JP3752956B2 - PERFORMANCE GUIDE DEVICE, PERFORMANCE GUIDE METHOD, AND COMPUTER-READABLE RECORDING MEDIUM CONTAINING PERFORMANCE GUIDE PROGRAM - Google Patents

Description

【００４９】
表示は８分音符刻みであるため、この１６分音符刻みに対応する表示を行うので１桁（半拍）で１６分音符２つ分を表示することがある。この場合、同じ半拍内で異なる領域を続けて表示する場合はその桁の表示番号が変化するのでタイミングを認識できるが、同じ半拍内で同じ領域を続けて表示するとその桁の表示番号が変化しないのでタイミングが認識できない。そこで、同じ桁で連続して同じ領域を表示する場合は後のタイミングで「＝」の記号を表示する。なお、「＝」以外の記号でもよい。
【００５０】
例えば表１の発音タイミング“０９”と“１０”は同じ半拍内で表示番号が「２」→「５」と変化しているが、この場合の表示は、図１(B) の発音タイミング“０９”と“１０”で「２」→「５」と表示されるのでタイミングを認識できる。しかし、表１の発音タイミング“１１”と“１２”は同じ半拍内で表示番号が共に「１」であり、これを表示すると同じ桁に同じ番号が表示されるだけでタイミングが認識できない。そこで、図１(B) の発音タイミング“１２”のように「＝」を表示する。これにより表示が変化するのでタイミングを認識できる。
【００５１】
図６〜図８はＣＰＵ１が実行する制御プログラムの要部のフローチャートであり演奏ガイドプログラムの部分を示している。以下、各フローチャートに基づいてＣＰＵ１の制御動作について説明する。図６はエニーキーモードの処理、図７は一致進行モードの処理、図８はマイナスワンモードの処理を示しており、これらのモードは所定の操作スイッチにより選択され、ＤＪソングの選択等を行って自動演奏モードと同様な割り込み処理の一部として起動され、クロックに基づいて手本用シーケンスデータおよび練習用シーケンスを参照して、各パートのタイミングを判定しながら処理を進める。また、各フローチャートはループ状に図示してあるが、モードの切り換えやその他の割り込みが入ると、各処理から抜け出すようになっている。なお、以下の処理では、発音に対応するキーコードを格納する発音キーバッファと、押鍵された鍵のキーコードまたは操作されたパッドのキーコードを格納する押鍵キーバッファを使用する。
【００５２】
図６のエニーキーモードの処理では、ステップＳ１で練習パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ４に進み、発音タイミングであれば、ステップＳ２でイベントデータを読み出して鍵域及びパッドの番号を表示器６１の対応する桁に表示し、発音キーバッファにキーコードを格納し、ステップＳ４に進む。ステップＳ４では、手本パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ６に進み、発音タイミングであればステップＳ５でイベントデータを読み出してＤＪ音色セットで発音し、ステップＳ６に進む。ステップＳ６では、その他パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ８に進み、発音タイミングであればステップＳ７でイベントデータを読み出して通常音色で発音し、ステップＳ８に進む。ステップＳ８では押鍵またはパッド操作があったか否かを判定し、押鍵またはパッド操作が無ければステップＳ１に戻り、押鍵またはパッド操作があればステップＳ９で発音キーバッファの内容にしたがってＤＪ音色セットで発音し、ステップＳ１に戻る。
【００５３】
以上の処理により、練習パートのときに、押鍵またはパッド操作をすればすなわちどの鍵を押鍵しても、またはどのパッドを操作しても発音キーバッファに格納された練習パートのキーコードに基づいてＤＪ音色セットで発音される。このように、鍵盤のある音域の操作と、この音域に対応したパッドの操作は共通の操作として扱われるので、操作をするのは鍵でもパッドでもよく、ユーザは好みの演奏操作子を使っての練習が可能である。
【００５４】
図７の一致進行モードの処理では、ステップＳ１１で、再生中であるか否か（すなわち再生一時停止処理で一時停止になっているかいないか）を判定し、再生中でなければステップＳ１０３に進み、再生中であればステップＳ１２で練習パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ１６に進み、発音タイミングであれば、ステップＳ１３でイベントデータを読み出して鍵域及びパッドの番号を表示器６１の対応する桁に表示し、ステップＳ１４で押鍵キーバッファ内にイベントデータと同じキーコードがあるか否かを判定し、同じキーコードがなければステップＳ１０１に進み、同じキーコードがあればステップＳ１５で押鍵キーバッファの該当キーコードを消去し、ステップＳ１６に進む。ここで、押鍵がないか練習パートと異なるキーコードの押鍵であった場合にはステップＳ１０１で練習パートのキーコードを発音キーバッファに格納してステップＳ１０２で再生を一時停止しステップＳ１０３に進む。なお、この処理の直後に練習パートのキーコードと同じキーコードの押鍵があれば、後の処理で一時停止が解除される。
【００５５】
ステップＳ１６では、手本パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ１８に進み、発音タイミングであればステップＳ１７でイベントデータを読み出してＤＪ音色セットで発音し、ステップＳ１８に進む。ステップＳ１８では、その他パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ１０３に進み、発音タイミングであればステップＳ１９でイベントデータを読み出して通常音色で発音し、ステップＳ１０３に進む。
【００５６】
ステップＳ１０３では、押鍵またはパッド操作があったか否かを判定し、押鍵またはパッド操作が無ければステップＳ１０９に進み、押鍵またはパッド操作があればステップＳ１０４で、押鍵またはパッド操作のあったキーコードに対応する鍵域のＤＪ音色セットで発音し、ステップＳ１０５に進む。ステップＳ１０５では、該押鍵またはパッド操作のあったキーコードが発音キーバッファ内のキーコードと同じであるか否かを判定し、同じでなければステップＳ１０６で該キーコードを押鍵キーバッファに格納してステップＳ１０９に進む。キーコードが同じであれば、ステップＳ１０７で発音キーバッファのキーコードを消去し、ステップＳ１０８で再生一時停止を解除し、ステップＳ１０９に進む。ステップＳ１０９では、押鍵キーバッファに格納した後、所定時間が経過したキーコードがあれば消去し、ステップＳ１１に戻る。
【００５７】
以上の処理により、練習パートのときに、押鍵した鍵または操作したパッドが練習用シーケンスデータのキーコードと異なっていると再生が一時停止し、正しい鍵域（の正しい音名）を押鍵するとまたは正しい番号のパッドを操作すると一時停止が解除される。
【００５８】
図８のマイナスワンモードの処理では、ステップＳ２１で練習パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ２３に進み、発音タイミングであれば、ステップＳ２２でイベントデータを読み出して鍵域及びパッドの番号を表示器６１の対応する桁に表示し、ステップＳ２３に進む。ステップＳ２３では、手本パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ２５に進み、発音タイミングであればステップＳ２４でイベントデータを読み出してＤＪ音色セットで発音し、ステップＳ２５に進む。ステップＳ２５では、その他パートの発音タイミングであるか否かを判定し、発音タイミングでなければステップＳ２７に進み、発音タイミングであればステップＳ２６でイベントデータを読み出して通常音色で発音し、ステップＳ２７に進む。ステップＳ２７では押鍵またはパッド操作があったか否かを判定し、押鍵またはパッド操作が無ければステップＳ２１に戻り、押鍵またはパッド操作があればステップＳ２８で押鍵またはパッド操作のあったキーコードに対応する鍵域のＤＪ音色セットで発音し、ステップＳ２１に戻る。
【００５９】
以上の処理により、練習パートのときに、練習パートのガイド表示は行なわれるが練習用シーケンスデータに基づく発音は行なわれず、押鍵された鍵域または操作されたパッドに割り当てられているＤＪ音色セットの音色で楽音が発生される。
【００６０】
本発明は、前記実施形態のものに限定されず様々な態様とすることができる。表示器は１行のものに限らず複数行のものでもよい。その場合、１小節を複数行にわたって表示してもよいし、各行を１小節とし複数小節分（現在小節と以降の小節、或いは以前の小節、或いはその双方）を表示してもよい。
【００６１】
表示器の１桁を８分音符に対応させるものに限らず、４分音符や２分音符、１６分音符等でもよい。また、これらを可変にしてもよい。その場合、ユーザが変更指示をしてもよいし、曲ごとに、或いは練習の上達度に応じて自動的に切り替えるようにしてもよい。
【００６２】
エニーキーモード、一致進行モード、マイナスワンモードのすべてを備えるものに限らず、少なくとも１つを備えるものでもよい。
【００６３】
複数のガイドモードを備えるものにおいて、ガイドモードの切り替えはユーザが指示するものに限らず、練習の上達度合いに応じて自動的に切り替えるようにしてもよい。
【００６４】
一致進行モードにおいて、練習パート内の演奏データと押鍵した鍵とが完全に一致した場合にのみ、正しいとみなすものに限らず、音域（実施形態では鍵域）があっていれば正しいとみなすようにしてもよい。具体的には、「練習パート内の演奏イベントデータが読み出されたとき、該演奏イベントデータが含まれる音域内のすべての音高を発音キーバッファに格納し、押鍵がなされたとき、発音キーバッファ内のいずれかの音高と一致していれば正しいとみなす」あるいは、「練習パート内の演奏イベントデータが読み出されたとき、該演奏イベントデータの音高を発音キーバッファに格納し、押鍵がなされたとき、該押鍵の音高が含まれる音域内のすべての音高を発生させ、いずれかが発音キーバッファ内の音高と一致していれば正しいとみなす」とすればよい。さらに、前記実施形態のように音域をオクターブで分割し、押鍵の音高のオクターブを抽出して、このオクターブで音域を判定してもよい。
【００６５】
このように、音域があっていれば正しいとみなすようにすると、例えば鍵盤の広い領域（一つの音域）の操作を行えばよいので、ビートの再現に適したさらに大雑把な演奏を行うことができる。
【００６６】
複数曲（例えば演奏レベルが異なる曲）を記憶していてもよい。その場合、曲の選択をユーザが指示してもよいし、練習の上達度合いに応じて自動的に選択するようにしてもよい。また、曲ごとにパターンの長さ（実施形態の例では２小節）が異なっていてもよい。また、手本パートのパターンとそれに続く同パターンの練習パートのパターンの間、或いは練習パートのパターンと次の手本パートのパターンとの間に、所定の音（練習を促すための音声や拍手等）を流すようにしてもよい（例えば音波形データを記憶しておき、曲データ中にこの音波形データの再生を指示するイベントを含ませておく）。
【００６７】
練習結果を採点してもよい。採点結果は、上記のようにガイドモードの切り替えや曲の選択に利用したり、点数表示等に利用できる。
【００６８】
演奏操作子として鍵盤を採用した場合、鍵盤に加えてピッチベンドホイールやモジュレーションホイール、パラメータつまみ（音色等を変更するためのもの）、ジョイスティック等を採用してもよい。また、スクラッチレコード方法で演奏操作をするようなターンテーブル型操作子を備えていてもよい。
【００６９】
また、実施形態では、鍵盤の各鍵域と対応する各パッドとで同じ音色やキーコードをアサインしたが、異なる音色やキーコードをアサインしてもよい。
【００７０】
また、実施形態では本発明を電子楽器に適用した例を示したが、電子楽器の形態に限らず、パソコン＋アプリケーションソフトウェア（音色設定プログラムを含む）の形態でもよく、カラオケ装置や、ゲーム装置、自動演奏ピアノに適用してもよい。電子楽器の形態を取った場合、その形態は鍵盤楽器に限らず、弦楽器タイプ、管楽器タイプ、打楽器タイプ等の形態でもよい。また、音源装置、自動演奏装置等を１つの電子楽器本体に内蔵したものに限らず、それぞれが別体の装置であり、ＭＩＤＩや各種ネットワーク等の通信手段を用いて各装置を接続するものであってもよい。
【００７１】
また、自動演奏データ（手本用シーケンスデータ、練習用シーケンスデータ、通常シーケンスデータ）のフォーマットは、演奏イベントの発生時刻を１つ前のイベントからの時間で表した「イベント＋相対時間」、演奏イベントの発生時刻を曲や小節内における絶対時間で表した「イベント＋絶対時間」、音符の音高と符長あるいは休符と休符長で演奏データを表した「音高（休符）＋符長」、演奏の最小分解能毎にメモリの領域を確保し、演奏イベントの発生する時刻に対応するメモリ領域に演奏イベントを記憶した「ベタ方式」等、どのような形式でもよい。
【００７２】
さらに、自動演奏データの処理方法は、設定されたテンポに応じて処理周期を変更する方法、処理周期は一定で、自動演奏データ中のタイミングデータの値を設定されたテンポに応じて変更する方法、処理周期は一定で、１回の処理において自動演奏データ中のタイミングデータの計数の仕方をテンポに応じて変更する方法等、どのようなものであってもよい。
【００７３】
また、複数チャンネル（パート）分の自動演奏データの記憶方法としては、複数のチャンネルのデータが混在記憶された形式でもよいし、各チャンネルのデータがトラック毎に分かれて記憶されている形式でもよい。
【００７４】
さらに、メモリ上において、時系列の演奏データが連続する領域に記憶されていてもよいし、飛び飛びの領域に散在して記憶されているデータを、連続するデータとして別途管理するようにしてもよい（すなわち、時系列的に連続するデータとして管理することができればよく、メモリ上で連続して記憶されているか否かは問題ではない）。
【００７５】
処理プログラム（演奏ガイドプログラムを含む）や処理に利用する各種データを外部記憶媒体から、或いは通信インターフェースを介して外部装置から電子楽器やパソコンに供給してもよい。
【００７６】
また、専用のＭＩＤＩインターフェースに限らず、ＲＳ−２３２Ｃ、ＵＳＢ（ユニバーサル・シリアル・バス）、ＩＥＥＥ１３９４（アイトリプルイー１３９４）等の汎用のインターフェースを用いてＭＩＤＩインターフェースを構成してもよい。この場合、ＭＩＤＩメッセージ以外のデータをも同時に送受信するようにしてもよい。
【００７７】
【発明の効果】
以上説明したように、本発明の請求項１の演奏ガイド装置または請求項３の演奏ガイド方法または請求項４の記録媒体の演奏ガイドプログラムの実行によれば、演奏ガイドに必要な表示領域は、複数桁の表示要素１行でもよく、小さな表示器で演奏ガイドが可能となる。また、小さいな表示器で細かいタイミングの演奏ガイドが可能となる。
【００７９】
本発明の請求項２の演奏ガイド装置によれば、演奏操作子の複数の音域において、その音域内でどの操作子を操作しても音域ごとの所定の楽音で発音されるので、ビートの再現に適した大雑把な演奏を行うことができる。また、その大雑把な演奏に対して小さな表示器で演奏ガイドが可能となる。また、小さいな表示器で細かいタイミングの演奏ガイドが可能となる。
【００８３】
本発明の請求項５の演奏ガイド装置または請求項１３の演奏ガイド方法によれば、複数の演奏操作子において、どの操作子を操作しても演奏操作子ごとの所定の楽音で発音されるので、ビートの再現に適した大雑把な演奏を行うことができる。また、その大雑把な演奏に対して小さな表示器で演奏ガイドが可能となる。また、小さいな表示器で細かいタイミングの演奏ガイドが可能となる。
【００８７】
本発明の請求項６の演奏ガイド方法によれば、請求項５と同様な作用効果が得られる。
【図面の簡単な説明】
【図１】本発明の実施形態における表示器と表示例を示す図である。
【図２】本発明の実施形態における鍵盤に設定された「音域」としての鍵域の例と複数のパッドの対応関係を示す図である。
【図３】本発明の実施形態におけるＤＪソングのフォーマットを示す図である。
【図４】本発明の実施形態における手本用シーケンスと練習用シーケンスのパターンの再生タイミングを示す図である。
【図５】本発明の実施形態における電子楽器のブロック図である。
【図６】本発明の実施形態におけるエニーキーモードの処理のフローチャートである。
【図７】本発明の実施形態における一致進行モードの処理のフローチャートである。
【図８】本発明の実施形態におけるマイナスワンモードの処理のフローチャートである。
【符号の説明】
１…ＣＰＵ、２…ＲＯＭ、３…ＲＡＭ、６１…表示器[0001]
BACKGROUND OF THE INVENTION
  The present invention records a performance guide device, a performance guide method, and a performance guide program for guiding a performance operation with an indicator in an electronic musical instrument or the like.Computer readableRecording mediumbodyAbout.
[0002]
[Prior art]
Conventionally, as a performance guide device, for example, a performance instruction device is disclosed in JP-A-9-305171. This device displays the pitch to be operated at each performance timing in the pitch axis direction, taking the pitch axis in the horizontal axis direction of the display in association with the keyboard and taking the time axis in the vertical axis direction. The pitch axis direction display is sequentially displayed in the time axis direction as time elapses. However, a certain amount of display area is required in the horizontal axis direction and the vertical axis direction for finely guiding performance for all pitches, and a large display is required.
[0003]
[Problems to be solved by the invention]
By the way, in recent years, especially in pop-type music (for example, rap, hip-hop DJ, etc.), a performance that emphasizes the beat and generates an imitation sound in addition to the melody is also preferred. When such a performance is realized with an electronic musical instrument, it is necessary to consider a performance method suitable for reproducing a beat, unlike a normal melody keyboard performance. In addition, an effective performance guide for performing such a performance method is required, but a large display device that performs performance guide finely for all pitches as in the conventional apparatus is not suitable.
[0004]
An object of the present invention is to enable a rough performance guide suitable for beat reproduction with a small display and to perform a performance guide suitable for practice.
[0005]
[Means for Solving the Problems]
  The performance guide apparatus according to claim 1 of the present invention associates each digit of a display element of multiple digits with the timing of performance in the order of digits, and displays information on the performance operator to be operated at that timing for each digit.And a plurality of successive timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit.It is characterized by doing so.
[0006]
  According to the performance guide device of the first aspect configured as described above, the display area necessary for the performance guide may be one line of display elements of a plurality of digits, and the performance guide can be performed with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0009]
  Claims of the invention2In this performance guide device, the performance operator is divided into a plurality of ranges, and predetermined musical sounds are assigned to the respective ranges.Music assigned toA performance guide device for storing performance data for instructing pronunciation in a case, wherein each digit of a display element of a plurality of digits corresponds to the timing of performance in the order of digits, and the timing for each digit corresponding to the performance data Instruct the range to be operated withIt is configured to perform display, and a plurality of continuous timings are associated with one digit of the display element, and the display is changed at a plurality of timings with the one digit.It is characterized by doing so.
[0010]
  Claims configured as above2According to the performance guide device of the above, in any range of the performance operators, any operator within the range can be sounded with a predetermined musical tone for each range, so a rough performance suitable for beat reproduction It can be performed. In addition, a performance guide can be provided for the rough performance with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0015]
  Claims of the invention3The performance guide method uses a display element of a plurality of digits, associates each digit of the display element with the timing of performance in the order of digits, and displays information on a performance operator to be operated at that timing for each digit.And a plurality of successive timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit.This claim is characterized in that this claim3According to the performance guide method, the same effect as that of the first aspect can be obtained.
[0016]
  Claims of the invention4This recording medium reads out guide data in which each digit of a display element of a plurality of digits is associated with the timing of performance and performs performance guidance.In addition, a plurality of continuous timings are associated with one digit of the display element, and the display is changed at a plurality of timings with the one digit.Recorded a performance guide programComputer readableA recording medium,Reading the guide data; and reading the guide dataBased on the timing indicated by the guide data, information on the performance operator to be operated at that timing is displayed in the digit corresponding to the timing.The step of performing the process,Recorded performance guide program executed by computerComputer-readable recording mediumTherefore, according to the execution of the performance guide program, the same effect as that of the first aspect can be obtained.
[0019]
  Claims of the invention5The performance guide device is a performance guide device in which a predetermined musical tone is assigned to each of a plurality of performance operators and stores performance data instructing pronunciation by each performance operator, and each of the display elements of a plurality of digits is stored. Corresponding to the performance timing in order of the digits, and instructing the performance operator to be operated at that timing for each digit corresponding to the performance dataIt is configured to perform display, and a plurality of continuous timings are associated with one digit of the display element, and the display is changed at a plurality of timings with the one digit.It is characterized by doing so.
[0020]
  Claims configured as above5According to the performance guide device, a plurality of performance operators can be sounded with a predetermined tone for each performance operator, regardless of which operator is operated, so that a rough performance suitable for beat reproduction can be performed. it can. In addition, a performance guide can be provided for the rough performance with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0027]
  Claims of the invention6The performance guide method is a performance guide method that is applied to a performance guide device that stores performance data that assigns a predetermined musical sound to each of the plurality of performance operators and that instructs the pronunciation of each performance operator, Each digit of the multi-digit display element is made to correspond to the timing of performance in the order of digits, and the performance operator to be operated at that timing is indicated for each digit corresponding to the performance data.It is configured to perform display, and a plurality of continuous timings are associated with one digit of the display element, and the display is changed at a plurality of timings with the one digit.This claim is characterized in that this claim6According to the performance guide method of claim5The same effect can be obtained.
[0029]
Note that the performance controls (keys with multiple keys, etc.) are virtually divided into multiple ranges, and a specific musical tone is assigned to each range. According to the usage of the electronic musical instrument configured as described above, or such a performance operation element, each area can be an operation element having one large operation surface. The performance can be reproduced, and it can be used as a performance operator. Such performance operators can be applied to those having a large number of operators such as keyboard instruments and wind instrument model instruments.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 5 is a block diagram of an electronic musical instrument to which the present invention is applied. The CPU 1 controls the entire electronic musical instrument using the working area of the RAM 3 based on a control program stored in the ROM 2. As a basic function of a normal electronic musical instrument, the CPU 1 detects an operation event of the performance operator (keyboard, pad, etc.) 4 from the detection circuit 4a and controls manual performance. Furthermore, an operation event of the panel operator 5 is detected from the detection circuit 5a, and processing corresponding to the operation of various switches is performed. In addition, the CPU 1 controls the display 6 including a display unit, which will be described later, via the display circuit 6a.
[0031]
The timer 7 is a circuit that generates an interrupt signal for performing automatic performance and performance guide display. The timer 7 generates an interrupt signal at intervals according to the tempo set by the CPU 1 (for example, 96 times per quarter note). In the interrupt processing, the performance data and guide data corresponding to the timing of the interrupt processing clock are read from the automatic performance data (for example, a DJ song described later), and the automatic performance and performance guide display are performed.
[0032]
The tone generator circuit 8 performs time-division multiplexing processing on a plurality of tone generator channels so that a plurality of sounds can be generated substantially simultaneously. The CPU 1 sets key codes, tone data, volume data, etc. for each tone generator channel. A tone signal is generated for each sound source channel. The effect circuit 9 adds an effect corresponding to the setting contents set by the CPU 1 to the musical sound signal and outputs it to the sound system 10. The sound system 10 performs D / A conversion, amplification, etc., and produces sound through a speaker.
[0033]
The external storage device 11 is a hard disk device (HDD), a floppy disk device (FDD), a CD-ROM device, a magneto-optical disk (MO) device, a digital multipurpose disk (DVD) device or the like. It is used to supply the performance guide program of the invention and performance data for guide, and to store various data. The MIDI interface 12 exchanges various data with other MIDI devices 20, and outputs various musical tone control data (key code, timbre data, volume data, other data, etc.) as MIDI data. The MIDI device 20 can also generate musical sounds. Furthermore, it is also possible to connect to the communication network 30 via the communication interface 13 and receive distribution of various data such as the performance guide program and performance data for guide from the server computer 40.
[0034]
In this embodiment, the performance guide program is stored in the ROM 2 as a part of the control program, and the execution of the performance guide program controls the generation of musical sounds according to the guide performance data and the operation of the performance operator 4. And control the display of the performance guide.
[0035]
In the following embodiment, a case where the performance operator 4 is a keyboard and a pad will be described. FIG. 2 is a diagram showing an example of a key range as a “sound range” set on a keyboard and a correspondence relationship between a plurality of pads. The keys are divided by key codes, and “C1 to B1” are set to a key range I and “C2 to C2”. “B2” is set as the key range II, “C3 to B3” is set as the key range III, “C4 to B4” is set as the key range IV, and “C5 to C6” is set as the key range V. Pads I to V are associated. A different tone color is assigned (assigned) to each key range and pad. In this example, for the key range I and the pad I, for example, the sound of “ku” when the turntable of the analog record player is manually turned is assigned as the onomatopoeia. Is assigned. In addition, the key range III is assigned a scale sound (for example, piano tone) corresponding to each key, and the pad III is assigned a predetermined one (for example, a note of F) of the scale sound. Yes. Furthermore, a human voice sound (sound) of “Hay” is assigned to the key range IV and the pad IV, and a human voice sound (sound sound) of “Ye” is assigned to the key range V and the pad V, respectively. When the sound assigned on the keyboard is a pseudo sound, the same sound is produced no matter where the key is pressed in the key range. When the assigned sound is a scale sound, a sound having a different pitch corresponding to the pressed key is generated.
[0036]
A set of pseudo sounds or scale sounds (in this example, one set of five types) assigned to each key range and pad as described above is called a “DJ timbre set”, and there are a plurality of DJ timbre sets. Each DJ tone set is different in tone assignment method (what tone range is assigned to which key range and pad), and only the scale tone may be assigned (in the case of a keyboard: in this case) May be assigned only onomatopoeia. The DJ tone color set is supplied as data “DJ song” together with each sequence data as performance data.
[0037]
FIG. 3 is a diagram showing the format of a DJ song in the embodiment. The DJ song is composed of practice part data, model part data, and other part data. The practice part data is composed of DJ tone color set data and practice sequence data (practice part guide data). The model part data is composed of a DJ tone color set and a model sequence (performance data of the model part). The other part data is composed of normal tone color data and normal sequence data. As described above, the DJ song includes guide performance data including performance data of the model part and guide data of the practice part. This DJ song is a CD-ROM, floppy disk, magneto-optical disk, digital multi-purpose disk, etc. It is recorded on various recording media and supplied to the electronic musical instrument. The other part data is normal automatic performance data such as a rhythm part, a bass part, and a chord part.
[0038]
In the same DJ song, the same DJ tone color set data is set for the practice part data and the model part data. Also, the model sequence data and the practice sequence data are in a mutually related relationship. In other words, each sequence data is, for example, performance data and guide data recorded as event data at that timing together with timing data corresponding to the interrupt processing clock. A series of events such as one measure or two measures are alternately generated between the model sequence data and the practice sequence data.
[0039]
For example, as shown in FIG. 4, in the first two measures, a musical sequence is generated in the event of pattern A, and in the next two measures, the practice sequence performs a guide display of pattern A. The musical sequence is generated in the event of the pattern B in the measure in the measure, and the practice sequence performs the guide display of the pattern B in the next two measures. Note that although it is pronounced normally in the example sequence, it is not pronounced in the practice sequence (you may pronounce it with a small sound). In addition to the guide display based on the practice sequence, a guide display based on the example sequence may be performed.
[0040]
The event data of the example sequence and the practice sequence are as follows. The data for sound generation and performance guide in the key range of the onomatopoeia is the key code of the pitch name “F” in the key range. The data for sound generation and performance guide in the key range of the scale sound is a key code corresponding to the performance by the scale. For example, in the example of FIG. 2, “F1” is set in the key range I, “F2” in the key range II, “C3 to B3” in the key range III, “F4” in the key range IV, and “F5” in the key range V. Has been. In addition, when the onomatopoeia is assigned to the key range III, “F3” is set. Then, in the key range of the onomatopoeia, the key of the pitch name “F” is pressed to perform. Note that the pitch name “F” in each range is for the following reason. When an onomatopoeia is assigned, the same onomatopoeia will be produced no matter which key in each range is pressed, but in the “coincidence progress mode” described later, a key that matches the pitch of the stored practice sequence. It will not be judged correct unless you press. For this reason, in the “coincidence progress mode”, the memory pitch of the practice sequence is unified to the pitch name “F” and the user is determined to always press the pitch name “F” of the onomatopoeia. It becomes possible to judge that it is correct. In addition to the “coincidence progress mode”, not only the pitch name “F” but any pitch name may be pressed. In addition, the same “F1” to “F5” as the corresponding prefectural areas are set in the pads I to V, respectively.
[0041]
In this embodiment, there are three performance modes corresponding to the practice part sequence: “any key mode”, “coincidence progress mode”, and “minus one mode”, and each performs the following operations.
[0042]
In “Any Key Mode”, any key or pad in any range is generated based on the key code read from the practice part sequence. Is done. Also, the playback is not stopped even if the timing is shifted. In other words, this “any key mode” is suitable for timing practice.
[0043]
In “coincidence progress mode”, if the correct key or pad is not pressed, playback of the song stops at that point. When the correct key or pad is pressed in the stopped state, the reproduction is resumed. That is, the “matching progress mode” is suitable for practice of pressing the correct key or pad after learning the correct key or pad operation timing in the any key mode.
[0044]
In the “minus one mode”, the user plays the practice part completely. Even if the correct key or pad is not pressed, song playback (playback corresponding to the model part sequence and performance operation) does not stop. This “minus one mode” is suitable for finishing practice after learning both the correct timing and the correct key or pad in the any key mode and the coincidence progress mode.
[0045]
In the “normal mode” other than the three practice modes described above, the keyboard is used to generate a scale sound, and the pad is used to generate a single tone (for example, a drum sound or a sound effect) assigned to each pad or a short phrase. .
[0046]
FIG. 1 is a diagram illustrating a display 61 and a display example in the embodiment. As shown in FIG. 1 (A), the display 61 is a display capable of displaying characters in one column of 8 digits, and is disposed on a display panel of an electronic musical instrument. It is normally used for other displays and used for guide display in the performance guide mode. One column of 8 digits corresponds to 1 bar, 1st and 2nd digits are 1st beat, 3rd and 4th digits are 2nd beat, 5th and 6th digits are 3rd beat, 7th and 8th digits Each eye corresponds to the 4th beat.
[0047]
For example, as shown in FIG. 1 (B), numbers of keys and pads to be operated are displayed in increments of eighth notes based on the practice sequence data. In addition, an underbar indicating the current performance timing is displayed at the digit corresponding to the current performance timing. The displayed numbers “1, 2, 3, 4, 5” correspond to the areas “I, II, III, IV, V” and the pads “I, II, III, IV, V”. Here, FIG. 1 (B) corresponds to the sequence data in the following table 1, and this sequence data is in 16th note intervals.
[0048]
[Table 1]

[0049]
Since the display is in steps of an eighth note, a display corresponding to the step of the sixteenth note is performed, so two sixteenth notes may be displayed in one digit (half beat). In this case, when different areas are displayed continuously within the same half beat, the display number of that digit changes, so the timing can be recognized.However, if the same area is displayed continuously within the same half beat, the display number of that digit is displayed. The timing cannot be recognized because it does not change. Therefore, when the same area is continuously displayed with the same digit, the symbol “=” is displayed at a later timing. A symbol other than “=” may be used.
[0050]
For example, the sound generation timings “09” and “10” in Table 1 change the display number from “2” to “5” within the same half beat, but the display in this case is the sound generation timing of FIG. Since “2” → “5” is displayed for “09” and “10”, the timing can be recognized. However, the sound generation timings “11” and “12” in Table 1 have both the display numbers “1” within the same half beat, and when this is displayed, the same number is displayed in the same digit and the timing cannot be recognized. Therefore, “=” is displayed like the sound generation timing “12” in FIG. As a result, the display changes so that the timing can be recognized.
[0051]
6 to 8 are flowcharts of the main part of the control program executed by the CPU 1, and show the part of the performance guide program. Hereinafter, the control operation of the CPU 1 will be described based on each flowchart. FIG. 6 shows the any key mode processing, FIG. 7 shows the matching progress mode processing, and FIG. 8 shows the minus one mode processing. These modes are selected by a predetermined operation switch, and a DJ song is selected. The process is started as part of the interrupt process similar to the automatic performance mode, and the process proceeds while judging the timing of each part by referring to the model sequence data and practice sequence based on the clock. Each flowchart is illustrated in a loop shape, but when a mode change or other interrupt is input, the process exits from each process. In the following processing, a sounding key buffer that stores a key code corresponding to sound generation and a key pressing key buffer that stores a key code of a pressed key or a key code of an operated pad are used.
[0052]
In the any key mode process of FIG. 6, it is determined in step S1 whether or not it is the sounding timing of the practice part. If it is not the sounding timing, the process proceeds to step S4. The key range and pad number are displayed in the corresponding digits of the display 61, the key code is stored in the tone generation key buffer, and the process proceeds to step S4. In step S4, it is determined whether or not it is the sound generation timing of the model part. If it is not the sound generation timing, the process proceeds to step S6. Proceed to S6. In step S6, it is determined whether or not it is the sound generation timing of the other part. If it is not the sound generation timing, the process proceeds to step S8. If it is the sound generation timing, the event data is read out in step S7 and sounded in the normal tone color, move on. In step S8, it is determined whether or not there has been a key depression or pad operation. If there is no key depression or pad operation, the process returns to step S1. And then returns to step S1.
[0053]
With the above processing, if you press a key or a pad during the practice part, that is, if you press any key or operate any pad, the key code of the practice part stored in the pronunciation key buffer Based on this, the DJ tone color set is used for sound generation. In this way, the operation of the range with the keyboard and the operation of the pad corresponding to this range are handled as a common operation, so the operation can be done with the key or the pad, and the user can use the favorite performance operator Can be practiced.
[0054]
In the process of matching progress mode in FIG. 7, it is determined in step S11 whether or not playback is in progress (that is, whether or not playback has been paused in the playback pause process). If the sound is being played, it is determined in step S12 whether or not it is the sounding timing of the practice part. If not, the process proceeds to step S16, and if it is sounding, the event data is read in step S13 to obtain the key range and The pad number is displayed in the corresponding digit of the display 61. In step S14, it is determined whether or not there is the same key code as the event data in the key pressing key buffer. If there is no same key code, the process proceeds to step S101. If there is the same key code, the corresponding key code in the key pressing key buffer is erased in step S15, and the process proceeds to step S16. If there is no key depression or the key code is different from that of the practice part, the key code of the practice part is stored in the pronunciation key buffer in step S101, the reproduction is paused in step S102, and the process proceeds to step S103. move on. If there is a key depression of the same key code as that of the practice part immediately after this process, the pause is canceled in a later process.
[0055]
In step S16, it is determined whether or not it is the sound generation timing of the model part. If it is not the sound generation timing, the process proceeds to step S18. If it is the sound generation timing, the event data is read in step S17 and sounded by the DJ tone set. Proceed to S18. In step S18, it is determined whether or not it is the sound generation timing of the other part. If it is not the sound generation timing, the process proceeds to step S103. move on.
[0056]
In step S103, it is determined whether or not there is a key depression or pad operation. If there is no key depression or pad operation, the process proceeds to step S109. If there is a key depression or pad operation, the key depression or pad operation is performed in step S104. A tone is generated with the DJ tone color set corresponding to the key code, and the process proceeds to step S105. In step S105, it is determined whether or not the key code that has been pressed or pad operated is the same as the key code in the tone generation key buffer. If not, the key code is stored in the key pressing key buffer in step S106. Store and proceed to step S109. If the key codes are the same, the key code in the tone generation key buffer is deleted in step S107, the playback pause is canceled in step S108, and the process proceeds to step S109. In step S109, after storing in the key pressing key buffer, if there is a key code for which a predetermined time has elapsed, it is deleted, and the process returns to step S11.
[0057]
As a result of the above processing, if the key pressed or the operated pad is different from the key code of the practice sequence data during the practice part, playback pauses and the correct key range (the correct note name) is pressed. Then, when the correct number pad is operated, the pause is released.
[0058]
In the minus one mode processing of FIG. 8, it is determined in step S21 whether or not it is the sounding timing of the practice part. If it is not the sounding timing, the process proceeds to step S23, and if it is the sounding time, the event data is read in step S22. The key range and pad number are displayed in the corresponding digits of the display 61, and the process proceeds to step S23. In step S23, it is determined whether or not it is the sound generation timing of the model part. If it is not the sound generation timing, the process proceeds to step S25. If it is the sound generation timing, the event data is read in step S24 and sounded by the DJ tone set. Proceed to S25. In step S25, it is determined whether or not it is the sound generation timing of the other part. If it is not the sound generation timing, the process proceeds to step S27. move on. In step S27, it is determined whether or not there is a key depression or pad operation. If there is no key depression or pad operation, the process returns to step S21. If there is a key depression or pad operation, the key code in which the key depression or pad operation is performed in step S28. Is sounded with the DJ tone color set corresponding to the key range, and the process returns to step S21.
[0059]
With the above processing, the practice part guide is displayed in the practice part, but the sound generation based on the practice sequence data is not performed, and the DJ tone set assigned to the pressed key range or the operated pad. Musical tone is generated with the tone.
[0060]
The present invention is not limited to the above-described embodiment, and can be various aspects. The display is not limited to one line but may be a plurality of lines. In that case, one bar may be displayed over a plurality of lines, or each line may be displayed as one bar and a plurality of bars (current bar and subsequent bars, or previous bars, or both) may be displayed.
[0061]
The display is not limited to one digit corresponding to an eighth note, but may be a quarter note, a half note, a 16th note, or the like. These may be variable. In that case, the user may give a change instruction, or may be switched automatically for each song or according to the progress of practice.
[0062]
It is not limited to having any key mode, matching progress mode, and minus one mode, but may have at least one.
[0063]
In the case of having a plurality of guide modes, the switching of the guide modes is not limited to that instructed by the user, and may be automatically switched according to the progress of practice.
[0064]
In the match progress mode, it is not only considered correct when the performance data in the practice part and the key pressed are completely matched, but it is considered correct if there is a range (key range in the embodiment). You may do it. Specifically, “When the performance event data in the practice part is read, all the pitches in the range containing the performance event data are stored in the pronunciation key buffer, and when the key is pressed, "If the pitch matches any pitch in the key buffer, it is considered correct" or "When the performance event data in the practice part is read, the pitch of the performance event data is stored in the pronunciation key buffer. When a key is pressed, all the pitches in the range including the pitch of the key press are generated, and if any of them matches the pitch in the pronunciation key buffer, it is considered correct. '' That's fine. Furthermore, as in the above-described embodiment, the pitch range may be divided into octaves, the octave of the pitch of the key press may be extracted, and the pitch range may be determined using this octave.
[0065]
In this way, if it is assumed that there is a sound range, it is only necessary to operate a wide area (one sound range) of the keyboard, so that it is possible to perform a more rough performance suitable for beat reproduction. .
[0066]
A plurality of songs (for example, songs having different performance levels) may be stored. In that case, the user may instruct the selection of music, or may be automatically selected according to the progress of practice. Further, the length of the pattern (two measures in the example of the embodiment) may be different for each song. In addition, a predetermined sound (a voice or applause for encouraging practice) between the pattern of the model part and the pattern of the practice part of the same pattern that follows, or between the pattern of the practice part and the pattern of the next model part. Etc.) (for example, sound waveform data is stored, and an event instructing reproduction of the sound waveform data is included in the music data).
[0067]
You may score your practice results. The scoring result can be used for switching the guide mode and selecting a song as described above, or for displaying a score.
[0068]
When a keyboard is adopted as a performance operator, a pitch bend wheel, a modulation wheel, a parameter knob (for changing a tone color, etc.), a joystick, etc. may be adopted in addition to the keyboard. Moreover, you may provide the turntable type | mold operation element which performs performance operation by a scratch record method.
[0069]
In the embodiment, the same tone color and key code are assigned to each key range of the keyboard and each corresponding pad, but different tone colors and key codes may be assigned.
[0070]
In the embodiment, the present invention is applied to an electronic musical instrument. However, the present invention is not limited to an electronic musical instrument, and may be a personal computer + application software (including a tone color setting program), a karaoke device, a game device, You may apply to an automatic performance piano. When taking the form of an electronic musical instrument, the form is not limited to a keyboard instrument, and may be a stringed instrument type, a wind instrument type, a percussion instrument type, or the like. In addition, the sound source device, the automatic performance device, etc. are not limited to those built in one electronic musical instrument body, but each is a separate device, and each device is connected using communication means such as MIDI or various networks. There may be.
[0071]
In addition, the format of automatic performance data (example sequence data, practice sequence data, normal sequence data) is “event + relative time” that shows the time of the occurrence of the performance event as the time from the previous event, "Event + absolute time" that shows the time of event occurrence in absolute time within a song or measure, "pitch (rest)" that shows performance data in terms of note pitch and note length or rest and rest length + Any format may be used, such as “note length”, a “solid method” in which a memory area is secured for each minimum performance resolution, and the performance event is stored in the memory area corresponding to the time at which the performance event occurs.
[0072]
Further, the automatic performance data processing method is a method of changing the processing cycle according to the set tempo, and a method of changing the value of timing data in the automatic performance data according to the set tempo with a constant processing cycle. The processing cycle is constant, and any method may be used, such as a method of changing the timing data counting method in the automatic performance data in accordance with the tempo.
[0073]
Further, as a method for storing automatic performance data for a plurality of channels (parts), a format in which data of a plurality of channels is mixed and stored, or a format in which data of each channel is stored separately for each track may be used. .
[0074]
Further, on the memory, time-series performance data may be stored in a continuous area, or data stored in a scattered area may be separately managed as continuous data. (That is, it only needs to be managed as time-sequential data, and it does not matter whether the data is continuously stored in the memory).
[0075]
A processing program (including a performance guide program) and various data used for processing may be supplied to an electronic musical instrument or a personal computer from an external storage medium or from an external device via a communication interface.
[0076]
In addition, the MIDI interface is not limited to a dedicated MIDI interface, and a general-purpose interface such as RS-232C, USB (universal serial bus), IEEE 1394 (eye triple E 1394), or the like may be used. In this case, data other than MIDI messages may be transmitted and received simultaneously.
[0077]
【The invention's effect】
  As described above, the performance guide device according to claim 1 of the present invention or the claim3Playing guide method or claim4According to the execution of the performance guide program of the recording medium, the display area necessary for the performance guide may be one line of display elements of a plurality of digits, and the performance guide can be performed with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0079]
  Claims of the invention2According to the performance guide device of the above, in any range of the performance operators, any operator within the range can be sounded with a predetermined musical tone for each range, so a rough performance suitable for beat reproduction It can be performed. In addition, a performance guide can be provided for the rough performance with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0083]
  Claims of the invention5According to the performance guide apparatus of claim 13 or the performance guide method of claim 13, any one of the plurality of performance operators is sounded with a predetermined musical tone for each performance operator, so that it is suitable for reproducing the beat. A rough performance can be performed. In addition, a performance guide can be provided for the rough performance with a small display.In addition, it is possible to perform a performance guide with fine timing with a small display.
[0087]
  Claims of the invention6According to the performance guide method, ContractClaim5The same effect can be obtained.
[Brief description of the drawings]
FIG. 1 is a diagram showing a display and a display example in an embodiment of the present invention.
FIG. 2 is a diagram illustrating a correspondence relationship between an example of a key range as “sound range” set on a keyboard and a plurality of pads according to the embodiment of the present invention.
FIG. 3 is a diagram showing a format of a DJ song in the embodiment of the present invention.
FIG. 4 is a diagram showing reproduction timings of patterns of a model sequence and a practice sequence in the embodiment of the present invention.
FIG. 5 is a block diagram of the electronic musical instrument in the embodiment of the present invention.
FIG. 6 is a flowchart of any key mode processing according to the embodiment of the present invention.
FIG. 7 is a flowchart of processing in a matching progress mode in the embodiment of the present invention.
FIG. 8 is a flowchart of minus one mode processing according to the embodiment of the present invention.
[Explanation of symbols]
1 ... CPU, 2 ... ROM, 3 ... RAM, 61 ... Display

Claims (8)

Each digit of the multi-digit display element is configured to correspond to the timing of performance in the order of digits, and is configured to display information regarding the performance operator to be operated at that timing for each digit, and a plurality of successive timings are displayed. A performance guide apparatus characterized by corresponding to one digit of a display element and changing the display at a plurality of timings with the one digit . A performance guide device that divides a performance operator into a plurality of ranges and is assigned a predetermined musical sound for each musical range and stores performance data instructing pronunciation of a musical sound assigned to each musical range,
Each digit of the multi-digit display element is arranged in correspondence with the timing of performance in the order of digits, and is configured to display for instructing the range to be operated at that timing for each digit corresponding to the performance data. A performance guide apparatus characterized in that a plurality of successive timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit . A plurality of digit display elements are used, each digit of the display element is associated with the timing of performance in the order of digits, and information related to the performance operator to be operated at that timing is displayed for each digit and is continuous. A performance guide method characterized in that a plurality of timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit. The guide data in which each digit of the display element of multiple digits is associated with the timing of performance is read to perform performance guidance, and a plurality of successive timings are associated with one digit of the display element, A computer-readable recording medium recording a performance guide program that changes display at the timing of
Reading the guide data;
Performing a process of displaying, on the digit corresponding to the timing, information on the performance operator to be operated at the timing based on the timing indicated by the read guide data;
A computer-readable recording medium on which a performance guide program executed by a computer is recorded. A performance guide device for storing performance data in which a predetermined musical sound is assigned to each of the plurality of performance operators and instructing the pronunciation of each performance operator,
Each digit of the display element of multiple digits is configured to correspond to the timing of performance in the order of digits, and in response to the performance data, a display for instructing the performance operator to be operated at that timing is performed for each digit. In addition, a performance guide apparatus characterized in that a plurality of successive timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit . A performance guide method applied to a performance guide device, wherein predetermined musical sounds are assigned to each of the plurality of performance operators and which stores performance data instructing pronunciation by each performance operator,
Each digit of the display element of multiple digits is configured to correspond to the timing of performance in the order of digits, and in response to the performance data, a display for instructing the performance operator to be operated at that timing is performed for each digit. The performance guide method is characterized in that a plurality of continuous timings correspond to one digit of the display element, and the display is changed at a plurality of timings with the one digit . 3. When changing the display at a plurality of timings corresponding to the one digit, a symbol indicating that the same operator is operated continuously at the one digit is displayed. Or the performance guide apparatus of 5. 7. When changing the display at a plurality of timings corresponding to the one digit, a symbol indicating that the same operator is operated continuously at the one digit is displayed. The performance guide method described in 1.

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