JP3857390B2 - Mobile phone equipment - Google Patents

Description

【００３７】
【表２】

【００３８】
本実施形態では、これらを動作させるための情報として、６ｂｉｔの情報要素で構成される制御情報３５のうち、３ｂｉｔを応答モードの切り替え用に符号化している。
【００３９】
また、送信する応答モードの種類は、無線送信装置２の入力器４７の操作によって、任意に選択可能である。
【００４０】
次に、携帯電話装置１の動作を、図６の動作フローを用いて説明する。
携帯電話装置１は、スタンバイモードと自動認識モードを持つ。携帯電話装置１は、電源スイッチ１９が投入された後に、初期化処理を行い、スタンバイモードに移行する。
【００４１】
スタンバイモードは、携帯電話装置１の動作タイミングを決めるもので、携帯電話装置１は、７５０ミリ秒間隔の間欠受信動作を行い、携帯電話装置１の電池１８の消耗を極力低減している。携帯電話装置１の制御回路１０は、７００ミリ秒のタイマー機能を設定して、その他の機能を停止する。タイマーがタイムアップすると、携帯電話装置１は自動認識モードに移行する。
【００４２】
自動認識モードでは、無線送信装置２から送信される伝送情報の内容により、携帯電話装置１の応答モードが切り替わる。
【００４３】
（１）プリアンブル検出では、５０ミリ秒の受信動作を行い、“１”，“０”の２ｂｉｔの繰り返しパターンを１２ｂｉｔ連続して検出したときに、プリアンブル検出と認識する。５０ミリ秒以内に“１”，“０”の２ｂｉｔの繰り返しパターンを１２ｂｉｔ連続して検出できないときは、スタンバイモードへ移行する。また、検出時には、情報伝送の情報伝送単位が８ｂｉｔ毎に復調時の同期を取りながら、受信電波を復調し情報を取り出す。
【００４４】
ここで、本実施形態における無線送信装置２の送信回路４３と携帯電話装置１の受信回路４１の動作タイミングを、図７を用いて説明する。
【００４５】
図７は、その横軸に時間経過、縦軸に動作を示している。受信電波がない（送信回路４３がスタンバイの）場合、プリアンブル３１を検出できないので、携帯電話装置１は、５０ミリ秒の受信動作と７００ミリ秒のスタンバイとの間欠受信動作を行う。
【００４６】
無線送信装置２の送信回路４３が送信動作になり、プリアンブル３１を送出しているときに、携帯電話装置１の受信回路４１が受信動作になって、プリアンブル３１を検出できれば、その後の情報も受信することができる。従って、プリアンブル３１が送出されている時間は、間欠受信動作の周期よりも長くなければならない。ここでは、前述したように、プリアンブル３１を６００ｂｉｔで構成し、電送速度を５１２ｂｐｓとしているので、プリアンブル３１が送出されている時間は、１秒以上あり、間欠受信動作の周期から外れることはない。また、プリアンブル３１を検出することができれば、携帯電話装置１は、その後の情報を受信するために、情報の受信が完了するまで受信動作の時間を延長する。
【００４７】
（２）同期情報検出では、４つの連続して送出される同期情報３２のうち１回、同期情報３２を検出したときに、同期情報検出と認識する。１回も同期情報３２を検出できないときは、スタンバイモードへ移行する。
【００４８】
（３）区別情報検出では、８ｂｉｔの区別情報３３のうち、任意６ｂｉｔ以上があらかじめ定められた区別情報３３と一致したときに、区別情報検出と認識する。任意６ｂｉｔ以上一致する区別情報３３を検出できないときは、スタンバイモードへ移行する。
【００４９】
（４）識別情報検出では、４つの連続して送出される識別情報３４のうち、いづれか１つが携帯電話装置１の記憶回路１２に記憶した識別情報３４と一致したときに、識別情報検出と認識する。識別情報３４を検出できないか、いづれも記憶回路１２に記憶した識別情報３４と一致しないときは、スタンバイモードへ移行する。
【００５０】
（５）制御情報検出では、５つの連続して送出される制御情報３５のうち、いづれか３つ以上の一致する制御情報３５を検出したときに、制御情報検出と認識する。３つ以上の一致する制御情報３５を検出できないときは、スタンバイモードへ移行する。
【００５１】
（６）制御情報処理では、制御情報３５にしたがって、前記の表１に示す内容の通りに、携帯電話装置１の応答モードを切り替える。制御情報の処理が終了したら、スタンバイモードへ移行する。
【００５２】
上述したように、本実施形態では、使用者が無線送信装置２のある場所の近くに携帯電話装置１を移動させると、自動的にその場所に適した応答モードに切り替わり、携帯電話装置１に着信があった場合、使用者に代わって携帯電話装置１の内部に格納された応答メッセージが送出され、かけた相手は携帯電話使用者の状況が把握可能となる。さらに、携帯電話装置１側に録音機能を有することにより、かけた相手は用件の内容を録音しておくことができる。
【００５３】
次に、本発明における第２実施形態について、図８を用いて説明する。図８は、本発明の第２実施形態における、携帯電話装置１のハンドオフ検出の動作フローである。
【００５４】
電源投入後、制御回路１０では、タイマーを初期化し、ハンドオフの検出を行う。ハンドオフの検出は、例えば、待ち受け時の１回目のゾーン移行処理後、定時間タイマー（たとえば３分）を起動し、その時間内のハンドオフの回数をメモリーに記憶する。
【００５５】
以降、ゾーン移行を行うたびにメモリーに回数を記憶する。タイムアップしたらカウンタをチェックし、ハンドオフの回数が予め設定された閾値以上であれば、応答モードを高速移動中のものに切り替える。ハンドオフの回数が予め設定された閾値未満であれば、カウンタをクリアし、再びハンドオフの検出を行う。
【００５６】
上述したような制御を行うことにより、高速移動中であることを携帯電話装置１が自動認識して、自動的にその場合に適した応答モードに切り替わり、携帯電話装置１に着信があった場合、使用者に代わって携帯電話装置１の内部に格納された応答メッセージが送出され、かけた相手は携帯電話使用者の状況が把握可能となる。
【００５７】
次に、本発明における第３実施形態について、図９〜図１１を用いて説明する。図９は、本発明の第３実施形態における、携帯電話装置１の移動速度検出の動作フローである。
【００５８】
電源投入後、制御回路１０では、タイマーを初期化し、移動速度の検出を行う。移動速度の検出は、例えば、待ち受け時に基地局からの受信周波数（ｆ_r ）と本来のキャリア周波数（ｆ_c ）との差（ｆ_d ）から、移動速度を算出する。この算出の手法は、以下の通りである。
【００５９】
ｆ_d＝｜ｆ_c−ｆ_r｜
ｆ_d＝移動速度／受信周波数の波長（λ）
λ＝ｃ／ｆ_c
よって、
移動速度＝ｆ_d／ｆ_c＊ｃ（光速）
となる。
【００６０】
タイムアップしたらカウンタをチェックし、移動速度が予め設定された閾値以上であれば、応答モードを高速移動中のものに切り替える。また、移動速度が予め設定された閾値未満であれば、カウンタをクリアし、再び移動速度の検出を行う。
【００６１】
図１０は、本実施形態における携帯電話装置１の内部の構成図である。図２に示し前述した第１実施形態の携帯電話装置１の構成図に対し、本実施形態では、送受信回路４と変復調回路５の間に、フェージングピッチ回路２０を追加している。
【００６２】
図１１は、このフェージングピッチ検出回路２０の詳細図である。
基地局からの受信電波は、送受信回路４を通り、フェージングピッチ回路２０内のＡ／Ｄ変換部２１でアナログ信号に変換された後、受信レベルデータが閾値レベルデータと比較器２２で比較され、この比較結果の２値信号がカウンター２３に送られる。また、制御回路１０から定期的に送られる初期化信号により、カウンター２３を訂数する。カウンター２３内の閾値を交差する間隔が短い場合、つまり、フェージングピッチが上がると、カウンター２３からキャリー信号が制御回路１０に送られ、自動的に応答モードを高速移動中のものに切り替える。
【００６３】
上述したような制御を行うことにより、高速移動中であることを携帯電話装置１が自動認識して、自動的にその場合に適した応答モードに切り替わり、携帯電話装置１に着信があった場合、使用者に代わって携帯電話装置１の内部に格納された応答メッセージが送出され、かけた相手は携帯電話使用者の状況が把握可能となる。
【００６４】
次に、本発明における第４実施形態について、図１２を用いて説明する。図１２は、本発明の第４実施形態における、携帯電話装置１の騒音パターン検出の動作フローである。
【００６５】
本実施形態では、待ち受け中にＤＳＰを駆動する必要があるため、待ち受け時間を劣化させてしまう。そこで、タイマーを初期化したのち、カーバッテリーから携帯電話装置１に給電するためのカーチャージャーが接続状態にあるかどうかをチェックし、接続状態であれば、そのまま自動車内であると判断し、応答モードを自動的に高速移動中のものに切り替える。
【００６６】
接続されていない場合は、待ち受け中に音声コーデック用ＤＳＰである、ＳＰ−ＣＯＤ７を駆動し、背景雑音を分析し、記憶してある音声パターンとの比較を行い、一致したら自動車内にいると判断し、応答モードを高速移動中のものに切り替える。
【００６７】
次に、本発明における第５実施形態について、図１３を用いて説明する。図１３は、本発明の第５実施形態における、携帯電話装置１の騒音パターン検出と移動速度検出とを組み合わせた動作フローである。
【００６８】
本実施形態は、前記第３実施形態で説明した移動速度の検出方法と、前記第４実施形態で説明した騒音パターンの検出とを組み合わせてたものである。したがって、例えば渋滞中のように、高速移動中でなくても自動車内に携帯電話装置１があることを検知し、応答モードを自動的に高速移動中のものに切り替えることができる。
【００６９】
なお、上記の第５実施形態以外にも、本発明の前述した第１〜第４実施形態を適宜に組み合わせて、最適な応答モードに切り替える制御を行うことが可能であることは、勿論である。
【００７０】
【発明の効果】
以上のように本発明によれば、携帯電話装置の使用者が直ちに電話にでられない状況を、使用者が自ら操作して応答モードを切り替えずとも、携帯電話装置側で状況を判断し、自動的に応答モードを選択し、携帯電話装置に発信相手から着信があった場合、この発信者に使用者の状況を通知することができる。
【００７１】
また、携帯電話装置の使用者が、車両などを運転中の場合、運転操作に支障をきたすことなく、通信相手に使用者の状況を知らせることにより、適切な応答ができる。
【００７２】
また、携帯電話装置の使用が制限（電磁波の影響による制限でなく、携帯電話使用のマナーによる制限）されている場所や、会議の場でも、自動的にその状況に合わせた応答モードに切り替えるので、同様に、発信相手に適切な応答ができる。
【図面の簡単な説明】
【図１】本発明の第１実施形態に係る携帯電話装置と無線送信装置との関係を示す説明図である。
【図２】本発明の第１実施形態による携帯電話装置の構成を示すブロック図である。
【図３】本発明の第１実施形態による携帯電話装置の外観の１例を示す外観説明図である。
【図４】本発明の第１実施形態による無線送信装置の構成を示すブロック図である。
【図５】本発明の第１実施形態における、無線送信装置の情報伝送フォーマットを示す説明図である。
【図６】本発明の第１実施形態における、携帯電話装置の動作フローを示すフローチャート図である。
【図７】本発明の第１実施形態における、無線送信装置の送信回路と携帯電話装置の受信回路の動作タイミングを示す説明図である。
【図８】本発明の第２実施形態における、携帯電話装置のハンドオフ検出の動作フローを示すフローチャート図である。
【図９】本発明の第３実施形態における、携帯電話装置の移動速度検出の動作フローを示すフローチャート図である。
【図１０】本発明の第３実施形態に係る携帯電話装置の構成を示すブロック図である。
【図１１】図１０中のフェージングピッチ検出回路の構成を示すブロック図である。
【図１２】本発明の第４実施形態における、携帯電話装置の騒音パターン検出の動作フローを示すフローチャート図である。
【図１３】本発明の第５実施形態における、携帯電話装置の騒音パターン検出と移動速度検出を組み合わせた動作フローを示すフローチャート図である。
【符号の説明】
１ 携帯電話装置
２ 無線送信装置
３ アンテナ
４ 無線送受信回路
５ デジタル変復調回路
６ 誤り訂正符号復号回路（ＣＨ−ＣＯＤ）
７ 音声符号復号回路（ＳＰ−ＣＯＤ）
８ 受話器（スピーカ）
９ 送話器（マイク）
１０ 制御回路
１１ サウンダ
１２ 記憶回路
１３ 入力器
１４ ＬＣＤ表示器（表示器）
１６ ファンクションキー
１８ バッテリ電源（電池）
１９ 電源スイッチ
２０ フェージングピッチ検出回路
２１ Ａ／Ｄ変換部
２２ 比較器
２３ カウンター
３１ プリアンブル
３２ 同期情報
３３ 区別情報
３４ 識別情報
３５ 制御情報
４１ 受信回路
４２ アンテナ
４３ 送信回路
４４ 制御回路
４５ 記憶回路
４６ ＬＥＤ表示器
４７ 入力器
４８ 電池
４９ 電源スイッチ
５０（５０ａ，５０ｂ，５０ｃ） 無線基地局
５１（５１ａ，５１ｂ，５１ｃ） 無線電搬エリア
６１ 自動車
７０ 有線回線
８０ 交換局[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile phone device, and in particular, when a mobile phone device receives an incoming call, the user is driving a vehicle or the like, or is in a place where the use of a mobile phone is restricted. The present invention relates to a mobile phone device that enables a mobile phone device to automatically determine such a situation when it is difficult to immediately make a call with a caller, and to easily notify the caller of this situation when an incoming call is received.
[0002]
[Prior art]
In current mobile phone devices, when an incoming call is received, the user must be on the phone, but not necessarily immediately. In particular, when the user is driving a vehicle or the like, the telephone cannot be immediately called due to safety problems. Conventionally, there is a function to put a call on hold in preparation for such a case. In this case, when a call cannot be received immediately, a message indicating that a response cannot be made immediately to the other party is sent to the other party through the base station by pressing a hold button.
[0003]
However, such a function alone cannot notify the caller of what reason the user has put the call on hold. In other words, the other party is in a place where the user is restricted from using the mobile phone device, is moving from there, is not able to answer the phone due to other requirements, or is driving a vehicle etc. I can't know if I can't answer the phone until I stop there. Therefore, depending on the situation, it may be possible to hang up the call from the caller side for a long time.
[0004]
[Problems to be solved by the invention]
As described above, in the prior art, when a mobile phone device receives an incoming call, if the user cannot immediately answer the call, there is no means for notifying the calling party of the situation, and the calling party is also There is a disadvantage that it is impossible to know the situation of the user of the mobile phone device.
[0005]
Further, there is data that the cause of an accident when using a mobile phone while driving a vehicle or the like is more frequent during the search for a mobile phone device for making / receiving calls than during a call. In the conventional apparatus, no consideration has been given to improvement in usability particularly in such a situation.
[0006]
Furthermore, most mobile phone devices are stored in a cage as a storage location when used in a portable manner. Therefore, it is necessary to take out the mobile phone device from the bag and press the hold button every time, even though it is not possible to answer the call immediately when receiving a call. No consideration was given.
[0007]
The present invention has been made paying attention to the above circumstances, and the purpose of the present invention is to provide a manual response method when the user of the mobile phone device cannot answer the phone immediately. It is an object of the present invention to provide a mobile phone device that can automatically determine a user's situation without making a selection and notify the caller of the situation when receiving a call.
[0008]
[Means for Solving the Problems]
To achieve the above object, in one aspect of the mobile telephone device according to the invention,
An incoming call response means for responding to an incoming call from the calling party;
Storage means for storing a message to the calling party;
Measuring means for measuring the input pattern from the microphone;
Calculating means for calculating the change of the input pattern,
When there is an incoming call when the calculation result by the calculation means is greater than or equal to a preset threshold value, the incoming call response means sends a message stored in the storage means to the caller.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 7 relate to a first embodiment of the present invention, FIG. 1 is an explanatory diagram showing a relationship between a mobile phone device and a wireless transmission device in the present embodiment, FIG. 2 is an internal configuration diagram of the mobile phone device, FIG. 3 is a diagram showing an example of the appearance of the mobile phone device.
[0018]
As shown in FIG. 1, the mobile phone device 1 is in the automobile 61, and the mobile phone device 1 indicates that it is in the automobile 61 by a signal from the wireless transmission device 2 attached in the automobile 61. It comes to recognize.
[0019]
Each radio base station 50 (here, radio base stations 50 a, 50 b, 50 c) is connected to the exchange 80 via a wired line 70. The exchange 80 governs a plurality of radio base stations 50a, 50b, and 50c, and each time the vehicle 61 moves through the radio carrying areas 51a, 51b, and 51c covered by each radio base station as the vehicle 61 moves, Registration is to be done.
[0020]
In FIG. 2, a radio communication signal transmitted from the radio base station 50 is input to the radio transmission / reception circuit 4 via the antenna 3 of the mobile phone device 1 and converted into an intermediate frequency signal. The received intermediate frequency signal is digitally demodulated by the digital modulation / demodulation circuit 5, and the digitally demodulated reception signal is decoded by an error correction code decoding circuit (CH-COD) 6. Here, the signals decoded and output by the error correction code decoding circuit 6 include a digital speech signal and a digital control signal, and the digital control signal is supplied to the control circuit 10 and identified. On the other hand, the digital call signal is decoded by a voice code decoding circuit (SP-COD) 7 and returned to an analog call signal, and then output from a receiver (speaker) 8.
[0021]
On the other hand, the transmitted voice is converted into a transmission signal by a transmitter (microphone) 9 and then converted into a digital transmission signal by encoding by a voice encoding / decoding circuit 7. This digital transmission signal is encoded by the error correction coding / decoding circuit 6 together with the digital control signal generated by the control circuit 10, and then input to the digital modulation / demodulation circuit 5 to be modulated into an orthogonal modulation signal. The modulated signal is converted into a high-frequency signal of a predetermined wireless channel by the wireless transmission / reception circuit 4 and then transmitted from the antenna 3 to the wireless base station 50.
[0022]
The reception circuit 41 receives the control signal from the wireless transmission device 2 shown in FIG. 4 and sends a signal for switching the response mode to the control circuit 10. The input device 13 is used for changing the identification information 34 described in the description of FIG. Furthermore, the function key 16 of the input device 13 is used for operations such as manually switching the response mode.
[0023]
By the way, the control circuit 10 includes a microcomputer as a main control unit. In addition to the function of controlling each unit, the control circuit 10 generates a message to a communication partner, stores the message in a memory, and It also has means for sending a message to the communication partner.
[0024]
Further, the power of the mobile phone device 1 is supplied to each unit via a power switch 19 using a battery power source (battery) 18.
[0025]
FIG. 4 is a configuration diagram of the wireless transmission device 2.
As shown in the figure, the wireless transmission device 2 includes a transmission circuit 43 for transmitting to the mobile phone device 1 and a transmission antenna 42. The wireless transmission device 2 has a microcomputer and a control circuit 44 that controls each part, and a response. A storage circuit 45 for storing information and the like, an input device 47 for inputting information, an LED display 46 for displaying an operation state, and the like are included. Further, the power of the wireless transmission device 2 is supplied to each unit through a power switch 49 using a battery 48.
[0026]
FIG. 5 is a configuration diagram of an information format transmitted from the wireless transmission device 2.
The wireless transmission device 2 transmits information by wireless transmission. The information by wireless transmission is 744 bits in total, and is composed of a preamble 31, synchronization information 32, identification information 33, identification information 34, and control information 35.
[0027]
In the information transmission from the wireless transmission device 2, the information transmission unit is 8 bits, and the first 2 bits are assigned to start bits of “1” and “0”. This is used for synchronization at the time of demodulation every 8 bits. Therefore, the effective information of 8 bits is 6 bits.
[0028]
(1) The preamble 31 is not intended to transmit information, but simply needs to be able to detect a received radio wave. Therefore, the preamble 31 is composed of 600 bits composed of a 2-bit repetitive pattern of “1” and “0”. As will be described later, since the mobile phone device 1 performs an intermittent reception operation in order to reduce the consumption of the battery 18, on the transmission side, the reception signal is detected at the timing of the intermittent operation. A certain amount of continuous transmission is required.
[0029]
(2) The synchronization information 32 is composed of 8-bit information, and four identical synchronization information 32 are continuous. This is a code defined in common for the wireless transmission device 2 in order to synchronize with the 8-bit information transmission unit following the preamble 31.
[0030]
(3) The discrimination information 33 is configured by 8-bit information. This is a code defined in common for the wireless transmission device 2 in order to recognize the start of the identification information 34 following the identification information 33.
[0031]
(4) The identification information 34 is composed of 16-bit information, and four identical pieces of identification information 34 are continuous. This is a code individually determined for the wireless transmission device 2 in order to recognize the wireless transmission device 2 individually, and is 12 bits as an information element. In the cellular phone device 1, a part of the storage circuit 12 is used as means for holding the identification information 34. Further, the identification information 34 can change its contents. That is, the user can change the identification number by inputting the identification number of the wireless transmission device 2 to be used from the input device 13 of the mobile phone device 1.
[0032]
The input content is converted into identification information 34 by the control circuit 10 and stored in the storage circuit 12. Furthermore, the input identification number can be confirmed on the LCD display 14. In this way, even when there are a plurality of mobile phone devices 1, the mobile phone device 1 to be automatically switched can be alternatively selected by setting the identification number each time.
[0033]
Further, as the identification information, unique information such as a call code and a serial number individually possessed by the mobile phone device 1 or a part thereof can be used.
[0034]
(5) The control information 35 is configured by 8-bit information, and five identical control information 35 are continuous. This is a code defined in common for the wireless transmission device 2 in order to control the response operation of the mobile phone device 1, and is 6 bits as an information element.
[0035]
As shown in Table 1, the cellular phone device 1 can select up to eight types as response modes. In addition, as shown in Table 2, a specific example of a response message is assumed to be a situation where it is difficult to respond when an incoming call is received, and response modes 1 to 3 are modes for recording a message from a caller. Response modes 4 to 6 are response-only modes.
[0036]
[Table 1]

[0037]
[Table 2]

[0038]
In the present embodiment, as information for operating these, 3 bits are encoded for switching the response mode among the control information 35 constituted by 6-bit information elements.
[0039]
The type of response mode to be transmitted can be arbitrarily selected by operating the input unit 47 of the wireless transmission device 2.
[0040]
Next, the operation of the mobile phone device 1 will be described using the operation flow of FIG.
The cellular phone device 1 has a standby mode and an automatic recognition mode. After the power switch 19 is turned on, the cellular phone device 1 performs an initialization process and shifts to the standby mode.
[0041]
The standby mode determines the operation timing of the mobile phone device 1, and the mobile phone device 1 performs an intermittent reception operation at intervals of 750 milliseconds to reduce the consumption of the battery 18 of the mobile phone device 1 as much as possible. The control circuit 10 of the mobile phone device 1 sets a timer function of 700 milliseconds and stops other functions. When the timer expires, the mobile phone device 1 shifts to the automatic recognition mode.
[0042]
In the automatic recognition mode, the response mode of the mobile phone device 1 is switched depending on the content of transmission information transmitted from the wireless transmission device 2.
[0043]
(1) In preamble detection, a reception operation of 50 milliseconds is performed, and when a 2-bit repetitive pattern of “1” and “0” is detected continuously for 12 bits, it is recognized as preamble detection. If a 2-bit repetitive pattern of “1” and “0” cannot be detected continuously within 50 milliseconds, a transition is made to the standby mode. At the time of detection, the information transmission unit of information transmission demodulates the received radio wave and takes out information while synchronizing at the time of demodulation every 8 bits.
[0044]
Here, operation timings of the transmission circuit 43 of the wireless transmission device 2 and the reception circuit 41 of the mobile phone device 1 in the present embodiment will be described with reference to FIG.
[0045]
FIG. 7 shows the passage of time on the horizontal axis and the operation on the vertical axis. When there is no reception radio wave (the transmission circuit 43 is in a standby state), the preamble 31 cannot be detected, so the mobile phone device 1 performs an intermittent reception operation with a reception operation of 50 milliseconds and a standby of 700 milliseconds.
[0046]
When the transmission circuit 43 of the wireless transmission device 2 is in a transmission operation and the preamble 31 is being transmitted, if the reception circuit 41 of the mobile phone device 1 is in a reception operation and the preamble 31 can be detected, the subsequent information is also received. can do. Therefore, the time during which the preamble 31 is transmitted must be longer than the period of the intermittent reception operation. Here, as described above, the preamble 31 is composed of 600 bits, and the transmission speed is 512 bps. Therefore, the time during which the preamble 31 is transmitted is 1 second or longer, and does not deviate from the cycle of the intermittent reception operation. If the preamble 31 can be detected, the cellular phone device 1 extends the time of the reception operation until the reception of the information is completed in order to receive the subsequent information.
[0047]
(2) In the synchronization information detection, when the synchronization information 32 is detected once out of the four consecutively sent synchronization information 32, it is recognized as the synchronization information detection. When the synchronization information 32 cannot be detected even once, the mode shifts to the standby mode.
[0048]
(3) In the discrimination information detection, when any 6 bits or more of the 8-bit discrimination information 33 matches the predetermined discrimination information 33, it is recognized as the discrimination information detection. When the discriminating information 33 that matches any 6 bits or more cannot be detected, the mode shifts to the standby mode.
[0049]
(4) In identification information detection, identification information is detected and recognized when one of the four pieces of identification information 34 sent out continuously matches the identification information 34 stored in the storage circuit 12 of the mobile phone device 1. To do. When the identification information 34 cannot be detected or none of the identification information 34 matches the identification information 34 stored in the storage circuit 12, the standby mode is entered.
[0050]
(5) In the control information detection, when any three or more matching control information 35 is detected among the five pieces of control information 35 transmitted continuously, the control information is recognized as being detected. When three or more matching control information 35 cannot be detected, the mode shifts to the standby mode.
[0051]
(6) In the control information processing, the response mode of the mobile phone device 1 is switched according to the control information 35 as shown in Table 1 above. When the processing of the control information is finished, the mode shifts to the standby mode.
[0052]
As described above, in the present embodiment, when the user moves the mobile phone device 1 near a place where the wireless transmission device 2 is located, the mobile phone device 1 automatically switches to a response mode suitable for that location. When there is an incoming call, a response message stored inside the mobile phone device 1 is sent on behalf of the user, and the called party can grasp the status of the mobile phone user. Furthermore, since the mobile phone device 1 has a recording function, the called party can record the contents of the message.
[0053]
Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 8 is an operation flow of handoff detection of the mobile phone device 1 in the second embodiment of the present invention.
[0054]
After power-on, the control circuit 10 initializes a timer and detects handoff. For example, the handoff is detected by starting a fixed time timer (for example, 3 minutes) after the first zone transition processing at the time of standby, and storing the number of handoffs within that time in the memory.
[0055]
Thereafter, the number of times is stored in the memory every time zone transfer is performed. When the time is up, the counter is checked, and if the number of handoffs is equal to or greater than a preset threshold, the response mode is switched to that at high speed. If the number of handoffs is less than a preset threshold, the counter is cleared and handoff detection is performed again.
[0056]
When the mobile phone device 1 automatically recognizes that it is moving at high speed by performing the control as described above, and automatically switches to a response mode suitable for that case, and the mobile phone device 1 receives an incoming call. A response message stored inside the mobile phone device 1 is sent on behalf of the user, and the called party can grasp the status of the mobile phone user.
[0057]
Next, 3rd Embodiment in this invention is described using FIGS. 9-11. FIG. 9 is an operation flow for detecting the moving speed of the mobile phone device 1 according to the third embodiment of the present invention.
[0058]
After the power is turned on, the control circuit 10 initializes a timer and detects the moving speed. In the detection of the moving speed, for example, the moving speed is calculated from the difference (f _d ) between the reception frequency (f _r ) from the base station and the original carrier frequency (f _c ) during standby. This calculation method is as follows.
[0059]
f _d = | f _c −f _r |
f _d = movement speed / reception frequency wavelength (λ)
λ = c / f _c
Therefore,
Movement speed = f _d / f _c * c (speed of light)
It becomes.
[0060]
When the time is up, the counter is checked, and if the moving speed is equal to or higher than a preset threshold, the response mode is switched to that at high speed. If the moving speed is less than a preset threshold, the counter is cleared and the moving speed is detected again.
[0061]
FIG. 10 is an internal configuration diagram of the mobile phone device 1 in the present embodiment. In this embodiment, a fading pitch circuit 20 is added between the transmission / reception circuit 4 and the modulation / demodulation circuit 5 in contrast to the configuration diagram of the cellular phone device 1 of the first embodiment shown in FIG.
[0062]
FIG. 11 is a detailed diagram of the fading pitch detection circuit 20.
The received radio wave from the base station passes through the transmission / reception circuit 4 and is converted into an analog signal by the A / D converter 21 in the fading pitch circuit 20, and then the received level data is compared with the threshold level data by the comparator 22. A binary signal of the comparison result is sent to the counter 23. Further, the counter 23 is corrected by an initialization signal periodically sent from the control circuit 10. When the interval crossing the threshold value in the counter 23 is short, that is, when the fading pitch is increased, a carry signal is sent from the counter 23 to the control circuit 10, and the response mode is automatically switched to that at high speed.
[0063]
When the mobile phone device 1 automatically recognizes that it is moving at high speed by performing the control as described above, and automatically switches to a response mode suitable for that case, and the mobile phone device 1 receives an incoming call. A response message stored inside the mobile phone device 1 is sent on behalf of the user, and the called party can grasp the status of the mobile phone user.
[0064]
Next, a fourth embodiment of the present invention will be described with reference to FIG. FIG. 12 is an operation flow of noise pattern detection of the mobile phone device 1 according to the fourth embodiment of the present invention.
[0065]
In this embodiment, since it is necessary to drive the DSP during standby, the standby time is degraded. Therefore, after the timer is initialized, it is checked whether or not the car charger for supplying power from the car battery to the mobile phone device 1 is in a connected state. Automatically switches to the one that is moving fast.
[0066]
If not connected, SP-COD7, which is a voice codec DSP, is driven during standby, background noise is analyzed, and compared with a stored voice pattern. Then, switch the response mode to one that is moving at high speed.
[0067]
Next, a fifth embodiment of the present invention will be described with reference to FIG. FIG. 13 is an operation flow combining the noise pattern detection and the movement speed detection of the mobile phone device 1 in the fifth embodiment of the present invention.
[0068]
The present embodiment is a combination of the moving speed detection method described in the third embodiment and the noise pattern detection described in the fourth embodiment. Therefore, for example, it is possible to detect that the mobile phone device 1 is in the automobile even when the vehicle is not moving at high speed, such as in a traffic jam, and the response mode can be automatically switched to that at high speed.
[0069]
In addition to the fifth embodiment described above, it is of course possible to perform control for switching to the optimum response mode by appropriately combining the first to fourth embodiments described above of the present invention. .
[0070]
【The invention's effect】
As described above, according to the present invention, the situation in which the user of the mobile phone device cannot immediately answer the phone call is determined on the mobile phone device side even if the user does not switch the response mode by operating the user himself, When a response mode is automatically selected and a call is received from a caller, the caller can be notified of the user's situation.
[0071]
In addition, when the user of the mobile phone device is driving a vehicle or the like, an appropriate response can be made by notifying the communication partner of the situation of the user without disturbing the driving operation.
[0072]
In addition, since the use of mobile phone devices is restricted (not restricted by the influence of electromagnetic waves, but restricted by manners of using mobile phones) and at conferences, it automatically switches to a response mode that matches the situation. Similarly, an appropriate response can be made to the calling party.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a relationship between a mobile phone device and a wireless transmission device according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of the mobile phone device according to the first embodiment of the present invention.
FIG. 3 is an external explanatory view showing an example of the external appearance of the mobile phone device according to the first embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a wireless transmission device according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram showing an information transmission format of the wireless transmission device in the first embodiment of the present invention.
FIG. 6 is a flowchart showing an operation flow of the mobile phone device according to the first embodiment of the present invention.
FIG. 7 is an explanatory diagram illustrating operation timings of the transmission circuit of the wireless transmission device and the reception circuit of the mobile phone device according to the first embodiment of the present invention.
FIG. 8 is a flowchart showing an operation flow of handoff detection of the mobile phone device in the second exemplary embodiment of the present invention.
FIG. 9 is a flowchart showing an operation flow for detecting the moving speed of the mobile phone device according to the third embodiment of the present invention.
FIG. 10 is a block diagram showing a configuration of a mobile phone device according to a third embodiment of the present invention.
11 is a block diagram showing a configuration of a fading pitch detection circuit in FIG.
FIG. 12 is a flowchart showing an operation flow of noise pattern detection of the mobile phone device in the fourth exemplary embodiment of the present invention.
FIG. 13 is a flowchart showing an operation flow combining noise pattern detection and movement speed detection of the mobile phone device in the fifth exemplary embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cellular phone apparatus 2 Wireless transmission apparatus 3 Antenna 4 Wireless transmission / reception circuit 5 Digital modulation / demodulation circuit 6 Error correction code decoding circuit (CH-COD)
7 Speech code decoding circuit (SP-COD)
8 Handset (speaker)
9 Microphone
DESCRIPTION OF SYMBOLS 10 Control circuit 11 Sounder 12 Memory circuit 13 Input device 14 LCD display (display device)
16 Function keys 18 Battery power (battery)
19 Power switch 20 Fading pitch detection circuit 21 A / D conversion unit 22 Comparator 23 Counter 31 Preamble 32 Synchronization information 33 Discrimination information 34 Identification information 35 Control information 41 Reception circuit 42 Antenna 43 Transmission circuit 44 Control circuit 45 Storage circuit 46 LED display Unit 47 Input unit 48 Battery 49 Power switch 50 (50a, 50b, 50c) Wireless base station 51 (51a, 51b, 51c) Wireless transport area 61 Automobile 70 Wired line 80 Switching office

Claims (2)

An incoming call response means for responding to an incoming call from the calling party;
Storage means for storing a message to the calling party;
Measuring means for measuring the input pattern from the microphone;
Calculating means for calculating the change of the input pattern,
The mobile telephone device characterized in that when there is an incoming call when the calculation result by the calculation means is greater than or equal to a preset threshold value, the incoming call response means sends the message stored in the storage means to the caller. . The mobile phone device according to claim 1, wherein
The mobile phone device comprises a detecting means for detecting its own moving speed,
The incoming call response means has an incoming call when the movement speed detected by the detection means is equal to or higher than a preset threshold value, even if the calculation result by the calculation means is less than a preset threshold value, The cellular phone device according to claim 1, wherein the message stored in the storage means is transmitted to a caller.

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