JP3690688B2 - Magnetic information recording method - Google Patents

Description

上記各情報の入力は、マウス１２０の〔実行〕キー１２０Ａ及び〔取消〕キー１２０Ｂ（図３参照）と、ロールによる矢印位置指定とによって行われる。
【００４１】
即ち、ＣＰＵ１６０は、自動再生機能が選択されている場合には、図７に示すように２０フレーム分のインデックス画像とともに各種の設定メニューを示す文字又はアイコンをモニタ画面の下側に表示させる。このインデックス画面における編集対象のフレームの選定は、マウス１２０を用いて矢印を編集対象のフレームに移動させて〔実行〕キー１２０Ａをクリックすることによって行う。選定されたフレームは、図７の７番目のフレームに示すように他のフレームに比べて濃い黒枠が表示される。
【００４２】
その後、任意の設定メニューを示す示す文字又はアイコンの位置に矢印を移動させ、〔実行〕キー１２０Ａを操作することによって、設定メニューを選択する。
例えば、各フレームの再生順序に関する情報を入力する場合には、マウス１２０によって再生順序設定メニューを選択する。その後、マウス１２０によって再生順序に応じたフレームに矢印を移動させて〔実行〕キー１２０Ａをクリックする。これを繰り返すことにり複数フレームの再生順序を入力することができる。尚、再生順を指定する毎にインデックス画像の各フレームに再生順序を示す番号を表示するようにすれば、重複して指定するおそれがなくなる。また、最初に指定したフレーム及び最後に指定したフレームのフレーム番号情報は、それぞれ前述した再生開始フレーム番号情報及び再生終了フレーム番号情報に対応し、また指定しなかったフレームのフレーム番号情報は、未再生フレーム指定情報に対応する。
【００４３】
同様にして、前述した各種の情報をオンスクリーン対話方式でマウス１２０を使いながら入力することができる。上記情報の入力が終了すると、１フレームをモニタ表示するか否かの選択が行われる（ステップ２０６）。そして、１フレームを表示することが選択されると、そのフレーム画像を見ながら上記と同様な情報を入力することができる。
【００４４】
即ち、先ずフレーム番号を設定し（ステップ２０８）、続いて図５に示すようにフイルム１１４を９．２５ｍｍ／秒で順方向に１フレーム分給送して、設定したフレーム番号のフレームをスキャン（本スキャン）する（ステップ２１０）。この本スキャン時にＣＣＤラインセンサ１４２を介して画像データがＣＣＤバッファＭ１に取り込まれる。
【００４５】
この画像データの取込み時には、ＣＰＵ１６０は、ＲＡＭ１６０Ａに記憶したＡＥデータ、ＡＷＢデータ等に基づいて各フレームの画像データを調整しているため、各フレームの撮影条件にかかわらず、良好な画像データを取り込むことができる。また、このようにしてＣＣＤバッファＭ１に取り込まれる１フレーム分の画素数は、図６（Ｄ）に示すように５１２×８９６画素である。即ち、１０２４画素分のセンサを有するＣＣＤラインセンサ１４２のＣＣＤ出力を、本スキャン時には１／２に間引き、これにより１フレームのフイルム給送方向と直交する方向の画素数を５１２とし、また、フイルム給送速度をインデックス画像の画像データの取込み時に比べて１／８にすることにより、インデックス画像の１フレームのフイルム給送方向と同方向の画素数（１１２画素）の８倍の８９６画素としている。
【００４６】
上記のようにしてＣＣＤバッファＭ１に取り込まれた１フレーム分の画像データは、表示バッファＭ２に転送され、この表示バッファＭ２の記憶内容が繰り返し読み出されことによりモニタＴＶ１０９に１フレームの画像が表示される。尚、このモニタ画面には、図８（Ａ）に示すようにフレーム番号（同図上では７）がモニタ画面左上に表示され、また各種の設定メニューを示す文字又はアイコンをモニタ画面の下側に表示される。
【００４７】
上記メニューの選択は、前述したインデックス画像を用いた情報入力時と同様にマウス１２０を使用して行われる。
いま、「画面切替え」を示す文字又はアイコンに矢印を合わせて〔実行〕キー１２０Ａをクリックすると、画面切替え設定メニューとなり、画面切替え設定メニューの各項目のパラメータが、画面左下に表示される（図８（Ｂ））。尚、以前の設定パラメータは点滅するようになっている。
【００４８】
ここで、マウス１２０を動かし、任意のパラメータに矢印を移動させ、〔実行〕キー１２０Ａをクリックすると、これによって選択されたパラメータに点滅位置が移る。そして、再び〔実行〕キー１２０Ａをクリックすると（２回目のクリックで）、パラメータが設定されるとともにその項目の設定画面が消える。
次に、図示しないキーボードを使用して文字情報を入力する場合について説明する。
【００４９】
この場合には、先ずマウス１２０でモニタ画面上の矢印を動かし、設定画面の「タイトル」の文字又はアイコンを選択し、〔実行〕キー１２０Ａでクリックする。これにより、タイトル設定メニューとなり、図８（Ｃ）に示すようにモニタ画面の下側に横長の白欄（左すみが点滅）と、その右上側に「確定」と「取止め」の文字が表示される。
【００５０】
続いて、フイルムプレーヤ１００に接続されたキーボード（図示せず）を操作すると、左隅から右側に順にタイトルが入力される。点滅位置も順に右に移動する。文字入力の途中で訂正がある場合には、〔取消〕キー１２０Ｂをクリックする。これにより、右側の点滅された部分のタイトルが１文字ずつ消えてキャンセルされる。全ての入力が終了すると、マウス１２０で矢印を「確定」表示部分に移動し、〔実行〕キー１２０Ａをクリックする。これによりタイトル設定が終了するとともに、白欄、「確定」、「取止め」の文字が消える。タイトル入力を止める場合は、マウス１２０で矢印を「取止め」表示部分に移動し、〔実行〕キー１２０Ａをクリックする。これにより、いままで設定したタイトル情報が消え、設定する前のタイトルがその情報として残る。
【００５１】
上記のようにして各種の情報をオンスクリーン対話方式でマウス１２０を使いながら入力することができる。上記情報の入力が終了すると（ステップ２１４）又はステップ２０６でフレーム表示を選択しない場合には、図５に示すようにフイルム１１４を１４８．０ｍｍ／秒の高速で順方向に給送し、この給送中にＣＰＵ１６０のＲＡＭ１６０Ａに記憶された磁気データがフイルム１１４の磁気トラック１１４Ｃに記録される（ステップ２１６）。磁気データの記録が終了すると、フイルム１１４は１４８．０ｍｍ／秒の高速で逆方向に巻き戻され、フイルムカートリッジ１１０の取り出しが行われる（ステップ２１８）。
【００５２】
次に、上記磁気トラック１１４Ｃへの磁気データの記録方法について説明する。
図２に示したように、ユーザーが使用する磁気トラック１１４Ｃのうちのリーダー部のリーダートラックＬ１，Ｌ２の記録フォーマットを図９に示す。
同図において、Syncは同期信号、SSはスタート信号、VIは記録方式のバージョンを示すデータ、ID1,ID2 はデータフィールドの種類及びデータフィールドに含まれる情報の種類を規定するデータ、LNG はデータフィールド全体のデータ長を規定するデータ、LRC はデータフィールド全体のエラーチェック・訂正に使用するデータ、及びESはエンド信号を示すデータが記録される領域である。そして、領域LNG と領域LRC との間に、ユーザー領域が設けられている。
【００５３】
リーダートラックＬ１のユーザー領域には、例えばロールタイトル等が記録される。また、リーダートラックＬ２のユーザー領域は、その先頭に４バイトのメーカー識別コード領域と、２バイトの機能選択テーブルFT1,FT2 が設けられ、その次に他のデータを記録する領域が設けられている。
ここで、上記メーカー識別コード領域には、２バイトのメーカー固有のメーカーコードＭＫが記録されるとともに、次段にそれぞれ１バイトの分類コードＣＬ及びバージョン管理ナンバーＶＥが記録される。分類コードＣＬはメーカー固有の分類（例えば、機器のナンバー）を示すデータであり、バージョン管理ナンバーＶＥはサービス内容を示すデータである。即ち、フイルムプレーヤ１００は、バージンフイルム（リーダートラック等に磁気記録されていないフイルム）がセットされた場合、あるいはユーザーの意思による命令があったときに、メーカー識別コード領域に、予め設定されているメーカーコードＭＫ、分類コードＣＬ及びバージョン管理ナンバーＶＥを自動的に記録する。
【００５４】
従って、フイルムプレーヤや他の機器等によってリーダートラックＬ２のメーカー識別コードを読み取ることにより、どのメーカーの、どのサービスが提供されているかを、機器、ユーザー、ラボで認識することができる。即ち、読み取ったメーカー識別コードによって、機器やラボで対応できるか否かを判断することができ、対応できない場合には、機器においては警告を発し、間違ったサービスや磁気記録ができないようにすることができ、ラボにおいては対応できるラボに回したり、ユーザーにその旨を伝えて返却し、誤ったプリントサービスが発生しないようにすることができる。
【００５５】
また、メーカー識別コード領域の次の２バイトの機能選択テーブルFT1,FT2 には、ユーザーによって選択した所望のサービス（自動再生、ホームプリント、ラボへの注文等のいずれかのサービス）を示す機能選択コードが記録される。そして、各フレームトラックには、機能選択テーブルFT1,FT2 に記録されるサービスに対応したデータのみが記録される。これにより、フレームトラックの限られた磁気記録容量にもかかわらず、個別のサービスを十分に受けられる。
【００５６】
更に、機能選択は、大分類と、大分類を細分化する小分類とに区分され区分され、前記機能選択テーブルFT1,FT2 にはそれぞれ大分類と小分類を示す機能選択コードが記録される。例えば、大分類でＴＶスライドショーを選択した場合には、小分類で全自動再生（フイルム挿入時に機器が自動的に機器の設定にしたがった再生）、自動再生（ユーザーの設定にしたがった再生）の二者択一をさせ、これによりフレームトラックでの記録内容を変えることにより、十分なサービスが受けられるようにする。
【００５７】
尚、自動再生時に設定する項目としては、前述した項目が考えられるが、小分類で全自動再生と自動再生とを選択した場合には、例えば、以下のように各トラックに記録される情報が区分される。

上記実施例では、自動再生機能を選択した場合について説明したが、ラボへの注文機能を選択した場合に入力するラボへの注文情報としては、以下の情報がある。

そして、これらの情報は、前述した自動再生時と同様にして入力することができる。尚、機能選択時に異なる機能を選択し、新たな磁気情報として保存する場合には、前の磁気情報は失われる。
【００５８】
例えば、自動再生機能を選択して自動再生情報が設定保存されているときに、同じフイルムを使用してラボへの注文情報を記録する場合には、注文情報が先の自動再生情報に上書きされるため、自動再生情報は磁気情報としては失われる。そこで、この場合には、機器側にフラッシュメモリ等の外部記憶手段を用意することにより、これに前記自動再生情報を保存しておくことができる。そして、注文終了後に戻ってきたフイルムで再度前記自動再生を行うことは、前記外部記憶手段から読み出すことによって可能であり、ユーザーの意図により再度磁気情報として書き込むことも可能である。
【００５９】
次に、メーカー、機器によるサービス及びそのバージョンアップの設定方法について説明する。
機器発売時にはサービスできないものでも、近未来的に可能なサービスは機器内のプログラムに入れておく。尚、機器のプログラムを新たなサービスに対応したプログラムに書き換えるようにしてもよい。これを運用する方法として、機器の切換スイッチを設け、メーカーあるいはラボの指示により、切換スイッチを所定側に入れることで、新サービスプログラムを運用するとともに、機器は切換スイッチが所定位置にあることを判別し、前述したバージョン管理ナンバーＶＥを所定のナンバーに書き換える。尚、新サービスが可能となった時期からユーザーに返却するフイルムのバージョン領域を所定のナンバーに書き換え、これによりユーザーがそのフイルムを機器に装填した時点から自動的に新サービスの運用が開始されるようにしてもよい。
【００６０】
更に、上記機能選択コードによって選択される機能として、以下の機能を用意することができる。
この機能は、フレームトラックの磁気情報はフレーム単位の情報ではなく、ロール全体の情報であることを指定する機能である。これにより、複数のフレームトラックにわたって所望の情報、例えばロールに共通する文字情報や、ユーザーの住所氏名電話番号等を記録することができる。これらの情報をラボに伝えることにより、情報量の大きなポストカードの文字情報も入力することができる。
【００６１】
また、別の機能として、ユーザーが消去したフレーム（機器でＴＶ再生しないフレーム、プリント注文しないフレーム）あるいは未撮影フレームに対応したフレームトラックを、別情報記録用に開放させる機能を設けることもできる。そして、開放されたトラックが、リーダートラックか任意のフレームトラックか、またどの情報か等の付属情報を、例えば機能選択テーブルFT1,FT2 以降に記録しておく。これにより、ロール／フレームの任意の情報の延長あるいは拡張情報を記録することができる。
【００６２】
【発明の効果】
以上説明したように本発明に係る磁気情報の記録方法によれば、磁気トラックをフイルム先端のリーダー部におけるリーダートラックと前記リーダー部の後方の各フレームに対応するフレームトラックとに区分し、リーダートラックにメーカー固有のメーカーコードや特定の機能を示す機能選択コードを記録し、各フレームトラックには、前記メーカー識別コードや機能選択コードによって規定される磁気情報を記録するようにしたため、機器やラボでは、リーダートラックにおけるメーカー識別コードや機能選択コードを読み取ることによって、どのメーカーの、どのサービスが提供されているかを認識した上で、各フレームトラックに記録された磁気情報に対して対応することができ、対応できない場合には、機器では予め警告等を発したり、ラボでは対応できる他のラボに回したり、ユーザーにその旨を伝えて返却することができる。また、各フレームトラックを機能別に利用することができ、これにより磁気トラックの磁気記録容量内でも十分なサービスを受けることができる利点がある。
【図面の簡単な説明】
【図１】図１は本発明に係る磁気情報の記録方法が適用されるフイルムプレーヤの外観図である。
【図２】図２は図１に示したフイルムプレーヤに適用されるフイルムカートリッジの一例を示す図である。
【図３】図３は図１に示したフイルムプレーヤの内部構成の一実施例を示すブロック図である。
【図４】図４は図１に示したフイルムプレーヤの作用を説明するために用いたフローチャートである。
【図５】図５は図１に示したフイルムプレーヤにおいて搬送されるフイルムの搬送シーケンスの一例を示す図である。
【図６】図６（Ａ）乃至（Ｄ）は図１に示したフイルムプレーヤにおけるＣＣＤバッファ、表示バッファにおける記憶領域及びモニタＴＶの表示画面を示す図である。
【図７】図７はインデックス画像を使用して自動再生情報を入力する場合のモニタ画面の一例を示す図である。
【図８】図８（Ａ）乃至（Ｃ）はそれぞれ１フレーム画像を使用して自動再生情報を入力する場合のモニタ画面の一例を示す図である。
【図９】図９（Ａ）及び（Ｂ）はそれぞれ本発明に係る磁気情報の記録方法による磁気トラックの記録フォーマットを示す図である。
【符号の説明】
１００…フイルムプレーヤ
１０９…モニタＴＶ
１１０…フイルムカートリッジ
１１４…写真フイルム
１１４Ｂ、１１４Ｃ…磁気トラック
１２０…マウス
１３０…光源
１３５…撮影レンズ
１４２…ＣＣＤラインセンサ
１５１…第１信号処理回路
１５２…第２信号処理回路
１５３…第３信号処理回路
１５４…メモリ制御回路
１６０…中央処理装置（ＣＰＵ）
１７０…フイルム駆動メカ
１８０…光学データ読取装置
１８２…磁気記録再生装置
Ｍ１…ＣＣＤバッファ
Ｍ２…表示バッファ
Ｌ１、Ｌ２…リーダートラック[0001]
[Industrial application fields]
The present invention relates to a magnetic information recording method, and more particularly to a magnetic information recording method for recording magnetic information on a magnetic track on a roll of photographic film.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a camera is known in which a transparent magnetic material is applied to a photographic film to form a magnetic recording layer, and shooting data is recorded on a predetermined magnetic track of the magnetic recording layer when shooting with a camera (US Pat. No. 4,787,075). . According to this type of camera, shooting date / time, shooting format, vertical / horizontal / up / down / left / right, strobe ON / OFF, etc. can be recorded on the magnetic track.
[0003]
Also, as a film return form from a laboratory (development laboratory), it has been proposed to store a developed film for one roll in a film cartridge and return it, as described in JP-A-5-75922. The player uses this film cartridge. The film player captures a developed still photographic film with an image sensor, converts an image of the photographic film into an image signal, and outputs the image signal to a monitor TV to display the film image.
[0004]
Using the above-mentioned film player, etc., it is possible to record information on the order of reprinting to the laboratory on the magnetic track corresponding to each frame of the film, and automatically perform various information and frame images necessary for reproducing a desired film image. Information necessary for printing can be recorded.
[0005]
[Problems to be solved by the invention]
By the way, the magnetic track corresponding to each frame of the photographic film has a limited track length, so that only a very small amount of information can be recorded as information related to the frame. There is a problem of not being able to receive enough.
[0006]
The magnetic information recorded and reproduced by equipment such as a film player using the above photographic film differs depending on the manufacturer and equipment, and the lab service for reading the print order information from the magnetic track of the photographic film and printing it is also provided by the lab. In this case, depending on the magnetic information of the magnetic track, there is a possibility that it cannot be handled by the equipment or lab, or wrong services may be provided.
[0007]
The present invention has been made in view of such circumstances, and can prevent erroneous services in equipment such as film players and laboratories, and sufficient service despite being within the magnetic recording capacity of the magnetic track. It is an object of the present invention to provide a method for recording magnetic information that can be received.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a magnetic information recording method for recording magnetic information on a magnetic track on a roll of photographic film. It is divided into frame tracks corresponding to each rear frame, and the leader track Of a device that records and reproduces magnetic information on the magnetic track. Records the manufacturer identification code including the manufacturer-specific manufacturer code and is defined by the manufacturer identification code. Magnetic Qi information is recorded on each frame track.
[0009]
Further, instead of the manufacturer identification code or together with the manufacturer identification code, a function selection code indicating a specific function among magnetic information corresponding to a plurality of functions recorded on the frame track is recorded on the leader track, and the function Only magnetic information corresponding to the function selected by the selection code is recorded on each frame track.
[0010]
Further, when the function selected by the function selection code is changed from the first function to the second function, magnetic information of the leader track and each frame track is recorded in an external recording means, and the first When returning from the second function to the first function, information is read from the external recording means and magnetic information is recorded on the leader track and each frame track.
[0011]
[Action]
According to the present invention, the magnetic track is divided into a leader track at the leader portion of the film tip and a frame track corresponding to each frame behind the leader portion, and a manufacturer identification code including a manufacturer-specific manufacturer code in the leader track. Is recorded. Also, magnetic information defined by the manufacturer identification code is recorded on each frame track. As a result, devices and laboratories recognize the manufacturer and service provided by reading the manufacturer identification code on the leader track, and then respond to the magnetic information recorded on each frame track. If it is not possible to respond, the device can issue a warning or the like in advance, send it to another lab that can be handled by the lab, or inform the user and return it.
[0012]
In addition, a function selection code indicating a specific function is recorded on the leader track, and only the magnetic information corresponding to the function selected by the function selection code is recorded on each frame track. Therefore, each frame track is used for each function. As a result, sufficient service can be received even within the magnetic recording capacity of the magnetic track.
[0013]
Further, when changing the function selected by the function selection code, the magnetic information related to the function before the change is erased and the magnetic information related to the function after the change is recorded, but the magnetic information before the change is recorded in the external recording means. Since the information remains, when returning to the magnetic information before the change again, the magnetic information recorded on the external recording means may be recorded on the leader track and each frame track.
[0014]
【Example】
Hereinafter, preferred embodiments of a magnetic information recording method according to the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is an external view of a film player to which a magnetic information recording method according to the present invention is applied. As shown in the figure, the film player 100 is formed in a rectangular parallelepiped shape, and a film cartridge tray 102 and a power switch 104 are provided on the front surface thereof. The film cartridge tray 102 is driven back and forth in the front-rear direction when the film cartridge 110 is loaded / unloaded, whereby the film cartridge 110 is stored or taken out.
[0015]
A mouse 120 and a monitor TV 109 are connected to the film player 100, and various operation signals for controlling the film player 100 are output from the mouse 120 via the signal cable 106 to the film player 100. The video signal is output to the monitor TV 109 via the signal cable 108. Details of the control of the film player 100 by the mouse 120 will be described later.
[0016]
As shown in FIG. 2, the film cartridge 110 has a single spool 112 around which a photographic film 114 is wound. The photographic film 114 is perforated 114A indicating the position of each frame. Further, the photographic film 114 is provided with a transparent magnetic recording layer, and magnetic tracks 114B and 114C are formed on the edge thereof. The magnetic track 114B is a track used in a laboratory or a DPE agency, and the magnetic track 114C is a track used by a user.
[0017]
Here, in one roll of film, the leading end side of the film from the perforation 114A indicating the position of the first frame is referred to as a leader portion, and the magnetic track of the leader portion of the magnetic track 114C is referred to as leader tracks L1 and L2. The rear end side of the perforation 114A indicating the position of the first frame is referred to as a frame portion, and the magnetic track of the frame portion is referred to as a frame track. Then, the magnetic information of one roll is recorded on the leader track, and the magnetic information for each frame is recorded on the frame track.
[0018]
Note that magnetic information is recorded on these tracks by a camera having a magnetic head, a film player 100, or the like. Examples of magnetic information recorded by the camera include shooting conditions, pseudo-zoom information, frame numbers, high-definition images, panoramic images, print formats indicating normal images, shooting dates / times, etc. Various types of information can be recorded by the camera. In addition to the frame area exposed by the subject light, the photographic film 114 is optically recorded with a barcode indicating the film type, frame number, etc., and data indicating the print format, etc., by a light source built in the camera at the time of shooting. Can do. Further, the developed photographic film 114 is wound around a film cartridge 110 so that it can be stored.
[0019]
FIG. 3 is a block diagram showing an embodiment of the internal configuration of the film player 100. As shown in FIG. The film player 100 includes a light source 130 for illumination, a photographing lens 136, a CCD circuit unit 140 including a CCD line sensor 142, a first signal processing circuit 151, a second signal processing circuit 152, a third signal processing circuit 153, a memory. A control circuit 154, a CCD buffer M1, a display buffer M2, a central processing unit (CPU) 160, a film driving mechanism 170, an optical data reading device 180, a magnetic recording / reproducing device 182 and the like are provided.
[0020]
For example, the light source 130 is a fluorescent lamp that is long in a direction orthogonal to the feeding direction of the film 114, and illuminates the film 114 via the infrared cut filter 132. The image light transmitted through the film 114 is imaged on the light receiving surface of the CCD line sensor 142 via the single-focus photographing lens 136. During film image capture by the CCD line sensor 142, the film 114 is moved in the direction of arrow A (hereinafter referred to as the forward direction) or the direction of arrow B (hereinafter referred to as the reverse direction) by the film drive mechanism 170 at a constant speed. However, details of this film drive will be described later.
[0021]
The CCD line sensor 142 is disposed in a direction orthogonal to the film feeding direction. Then, the image light imaged on the light receiving surface of the CCD line sensor 142 is accumulated for a predetermined time by each sensor having R, G, B filters, and an amount of R, G, B depending on the intensity of the light. Converted to signal charge. The signal charges accumulated in this way are read out to the shift register by a read gate pulse of a predetermined period applied from the CCD drive circuit 144 and sequentially read out by a register transfer pulse.
[0022]
The CCD line sensor 142 has sensors for 1024 pixels in a direction orthogonal to the film feeding direction. The number of pixels in the same direction as the film feeding direction of one frame changes according to the film feeding speed when the period of the read gate pulse of the CCD driving circuit 144 is not changed. The number of pixels at each speed of 1/2 times, 1 time, 8 times, and 16 times the feeding speed when capturing a film image is 1792 pixels, 896 pixels, 112 pixels, and 56 pixels.
[0023]
The signal charge read from the CCD line sensor 142 in this way is clamped by the CDS clamp and applied to the analog processing circuit 146 as an R, G, B signal, where the gain of the R, G, B signal, etc. Be controlled. The R, G, and B signals output from the analog processing circuit 146 are dot-sequentially converted by the multiplexer 148, converted into a digital signal by the A / D converter 150, and then applied to the first signal processing circuit 151 and the CPU 160.
[0024]
The first signal processing circuit 151 includes a white balance adjustment circuit, a negative / positive conversion circuit, a γ correction circuit, an RGB synchronization circuit, and the like. The synchronized R, G, B signals are output to the second signal processing circuit 152. The white balance adjustment circuit in the first signal processing circuit 151 is performed based on a control signal applied from the CPU 160, and details thereof will be described later.
[0025]
The second signal processing circuit 152 has a matrix circuit, and a luminance signal Y and a chroma signal C based on input R, G, and B signals. _{r / b} Are output to the memory control circuit 154.
The memory control circuit 154 includes the luminance signal Y and chroma signal C. _{r / b} Of reading / writing to / from the CCD buffer M1 and the luminance signal Y and chroma signal C stored in the CCD buffer M1. _{r / b} Are controlled to be written to and read from the display buffer M2. Details of the writing / reading control to the CCD buffer M1 and the display buffer M2 will be described later.
[0026]
Luminance signal Y and chroma signal C read from display buffer M2 by memory control circuit 154 _{r / b} Is added to the third signal processing circuit 153. The third signal processing circuit 153 receives the input luminance signal Y and chroma signal C. _{r / b} For example, a color composite video signal of the NTSC system is generated and output to the video output terminal 158 via the D / A converter 156. The memory control circuit 154, the third signal processing circuit 156, and the D / A converter 156 are respectively supplied with a synchronization signal having a predetermined period from the synchronization signal generation circuit 159, thereby synchronizing each circuit and providing the required signal. The video signal including the synchronizing signal is obtained. Timing signals are added to the CCD circuit unit 140, the A / D converter 150, the first signal processing circuit 151, the second signal processing circuit 152, and the memory control circuit 154 from a timing signal generation circuit 162 controlled by the CPU 160, respectively. As a result, the circuits are synchronized.
[0027]
The film drive mechanism 170 engages with the spool 112 of the film cartridge 110 and drives the film 112 forward / reversely, and a film take-up unit that winds the film 114 delivered from the film supply unit. And a means for feeding the film 114 at a constant speed by sandwiching the film 114 between a capstan and a pinch roller. The film supply unit drives the spool 112 of the film cartridge 110 in the clockwise direction in FIG. 3 so that the film 114 is fed out from the film cartridge 110 until the leading end of the film is taken up by the film take-up unit. .
[0028]
The optical data reader 180 includes a first optical sensor 180A that optically detects the perforation 114A of the film 114, and a second light that optically detects optical data such as a bar code written on the edge of the film. The optical data detected through these optical sensors 180A and 180B is processed and output to the CPU 160.
[0029]
The magnetic recording / reproducing device 182 includes a magnetic head 182A, reads the magnetic data recorded on the magnetic track 114C of the film 114 via the magnetic head 182A, processes the magnetic data, outputs it to the CPU 160, and records it in the RAM 160A. Further, data recorded in the RAM 160A of the CPU 160 is read out, converted into a signal suitable for magnetic recording, output to the magnetic head 182A, and recorded on the magnetic track 114C of the film 114.
[0030]
Next, the operation of the film player 100 configured as described above will be described with reference to the flowchart shown in FIG.
The film player 100 has an automatic playback function for causing the monitor TV 109 to play back a film image, an ordering function for a laboratory, an automatic print function for printing a film image by connecting to a video printer (not shown), and the like. These functions can be selected as appropriate.
[0031]
First, when the film cartridge 110 is set on the film cartridge tray 102, the CPU 160 controls the film driving mechanism 170 to execute film loading (step 200). That is, the film 114 is sent out from the film cartridge 110, and the leading end of the film is wound around the winding shaft of the film winding unit.
[0032]
When the film loading is completed, the first prescan of the film 114 is executed. That is, as shown in FIG. 5, the film 114 is fed in the forward direction at a high speed of 148.0 mm / sec, and then rewound in the reverse direction at a high speed of 148.0 mm / sec. At the time of the first prescan in the forward direction, image data is taken in via the CCD line sensor 142, and optical data and magnetic data are read via the optical data reading device 180 and the magnetic recording / reproducing device 182.
[0033]
Next, processing based on image data captured at the time of the first pre-scan will be described.
The CPU 160 inputs dot sequential R, G, B signals from the A / D converter 150 shown in FIG. The CPU 160 captures the R, G, B signals of all the frames, calculates the offset amount for each color signal, and the gain adjustment amount for each color signal for adjusting the white balance, and offsets for these color signals. The offset data indicating the amount and the AWB data indicating the gain adjustment amount are stored in a random access memory (RAM) 160A built in the CPU for each frame. Further, AE data indicating the brightness of each frame is stored in the RAM 160A from the R, G, B signals of each frame. The CPU 160 can detect each frame of the film 114 based on the optical data and / or magnetic data applied via the optical data reading device 180 and the magnetic recording / reproducing device 182, and counts each frame. Thus, the frame number can also be detected.
[0034]
Subsequently, a second prescan of the film 114 is executed. That is, as shown in FIG. 5, the film 114 is fed again in the forward direction at a high speed of 74.0 mm / sec, and then rewound in the reverse direction at a high speed of 148.0 mm / sec. At the time of the second pre-scan in the forward direction, image data is again taken in via the CCD line sensor 142. When capturing the image data, the CPU 160 controls the aperture 134 for each frame via the aperture controller 164 based on the AE data stored in the RAM 160A.
[0035]
Further, the CPU 160 causes the first signal processing circuit 151 to adjust the offset amount of the R, G, and B signals and the white balance for each frame. That is, the CPU 160 outputs offset data for each color signal of each frame stored in the RAM 160A to the first signal processing circuit 151, and the first signal processing circuit 151 performs dot sequential R, G, B based on the offset data. Adjust the offset amount of the signal. Similarly, the CPU 160 outputs AWB data for each color signal of each frame stored in the RAM 160A to the first signal processing circuit 151, and the first signal processing circuit 151 performs dot sequential R, G, and R based on the AWB data. Adjust the gain of B signal.
[0036]
Since the image data of each frame is adjusted based on the AE data, AWB data, etc., good image data can be captured regardless of the shooting conditions of each frame.
The image data of each frame adjusted in this way, that is, the luminance signal Y and the chroma signal C output from the second signal processing circuit 152. _{r / b} Are sequentially stored in the CCD buffer M1 via the memory control circuit 154. As described above, since the film 114 is fed at a speed that is eight times the feeding speed when a standard film image is taken in, as shown in FIG. 6A, the same direction as the film feeding direction of one frame is used. The number of pixels in the direction is 112 pixels. The CCD line sensor 142 has sensors for 1024 pixels in the direction orthogonal to the film feeding direction as described above, but is orthogonal to the film feeding direction of one frame by thinning out to 1/16. The number of pixels in the direction is 64 pixels. As shown in FIG. 6A, the CCD buffer M1 has a storage capacity for storing 512 × 1024 pixel data, whereby image data for 5 × 4 × 2 (= 40) frames is stored. Can be remembered. That is, image data indicating index images for 40 frames (hereinafter referred to as index image data) is stored in the CCD buffer M1.
[0037]
The display buffer M2 has a storage capacity for storing 512 × 1024 pixel data as shown in FIG. 6B. However, when storing the index image data, one frame of pixels is 73 ×. The image data for 4 × 5 (= 20) frames is stored in 128 pixels. When the index image is displayed on the monitor TV 109, an area of 480 × 640 pixels in the upper left of the display buffer M2 is read (see FIGS. 6B and 6C).
[0038]
Since only 20 frames of image data can be stored in the display buffer M2 at a time, the index image for 40 frames is displayed by scrolling or switching the index image.
By the way, the CPU 160 sets the frame number to 1, 2,... For each frame in the reading order of the image data of each frame at the time of scanning, and outputs a character signal indicating the frame number of each frame. The superimposed index image is displayed (step 202).
[0039]
When the index image is created as described above and the index image is displayed on the monitor TV 109, it is necessary to reproduce the desired film image on the monitor TV 109 using the mouse 120 while watching the index image. Various kinds of information (hereinafter referred to as “automatic reproduction information”), information necessary for home printing a frame image (hereinafter referred to as “home print information”), or order information to the laboratory is input (step 204).
[0040]
By the way, an automatic reproduction information function, a home print function, a laboratory order function, etc. are selected by a function selection means (not shown). The following information is included as the automatic reproduction information to be input when the automatic reproduction function is selected. is there.

The above-described information is input by [execute] key 120A and [cancel] key 120B (see FIG. 3) of mouse 120 and the arrow position designation by the roll.
[0041]
That is, when the automatic reproduction function is selected, the CPU 160 displays characters or icons indicating various setting menus along with an index image for 20 frames on the lower side of the monitor screen as shown in FIG. Selection of the frame to be edited on the index screen is performed by moving the arrow to the frame to be edited using the mouse 120 and clicking the [Execute] key 120A. The selected frame is displayed with a darker black frame than other frames as shown in the seventh frame in FIG.
[0042]
Thereafter, the arrow is moved to the position of a character or icon indicating an arbitrary setting menu, and the [execution] key 120A is operated to select the setting menu.
For example, when inputting information regarding the playback order of each frame, the playback order setting menu is selected with the mouse 120. Thereafter, the arrow is moved to the frame corresponding to the reproduction order by the mouse 120, and the [Execute] key 120A is clicked. By repeating this, it is possible to input the reproduction order of a plurality of frames. If a number indicating the reproduction order is displayed in each frame of the index image every time the reproduction order is designated, there is no possibility that the designation is repeated. The frame number information of the first designated frame and the last designated frame corresponds to the above-described reproduction start frame number information and reproduction end frame number information, respectively. Corresponds to playback frame designation information.
[0043]
Similarly, various information described above can be input using the mouse 120 in an on-screen interactive manner. When the input of the information is completed, it is selected whether or not one frame is displayed on the monitor (step 206). When one frame is selected to be displayed, information similar to the above can be input while viewing the frame image.
[0044]
That is, first, a frame number is set (step 208), then, as shown in FIG. 5, the film 114 is fed forward by one frame at 9.25 mm / sec, and a frame with the set frame number is scanned ( Main scan) (step 210). During this main scan, image data is taken into the CCD buffer M1 via the CCD line sensor 142.
[0045]
At the time of taking in the image data, the CPU 160 adjusts the image data of each frame based on the AE data, AWB data, etc. stored in the RAM 160A. Therefore, good image data is taken in regardless of the shooting conditions of each frame. be able to. Further, the number of pixels for one frame taken into the CCD buffer M1 in this way is 512 × 896 pixels as shown in FIG. 6D. That is, the CCD output of the CCD line sensor 142 having a sensor for 1024 pixels is decimated to 1/2 during the main scan, so that the number of pixels in the direction orthogonal to the film feeding direction of one frame is set to 512, and the film By setting the feeding speed to 1/8 of the index image image data taking time, the number of pixels in the same direction as the film feeding direction of one frame of the index image (112 pixels) is set to 896 pixels. .
[0046]
The image data for one frame taken into the CCD buffer M1 as described above is transferred to the display buffer M2, and one frame image is displayed on the monitor TV 109 by repeatedly reading the stored contents of the display buffer M2. Is done. In this monitor screen, a frame number (7 in the figure) is displayed on the upper left of the monitor screen as shown in FIG. 8A, and characters or icons indicating various setting menus are displayed on the lower side of the monitor screen. Is displayed.
[0047]
The selection of the menu is performed using the mouse 120 in the same manner as the information input using the index image described above.
Now, when the arrow is placed on the character or icon indicating “screen switching” and the [Execute] key 120A is clicked, the screen switching setting menu is displayed, and the parameters of each item of the screen switching setting menu are displayed at the lower left of the screen (FIG. 8 (B)). Note that the previous setting parameter blinks.
[0048]
Here, when the mouse 120 is moved, the arrow is moved to an arbitrary parameter, and the [Execute] key 120A is clicked, the blinking position moves to the selected parameter. When the [Execute] key 120A is clicked again (by the second click), the parameter is set and the item setting screen disappears.
Next, a case where character information is input using a keyboard (not shown) will be described.
[0049]
In this case, first, the arrow on the monitor screen is moved with the mouse 120, the “title” character or icon on the setting screen is selected, and the [execute] key 120A is clicked. As a result, the title setting menu is displayed. As shown in FIG. 8C, a horizontally long white column (the left corner blinks) is displayed on the lower side of the monitor screen, and the characters “OK” and “Cancel” are displayed on the upper right side thereof. Is done.
[0050]
Subsequently, when a keyboard (not shown) connected to the film player 100 is operated, titles are sequentially input from the left corner to the right side. The blinking position also moves to the right in order. If there is a correction in the middle of character input, the [Cancel] key 120B is clicked. Thereby, the title of the flashing part on the right side disappears one character at a time and is canceled. When all inputs are completed, the arrow is moved to the “determined” display portion with the mouse 120, and the [execute] key 120A is clicked. As a result, the title setting is completed and the white columns, “confirm”, and “cancel” characters disappear. When stopping the title input, the arrow is moved to the “stop” display portion with the mouse 120, and the [execute] key 120A is clicked. As a result, the title information set so far disappears, and the title before setting remains as the information.
[0051]
As described above, various types of information can be input using the mouse 120 in an on-screen interactive manner. When the input of the above information is completed (step 214) or when frame display is not selected in step 206, the film 114 is fed forward at a high speed of 148.0 mm / sec as shown in FIG. During transmission, the magnetic data stored in the RAM 160A of the CPU 160 is recorded on the magnetic track 114C of the film 114 (step 216). When the recording of the magnetic data is completed, the film 114 is rewound in the reverse direction at a high speed of 148.0 mm / sec, and the film cartridge 110 is taken out (step 218).
[0052]
Next, a method for recording magnetic data on the magnetic track 114C will be described.
As shown in FIG. 2, the recording format of the leader tracks L1 and L2 of the leader portion of the magnetic track 114C used by the user is shown in FIG.
In this figure, Sync is a sync signal, SS is a start signal, VI is data indicating the recording system version, ID1 and ID2 are data specifying the type of data field and the type of information contained in the data field, and LNG is a data field Data that defines the overall data length, LRC is data used for error checking / correction of the entire data field, and ES is an area in which data indicating an end signal is recorded. A user area is provided between the area LNG and the area LRC.
[0053]
For example, a roll title or the like is recorded in the user area of the leader track L1. The user area of the leader track L2 is provided with a 4-byte manufacturer identification code area and 2-byte function selection tables FT1 and FT2 at the head, followed by an area for recording other data. .
Here, in the manufacturer identification code area, a 2-byte manufacturer-specific manufacturer code MK is recorded, and a 1-byte classification code CL and a version management number VE are recorded in the next stage. The classification code CL is data indicating a manufacturer-specific classification (for example, device number), and the version management number VE is data indicating service contents. That is, the film player 100 is preset in the manufacturer identification code area when a virgin film (film not magnetically recorded on a leader track or the like) is set, or when a command is given by the user's intention. The manufacturer code MK, classification code CL, and version management number VE are automatically recorded.
[0054]
Therefore, by reading the manufacturer identification code of the leader track L2 with a film player or other devices, it is possible to recognize which manufacturer and which service is provided by the device, the user, and the laboratory. In other words, it is possible to determine whether or not the device or lab can respond based on the read manufacturer identification code. If the device cannot be supported, a warning is issued on the device to prevent incorrect service or magnetic recording. In the lab, it can be sent to a lab that can handle it, or it can be returned to the user by telling it so that an erroneous print service can be prevented.
[0055]
In the function selection table FT1 and FT2 of the next 2 bytes in the manufacturer identification code area, the function selection indicating the desired service selected by the user (automatic reproduction, home print, order to the laboratory, etc.) is selected. The code is recorded. In each frame track, only data corresponding to the service recorded in the function selection tables FT1 and FT2 is recorded. As a result, individual services can be sufficiently received despite the limited magnetic recording capacity of the frame track.
[0056]
Furthermore, the function selection is divided into a major classification and a minor classification that subdivides the major classification, and function selection codes indicating the major classification and the minor classification are recorded in the function selection tables FT1 and FT2, respectively. For example, when a TV slide show is selected in the large category, fully automatic playback (playback according to the device settings automatically when the film is inserted) or automatic playback (playback according to the user settings) in the small category By making an alternative, and by changing the recording contents in the frame track, sufficient service can be received.
[0057]
The items described above can be considered as the items to be set at the time of automatic reproduction. However, when full automatic reproduction and automatic reproduction are selected in the small classification, for example, information recorded in each track is as follows. It is divided.

In the above-described embodiment, the case where the automatic reproduction function is selected has been described. However, the order information to the laboratory input when the order function to the laboratory is selected includes the following information.

These pieces of information can be input in the same manner as in the automatic reproduction described above. When a different function is selected at the time of selecting a function and saved as new magnetic information, the previous magnetic information is lost.
[0058]
For example, when the auto play function is selected and auto play information is set and saved, if order information is recorded to the lab using the same film, the order information is overwritten with the previous auto play information. Therefore, the automatic reproduction information is lost as magnetic information. Therefore, in this case, by providing external storage means such as a flash memory on the device side, the automatic reproduction information can be stored therein. Then, the automatic reproduction can be performed again on the film returned after the order is completed by reading from the external storage means, and can be written again as magnetic information according to the user's intention.
[0059]
Next, a service by the manufacturer and the device and a setting method for upgrading the version will be described.
Services that can not be serviced at the time of device launch, but are possible in the near future, should be included in the program in the device. The device program may be rewritten to a program corresponding to a new service. As a method of operating this, a new service program is operated by providing a changeover switch for the device and putting the changeover switch on the predetermined side according to the instructions of the manufacturer or laboratory, and the device confirms that the changeover switch is in the predetermined position. The version management number VE described above is rewritten to a predetermined number. In addition, the version area of the film to be returned to the user from the time when the new service becomes available is rewritten with a predetermined number, and the operation of the new service automatically starts when the user loads the film into the device. You may do it.
[0060]
Furthermore, the following functions can be prepared as functions selected by the function selection code.
This function is a function for designating that the magnetic information of the frame track is not information on a frame basis but information on the entire roll. Thereby, desired information, for example, character information common to a roll, a user's address name, telephone number, and the like can be recorded over a plurality of frame tracks. By communicating this information to the lab, it is possible to input postcard text information with a large amount of information.
[0061]
As another function, it is possible to provide a function of releasing a frame track corresponding to a frame erased by the user (a frame not played back on the device by TV or a frame not ordered for printing) or an uncaptured frame for recording other information. Then, additional information such as whether the released track is a leader track or an arbitrary frame track and what information is recorded in, for example, the function selection tables FT1 and FT2. As a result, it is possible to record the extension or extension information of any information of the roll / frame.
[0062]
【The invention's effect】
As described above, according to the magnetic information recording method of the present invention, the magnetic track is divided into the leader track in the leader portion at the leading end of the film and the frame track corresponding to each frame behind the leader portion. The manufacturer's unique manufacturer code and the function selection code indicating a specific function are recorded, and the magnetic information defined by the manufacturer identification code and the function selection code is recorded on each frame track. By reading the manufacturer identification code and function selection code in the leader track, it is possible to respond to the magnetic information recorded on each frame track after recognizing which manufacturer and which service is provided. If it is not possible to respond, the device issues a warning in advance. Ri, or turn to other labs that can be supported in a lab, it is possible to return to tell that to the user. In addition, each frame track can be used for each function, and there is an advantage that a sufficient service can be received even within the magnetic recording capacity of the magnetic track.
[Brief description of the drawings]
FIG. 1 is an external view of a film player to which a magnetic information recording method according to the present invention is applied.
FIG. 2 is a view showing an example of a film cartridge applied to the film player shown in FIG.
FIG. 3 is a block diagram showing an embodiment of the internal configuration of the film player shown in FIG. 1;
FIG. 4 is a flowchart used to explain the operation of the film player shown in FIG. 1;
FIG. 5 is a diagram showing an example of a film transport sequence transported by the film player shown in FIG. 1;
6A to 6D are diagrams showing a CCD buffer, a storage area in the display buffer, and a display screen of the monitor TV in the film player shown in FIG. 1. FIG.
FIG. 7 is a diagram illustrating an example of a monitor screen when automatic reproduction information is input using an index image.
FIGS. 8A to 8C are diagrams illustrating an example of a monitor screen when automatic reproduction information is input using one frame image, respectively.
FIGS. 9A and 9B are diagrams showing a recording format of a magnetic track by a magnetic information recording method according to the present invention, respectively.
[Explanation of symbols]
100 ... Film player
109 ... Monitor TV
110 ... Film cartridge
114 ... Photo film
114B, 114C ... Magnetic track
120 ... Mouse
130: Light source
135 ... Photography lens
142 ... CCD line sensor
151. First signal processing circuit
152 ... Second signal processing circuit
153. Third signal processing circuit
154 ... Memory control circuit
160 ... Central processing unit (CPU)
170: Film drive mechanism
180 ... Optical data reader
182 ... Magnetic recording / reproducing apparatus
M1 ... CCD buffer
M2 ... Display buffer
L1, L2 ... Leader track

Claims (8)

In a magnetic information recording method for recording magnetic information on a magnetic track on a roll of photographic film,
The magnetic track is divided into a leader track in the leader part at the leading end of the film and a frame track corresponding to each frame behind the leader part,
Recording a manufacturer identification code including a manufacturer code unique to a manufacturer of a device that performs recording and reproduction of magnetic information on the magnetic track on the leader track,
Recording method for a magnetic information, characterized by recording a magnetic information that will be defined by the manufacturer identification code to each frame track.   2. The magnetic information recording method according to claim 1, wherein the manufacturer identification code includes a classification code indicating a manufacturer-specific device number and a version management number indicating service contents. A function selection code indicating a specific function among magnetic information corresponding to a plurality of functions recorded on the frame track is recorded on the leader track,
3. The magnetic information recording method according to claim 1, wherein only magnetic information corresponding to a function selected by the function selection code is recorded on each frame track.   The plurality of functions recorded in the frame track include an ordering function to a laboratory, an automatic reproduction function for reproducing a film image on a monitor TV, an automatic print function for printing a film image, and an unused frame track as a whole roll or an arbitrary frame. The magnetic information recording method according to claim 3, comprising two or more of the functions opened for information recording.   The magnetic information recording method according to claim 3 or 4, wherein the function selection code is divided into a major classification and a minor classification that subdivides the major classification.   When changing the function selected by the function selection code from the first function to the second function, the magnetic information of the leader track and each frame track is recorded in the external recording means, and the second 5. The magnetic information recording method according to claim 3, wherein when returning from the function to the first function, information is read from the external recording means and magnetic information is recorded on the leader track and each frame track. .   Applied to a device that can be upgraded, the version control number in the manufacturer identification code is automatically updated to a predetermined version control number by switching or reading from a photo film having a predetermined version control number. The magnetic information recording method according to claim 2, wherein the magnetic information is upgraded together. In a magnetic information recording method for recording magnetic information on a magnetic track on a roll of photographic film,
The magnetic track is divided into a leader track in the leader part at the film tip and a frame track corresponding to each frame behind the leader part,
A plurality of functions recorded in the frame track, such as an ordering function to a laboratory, an automatic reproduction function for reproducing a film image on a monitor TV, an automatic print function for printing a film image, and an unused frame track as an entire roll or arbitrarily A function selection code indicating a specific function among magnetic information corresponding to a function including two or more of the functions to be released for recording information of the frame is recorded on the leader track,
A magnetic information recording method, wherein only magnetic information corresponding to a function selected by the function selection code is recorded on each frame track.

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