided in the memory 211. Accumulate in the area.
[0049]
The audio / video decoding circuit 212 controls the data storage control circuit 208 to read out the video data of the program a from the video data storage area of the memory 211. At this time, as shown in FIG. 4C, since the video data of three types of PIDs (Va1, Va2, Va3) are multiplexed and stored in one video data storage area, the audio video decoding circuit 212 Three types of video data to be reproduced are sequentially passed from the data accumulation control circuit 208.
[0050]
As described above, according to the data selection and storage device according to the first embodiment of the present invention, a plurality of video data included in a program is selected by the demultiplexer 214, and the plurality of video data is stored in the video data storage area in the memory 211. Since the data is sequentially written, the audio / video decoding circuit 212 can sequentially read a plurality of video data from the video data storage area and simultaneously reproduce the video data based on the PID of each video data, and simultaneously display a plurality of videos on a screen. It becomes possible.
[0051]
(Embodiment 2)
Next, as Embodiment 2 of the present invention, a data selection / storage device for easily decoding video data stored in a data storage area will be described.
In the above-described first embodiment of the present invention, the video data is multiplexed and stored in one video data storage area in the memory 211 as shown in FIG. The audio / video decoding circuit 212 needs to identify three types of multiplexed video data based on the PID of each video data.
[0052]
Therefore, the audio video decoding circuit 212 extracts PIDs (Va1, Va2, Va3) again from the three types of video data extracted from the video data storage area, identifies the three types of video data based on the PIDs, and identifies each PID. Will be decoded as another video. That is, the same processing as PID matching detection and packet selection performed by the PID extraction circuit 203, PID table 204, PID comparison circuit 205, and packet selection circuit 206 of the demultiplexer 214 is repeated.
[0053]
Therefore, in the data selection and storage device according to the second embodiment of the present invention, when writing the video data to the data storage area, the data storage control circuit records information for identifying each video data together with each video data. Configuration.
[0054]
Hereinafter, the data selection / storage device according to the second embodiment of the present invention will be described in detail. The configurations of the digital broadcast receiving apparatus and the data selection / storage apparatus according to the present embodiment are the same as those in the first embodiment, and therefore, FIGS.
[0055]
FIG. 5A is a diagram showing a transport stream input to the demultiplexer according to the second embodiment of the present invention, and FIG. 5B is a diagram showing a process of selecting a demultiplexer from the transport stream of FIG. FIG. 5C is a diagram showing the contents of the obtained TS packet, and FIG. 5C is a diagram showing a state where the data selected by the demultiplexer is stored in the memory.
[0056]
The data accumulation control circuit 208 of the demultiplexer 214 detects the PID comparison circuit 205 when writing the video data (see FIG. 5B) selected by the packet selection circuit 206 into the video data storage area of the memory 211. The matched PID entry number assigned to the video data is recorded in the video data storage area. Specifically, as shown in FIG. 5C, in the video data packet having the PID (= Va1) set in the entry 0 of the PID table 204, “0” is set as the matching PID entry number, and A video data packet having a PID (= Va2) set to 1 has a matching PID entry number “1”, and a video data packet having a PID (= Va3) set to entry 2 has a match. “2” is assigned as the PID entry number.
[0057]
When the audio / video decoding circuit 212 retrieves video data multiplexed and recorded in the video data storage area of the memory 211, the assigned PID entry number is read in advance. It is possible to identify three types of video data without performing comparison.
[0058]
As described above, according to the data sorting / accumulating device according to the second embodiment of the present invention, simultaneous reproduction of a plurality of video data can be realized without complicating the configuration and processing content of the audio / video decoding circuit 212. .
[0059]
(Embodiment 3)
In the third embodiment of the present invention, in digital broadcast receiving apparatus 200, program a is selected from a transport stream in which two programs a and b shown in FIG. The case where the video data is decoded and reproduced will be described. Hereinafter, the operation of the data selection / storage device constituted by the demultiplexer and the memory will be mainly described with reference to FIGS.
[0060]
The configuration of the digital broadcast receiving apparatus according to the present embodiment is the same as digital broadcast receiving apparatus 200 described in Embodiment 1 with reference to FIG. 2, and a description thereof will be omitted.
FIG. 6 is a block diagram showing a configuration of a data selection / storage device according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG. 2 denote the same or corresponding parts.
[0061]
FIG. 7A is a diagram showing a transport stream input to the demultiplexer in the third embodiment of the present invention, and FIG. 7B is a diagram showing a process of selecting a demultiplexer from the transport stream of FIG. 7A. FIG. 7C is a diagram showing the contents of the obtained TS packet, and FIG. 7C is a diagram showing a state where the TS packet selected by the demultiplexer is stored in the memory.
[0062]
The transport stream shown in FIG. 7A includes video data and audio data having PIDs as shown in Tables 1 and 2 and two programs a and b having program information as in the first embodiment. ing.
[0063]
In the PID table 504 according to the third embodiment of the present invention, not only the PID of the data to be received but also a number indicating a storage area in the memory 211 for storing TS packet data having each PID (hereinafter referred to as a storage area number). ) Can be stored. Here, in order to select the program a by the demultiplexer 514, the PID and the storage area number are previously set in the PID table 504 by the CPU 213 as shown in Table 5.
[0064]
[Table 5]

When the transport stream shown in FIG. 7A is input, the PID extraction circuit 203 extracts a PID from each TS packet and outputs the PID to the PID comparison circuit 505.
[0065]
The PID comparison circuit 505 detects whether the PID received from the PID extraction circuit 203 matches the PID set in the PID table 504, and if there is a matching PID in the PID table 504, the match is detected. The packet matching circuit 206 is notified of the "match" as a detection signal. At the same time, the data storage control circuit 508 is notified of the storage area number of the PID entry in which the matching PID is set as the matching area number. On the other hand, when the PID of the TS packet does not match the PID of the PID table 504, the PID comparison circuit 505 notifies the packet selection circuit 206 of "mismatch" as a match detection signal.
[0066]
The packet selection circuit 206 outputs the TS packet to the format analysis circuit 207 when the match detection signal from the PID comparison circuit 205 indicates “match”, but discards the TS packet when the match detection signal is “mismatch”. As a result, the transport stream input to the packet sorting circuit 206 is sorted into TS packets constituting the program a as shown in FIG. 7B.
[0067]
The data storage control circuit 508 assigns the matching area number received from the PID comparing circuit 505 to each TS packet input from the format analysis circuit 207, and further assigns each TS packet to the storage area in the memory 211 indicated by the matching area number. Write packet data.
[0068]
In the data storage control circuit 508 of the third embodiment, the memory 211 stores a video data storage area (storage area number 2), an audio data storage area (storage area number 1), and a program information storage area (storage area number 0). Since three storage areas are managed, and as shown in Table 5, the received three types of video data are assigned “2” as storage area numbers, three types of PIDs (Va1, Va2, Va3) are provided. ) Are all stored in one video data storage area.
[0069]
The audio / video decoding circuit 212 controls the data storage control circuit 208 to read out the video data of the program a from the video data storage area of the memory 211. At this time, as shown in FIG. 7C, since the video data of three types of PIDs (Va1, Va2, Va3) are multiplexed and stored in one video data storage area, the audio video decoding circuit 212 Three types of video data to be reproduced are sequentially passed from the data accumulation control circuit 508.
[0070]
As described above, the audio-video decoding circuit 212 reads out three types of multiplexed video data from one video data storage area when reproducing three video data in the same manner as when reproducing one video data. And three types of video can be reproduced simultaneously.
[0071]
(Embodiment 4)
Next, as a fourth embodiment of the present invention, a data selection / storage device capable of performing smooth PID switching when the PID of broadcast video data is changed will be described. In the fourth embodiment, a description will be given of a data sorting / accumulating device according to the above-described third embodiment in which a PID switching function is provided. Conventionally, when the PID of video data received by a digital broadcast receiver changes, the CPU additionally sets a PID that must be newly received in the PID table, and stores a storage area for storing this video data in the memory. A new setting has to be made so that the received data is recorded in this storage area.
[0072]
That is, the PID of the received video data is switched, and after the CPU recognizes that the video data after the PID change has been stored in the newly set video data storage area, the storage area of the video data to be output to the audio / video decoding circuit. To change. As a result, the audio / video decoding circuit can start playing back the video data after the PID is changed.
[0073]
However, in such a PID switching operation, the CPU monitors the timing of the PID change, and performs operations such as setting a video data storage area in the memory and changing a storage area of data output to the audio / video decoding circuit. I needed to do it. Therefore, the processing of the CPU becomes complicated. In addition, the reproduction of the video data after the PID change is started later than the point at which the PID of the video data switches.
[0074]
Therefore, the data selection / storage device according to the fourth embodiment of the present invention notifies the digital broadcast receiving device 200 in advance that the PID of the video data will be changed using program information, and realizes smooth PID switching. Things.
[0075]
Hereinafter, the data sorting / accumulating device according to the fourth embodiment of the present invention will be described in detail. Since the configurations of the digital broadcast receiving apparatus and the data selection / storage apparatus of this embodiment are the same as those of the third embodiment, FIGS. 2 and 6 will be used for the description.
[0076]
FIG. 8A is a diagram showing a transport stream input to the demultiplexer in the third embodiment of the present invention, and FIG. 8B is a diagram showing a process of selecting a demultiplexer from the transport stream of FIG. 8A. FIG. 8C is a diagram showing the contents of the obtained TS packet, and FIG. 8C is a diagram showing a state where the TS packet selected by the demultiplexer is stored in the memory.
The transport stream shown in FIG. 8A is composed of video data, audio data, and two programs a, b having PIDs as shown in Tables 1 and 2 as in the first embodiment. ing.
[0077]
In the fourth embodiment, as shown in FIG. 8A, it is assumed that the PID of the video data of the program a is changed to Va4 at the video data PID change position 12 of the program a indicated by the arrow. In such a case, the digital broadcast receiving apparatus 200 is notified in advance that the PID of the video data is changed from Va1, Va2, Va3 to Va4 in the first program information Sa11 in FIG. 7A. The Rukoto. That is, in the digital broadcast receiving apparatus 200, the program information Sa11 is recorded in the program information storage area of the memory 211, and the CPU 213 reads out the PID change notification by Sa11 from the program information storage area, so that the CPU 213 determines the PID change in advance. You can know.
[0078]
When notified of the switching of the video data PID by the program information Sa, the CPU 213 sets the newly received PID = Va4 in the empty entry of the PID table 504. At this time, PID = Va4, which is video data input after PID switching, is set to be stored in the same storage area (storage area number 2) as the video data before PID switching.
[0079]
As a specific example, for example, when the entry 5 of the PID table 504 is an empty entry, an entry of PID = Va4 is newly set in the empty entry 5, and the PID table 504 is as shown in Table 6. Become.
[0080]
[Table 6]

With this setting, as shown in FIG. 7B, the PID of the video data input to the demultiplexer 214 is changed to Va4, and at the same time, the TS packet of PID = Va4 is Can be sorted out. Further, in the PID table 504, since the storage area number of the TS packet of PID = Va4 is set to “2” indicating the video data storage area number, the data storage control circuit 508 as shown in FIG. Can automatically store the TS packet of PID = Va4 in the video data storage area.
[0081]
As a result, when the PID of the received video data is changed, the demultiplexer 514 automatically and immediately selects the new PID data, and can continuously store the new PID data in the same video data storage area as before the PID change. it can.
[0082]
As described above, according to the data selection and storage device of the fourth embodiment of the present invention, the CPU 213 does not need to monitor the switching of the PID of the video data, and the audio / video decoding circuit 212 When the PID changes, the video data after the PID change can be continuously taken out from the same video data storage area as before the PID change and reproduced. Therefore, the processing content of the CPU 213 is simplified, and the switching processing of the video data to be reproduced can be smoothly performed.
[0083]
(Embodiment 5)
In the fifth embodiment of the present invention, video data and audio data of different programs are multiplexed and stored in a plurality of AV data storage areas, respectively, and are output to another audio decoding circuit. A data selection / storage device capable of simultaneously decoding video and audio will be described. Hereinafter, the operation of the data selection / storage device including the demultiplexer and the memory will be mainly described with reference to FIGS. 9, 10, and 11. FIG.
[0084]
FIG. 9 is a block diagram showing a configuration of a digital broadcast receiving apparatus according to the present embodiment. 2, the same reference numerals as those in FIG. 2 denote the same or corresponding parts, and a description thereof will not be repeated.
FIG. 10 is a block diagram showing a configuration of a data selection / storage device according to Embodiment 3 of the present invention. 6, the same reference numerals as those in FIG. 6 denote the same or corresponding parts.
[0085]
FIG. 11A is a diagram showing a transport stream input to the demultiplexer in the fifth embodiment of the present invention, and FIG. 11B is a diagram illustrating a process of selecting a demultiplexer from the transport stream of FIG. FIG. 11C is a diagram showing the contents of the obtained TS packet, and FIG. 11C is a diagram showing a state where the TS packet selected by the demultiplexer is stored in the memory. The transport stream shown in FIG. As in the first embodiment, it is composed of video data and audio data having PIDs as shown in Tables 1 and 2, and two programs a and b having program information.
[0086]
Here, in digital broadcast receiving apparatus 1000, program a is selected from a transport stream in which two programs a and b shown in FIG. 11A are multiplexed, and three types of video data included in program a are selected. Are decoded and reproduced by the first audio / video decoding circuit 212, and at the same time, the program b is selected from the transport stream, and the video data and the audio data included in the program b are separated by another audio / video decoding. A case where decoding and reproduction are performed by the circuit 1012 will be described.
[0087]
In FIG. 10, a PID and a storage area number as shown in Table 7 are set in advance by the CPU 213 in the PID table 504 of the data selection / storage device according to the fifth embodiment of the present invention. The data storage control circuit 1008 stores three data in the memory 211: an AV data storage area 1 (storage area number 2), an AV data storage area 2 (storage area number 1), and a program information storage area (storage area number 0). The storage area is managed, and the programs a and b are multiplexed and stored in different AV data storage areas based on the storage area number, and are output to another audio decoding circuit at the time of decoding.
[0088]
[Table 7]

When the transport stream shown in FIG. 11A is input, the PID extraction circuit 203 extracts a PID from each TS packet and outputs the PID to the PID comparison circuit 505.
[0089]
The PID comparison circuit 505 detects whether the PID received from the PID extraction circuit 203 matches the PID set in the PID table 504, and if there is a matching PID in the PID table 504, the match is detected. The packet matching circuit 206 is notified of the "match" as a detection signal. At the same time, the data storage control circuit 508 is notified of the storage area number of the PID entry in which the matching PID is set as the matching area number. On the other hand, when the PID of the TS packet does not match the PID of the PID table 504, the PID comparison circuit 505 notifies the packet selection circuit 206 of "mismatch" as a match detection signal.
[0090]
The packet selection circuit 206 outputs the TS packet to the format analysis circuit 207 when the match detection signal from the PID comparison circuit 205 indicates “match”, but discards the TS packet when the match detection signal is “mismatch”. As a result, the transport stream input to the packet selection circuit 206 is selected into TS packets constituting the programs a and b as shown in FIG.
[0091]
The data accumulation control circuit 1008 writes each TS packet input from the format analysis circuit 207 to the accumulation area in the memory 211 indicated by the matching area number received from the PID comparison circuit 505.
[0092]
That is, the data storage control circuit 1008 stores all two types of video data (Va1, Va2) and audio data (Aa1) of the program a to which the storage region number “2” is assigned in the AV data storage region 1. Then, the video data (Vb1) and the audio data (Ab1) of the program b to which “1” is added as the storage area number are stored in the AV data storage area 2.
[0093]
The audio / video decoding circuit 212 controls the data accumulation control circuit 1008 to read the video data of the program a from the AV data accumulation area 1 of the memory 211. At this time, as shown in FIG. 11C, since the video data and the audio data of the three types of PIDs (Va1, Va2, Aa1) are multiplexed and stored in one AV data storage area 1, the audio video decoding is performed. To the circuit 212, two types of video data to be reproduced and one type of audio data are sequentially passed from the data accumulation control circuit 1008. The audio / video decoding circuit 212 converts two types of video data and one type of audio from data consisting of TS packets having PIDs of Va1, Va2 and Aa1 input from the data storage control circuit 1008 based on the PID of each data. After the data is extracted and decoded, the decoded video and audio, that is, the video and audio of the program a are output.
[0094]
On the other hand, the audio / video decoding circuit 1012 controls the data storage control circuit 1008 to read the video data of the program b from the AV data storage area 2 of the memory 211. At this time, as shown in FIG. 11C, since the video data and the audio data of the two types of PIDs (Vb1, Ab1) are multiplexed and stored in one AV data storage area 2, the audio video decoding circuit 1012 , Video data and audio data to be reproduced are sequentially passed from the data accumulation control circuit 1008. The audio-video decoding circuit 1012 converts one type of video data and one type of audio data from data consisting of TS packets having PIDs of Vb1 and Ab1 input from the data storage control circuit 1008 based on the PID of each data. After taking out and decoding, the decoded video and audio, that is, the video and audio of the program b are output.
[0095]
In this manner, a plurality of video data and audio data constituting one program can all be multiplexed and stored in one AV data storage area, and this can be decoded and reproduced by the audio / video decoding circuit.
[0096]
In addition, video data and audio data of another program are multiplexed and stored in two AV data storage areas, respectively, and passed to another audio video decoding circuit, so that the video and audio of a plurality of programs can be decoded simultaneously. This makes it possible to configure a digital broadcast receiving apparatus capable of performing such operations.
[0097]
Thus, the output of the audio / video decoding circuit 212 is displayed and output from the television receiver (not shown in FIG. 9), and the output of the audio / video decoding circuit 1012, which is another program, is output to the VTR (not shown in FIG. 9). A digital broadcast receiving apparatus that can be applied to a usage method that requires a plurality of audio video decoding functions, such as recording a program (counter program recording).
[0098]
In the present embodiment, the case where the number of audio / video decoding circuits is two has been described. However, the present invention is not limited to this, and three or more AV data storage areas are managed in the memory by the data storage control circuit. It is also possible to output the video / audio data stored in the AV data storage area to three or more audio / video decoding circuits.
[0099]
(Embodiment 6)
Next, as a sixth embodiment of the present invention, when a plurality of video data are individually stored in a plurality of storage areas in the memory (see FIG. 13C), the audio / video decoding circuit 612 should simultaneously reproduce the video data. A data selection storage device capable of decoding a plurality of video data will be described.
FIG. 12 is a block diagram showing a configuration of a digital broadcast receiving apparatus according to Embodiment 6 of the present invention. In the figure, the same reference numerals as those in FIG. 2 denote the same or corresponding parts.
[0100]
The data accumulation control device 608 in the demultiplexer 614 individually accumulates a plurality of video data in a plurality of accumulation areas in the memory 611, as shown in FIG. The audio / video decoding circuit 612 is configured to generate a plurality of video data request signals in accordance with the number of types of video data to be reproduced simultaneously.
[0101]
The data storage control circuit 608 extracts video data corresponding to each video data request signal from the plurality of video data storage areas of the memory 611 in accordance with the plurality of video data request signals output from the audio video decode circuit 612, Output to the audio video decode circuit 612.
[0102]
In the digital broadcast receiving apparatus 600 configured as described above, the demultiplexer 614 extracts a plurality of video data required by the audio / video decoding circuit 612 from a plurality of video data storage areas in the memory 611, and outputs the data to the audio / video decoding circuit 612. The audio-video decoding circuit 612 can simultaneously reproduce a plurality of video data without largely changing the structure of the IF connecting the data storage area and the decoder.
[0103]
In the first, second, third, and fourth embodiments of the present invention, a case has been described in which three types of video data configured in one program are simultaneously reproduced and displayed. However, the types of video data are limited to three types. It is not something to be done. The present invention is not limited to one program to which a plurality of pieces of video data belong, and can be applied to a case where the videos of a plurality of programs are simultaneously reproduced by an audio / video decoding circuit.
[0104]
Also, in the first, second, third, and fourth embodiments of the present invention, a case has been described in which a plurality of video data are multiplexed. However, the present invention is not limited to video data. The present invention can also be applied to a case where the audio data and the video data are multiplexed and passed to the audio / video decoding circuit.
[0105]
Furthermore, in the first, second, third, fourth, fifth and sixth embodiments of the present invention, digital broadcasting has been described as an example. However, the present invention is not limited to digital broadcasting, and may be a digital video recorder or a multimedia memory card. It can be applied to the reproduction of video and audio from a recording medium such as that described above, and the reception and reproduction of video data and audio data transmitted via a communication medium such as IEEE1394.
[0106]
【The invention's effect】
As described above, according to the data selection / storage device of the present invention, a plurality of data included in a program are selected by the demultiplexer, and the plurality of data are multiplexed and stored in the data storage area in the memory, so that the audio video In the decoding circuit, a plurality of video data can be sequentially read out from the data storage area and can be simultaneously reproduced based on the PID of each video data, so that a plurality of videos can be displayed on a screen at the same time.
[0107]
Further, according to the data sorting / accumulating apparatus of the present invention, when the PID of data is changed, before the PID of the data is changed, information indicating the PID of newly input data is transmitted in advance, and the transmitted data is transmitted. By setting the PID entry of the newly received data in the PID table based on the received information, the CPU does not need to monitor the switching of the PID of the data, and the audio / video decoding circuit reproduces the data. When the PID of the data changes, the video data after the PID change can be continuously taken out from the same video data storage area as before the PID change and reproduced. Therefore, the processing content of the CPU is simplified, and the switching processing of the video data to be reproduced can be smoothly performed.
[0108]
Furthermore, video and audio data of different programs are multiplexed and stored in a plurality of data storage areas, respectively, and are passed to another audio / video decoding circuit, thereby simultaneously decoding the video and audio of the plurality of programs. This makes it possible to configure a digital broadcast receiving apparatus capable of performing such operations.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a transport stream.
FIG. 2 is a block diagram illustrating a configuration of a digital broadcast receiving apparatus according to Embodiments 1, 2, 3, and 4 of the present invention.
FIG. 3 is a block diagram illustrating a configuration of a data selection and accumulation device according to Embodiments 1 and 2 of the present invention.
FIG. 4 is an explanatory diagram of a data selection process performed by the data selection and storage device according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram of a data selection process performed by a data selection storage device according to a second embodiment of the present invention.
FIG. 6 is a block diagram illustrating a configuration of a data selection and storage device according to a third embodiment of the present invention.
FIG. 7 is an explanatory diagram of a data selection process performed by a data selection storage device according to a third embodiment of the present invention.
FIG. 8 is an explanatory diagram of a data selection process performed by a data selection and storage device according to a fourth embodiment of the present invention.
FIG. 9 is a block diagram showing a configuration of a digital broadcast receiving device according to a fifth embodiment of the present invention.
FIG. 10 is a block diagram illustrating a configuration of a data selection / storage device according to a fifth embodiment of the present invention.
FIG. 11 is an explanatory diagram of a data selection process performed by a data selection storage device according to a fifth embodiment of the present invention.
FIG. 12 is a block diagram illustrating a configuration of a digital broadcast receiving device according to a sixth embodiment of the present invention.
FIG. 13 is an explanatory diagram of a data sorting process performed by a conventional or data sorting / accumulating apparatus according to the sixth embodiment of the present invention.
[Explanation of symbols]
200,600 digital broadcast receiver
201 Tuner
202 Digital demodulation circuit
203 PID extraction circuit
204,504 PID table
205,505 PID comparison circuit
206 Packet sorting circuit
207 Format analysis circuit
208, 508, 608, 1008 Data accumulation control circuit
209 Section data selection circuit
210 section table
211,611 memory
212,612,1012 audio / video decoding circuit
213 CPU
214, 514, 614, 1014 Demultiplexer
215, 1015 AV memory

Claims (9)

From multiplexed data in which a plurality of types of data are multiplexed, a data selection unit for selecting a specific type of data, and a data storage unit having a plurality of storage areas for storing the data selected by the data selection unit. A data sorting and storage device provided with:
The data selection means is as follows:
In the case where each of the selected data is to be stored in one of the plurality of storage areas, a plurality of types of data are stored in one of the plurality of storage areas. Multiplexes and stores the multiple types of data in one storage area,
When the type of data to be selected is changed, information on the type of data to be newly selected included in the multiplexed data and transmitted before the change is received, and the change of the type of data to be newly selected is changed. Do,
A data sorting / accumulating device characterized by the above-mentioned. The data sorting / accumulating device according to claim 1,
The data selection means is as follows:
Identification number extracting means for extracting an identification number representing the type of each data from multiplexed data obtained by multiplexing a plurality of types of data;
Identification number storage means having a plurality of identification number entries storing identification numbers of data to be sorted;
Identification number match detection means for detecting whether the identification number extracted from the multiplexed data matches at least one of the plurality of identification numbers stored in the identification number storage means,
Data extraction means for extracting data matching the identification number stored in the identification number storage means from the multiplexed data,
Identification code assigning means for assigning an identification code for identifying the type of data to the data extracted by the data extracting means;
Data storage control for designating which storage area of the plurality of storage areas to store each data based on the identification code provided by the identification code providing means, and storing data in the specified storage area. Means,
When the data storage control means has specified that a plurality of types of data having different identification numbers selected from the multiplexed data be stored in one of the plurality of storage areas, While multiplexing and storing the plurality of types of data in the storage area,
When the type of data to be selected is changed, information on the type of data to be newly selected included in the multiplexed data and transmitted prior to the change is received, and the data after the change is stored in the identification number storage means. Setting of the above identification number entry so as to newly store an identification number representing the type of
A data sorting / accumulating device characterized by the above-mentioned. The data sorting / accumulating device according to claim 2,
The identification code providing means includes:
As the identification code, the number of the identification number entry in the identification number storage means is added to data having a corresponding identification number,
When the data accumulation control means specifies that a plurality of types of data having a plurality of identification codes are to be stored in one of the plurality of storage areas, the plurality of types of data are stored in the storage area. Multiplex and accumulate data from
A data sorting / accumulating device characterized by the above-mentioned. The data sorting / accumulating device according to claim 3,
The data storage control means includes:
When a plurality of identification codes are associated with one storage area, the plurality of identification codes are stored based on the association between the previously specified identification code and the data storage area. Multiplex and store multiple types of data in the corresponding storage areas,
A data sorting / accumulating device characterized by the above-mentioned. The data sorting / accumulating device according to claim 2,
Each identification number entry of the identification number storage means includes:
In addition to the identification number of the data to be sorted, storing a storage area number indicating the storage area of the data storage means to store data having the identification number of the sorting target,
The identification code providing means includes:
To each data extracted by the data extraction means, the storage area number in the identification number storage means is given as an identification code,
The data storage control means includes:
When the same storage area number is stored for different identification numbers in the identification number storage means, a plurality of types of data having the different identification numbers are multiplexed and stored in the storage area having the storage area number. ,
A data sorting / accumulating device characterized by the above-mentioned. The data sorting / accumulating device according to claim 5,
The data storage control means includes:
In the case where a plurality of associations of the same storage area number with different identification numbers are stored in the identification number storage means, a plurality of types of data indicated by different identification numbers are stored on the basis of the storage area numbers. Multiplex and store in the storage area indicated by the storage area number,
A data sorting / accumulating device characterized by the above-mentioned. 7. The data selection / storage device according to claim 2, wherein:
The data storage control means includes:
When storing a plurality of types of data having different identification numbers in the same storage area of the data storage unit, information for identifying each data is recorded together with each data.
A data sorting / accumulating device characterized by the above-mentioned. A data selection storage device according to any one of claims 1 to 7,
A data processing device comprising: a data reproduction device that reads data stored in the data storage unit of the data selection storage device and reproduces the data.
The data reproducing device,
In the data storage means of the data selection / storage device, the multiplexed data is taken out from a storage area where a plurality of types of data having different identification numbers are multiplexed and stored, and reproduced.
A data processing device characterized by the above-mentioned. The data processing device according to claim 8,
Comprising a plurality of the data reproducing device,
When the data selection storage device has a plurality of storage areas in which a plurality of types of data are multiplexed and stored,
The plurality of data reproducing devices take out and reproduce data multiplexed and stored from the corresponding storage areas,
A data processing device characterized by the above-mentioned.

Images