JP4142502B2 - Mobile device - Google Patents

Description

【００４４】
非球面[1]
曲率半径 -8.00
k 0.0000e+000 a -2.1585e-002
非球面[2]
曲率半径 -1.53
k -1.6295e+000 a -2.4759e-003 b -1.2802e-003
非球面[3]
曲率半径 -1.07
k -2.2926e-001 a 2.2341e-001 b 1.5727e-002
【００４５】
第２の実施形態の携帯端末に用いられる撮像光学系を図９に示す。撮像光学系は、物体側から順に、正屈折力の第１レンズ３１、明るさ絞り３２、負屈折力の第２レンズ３３、正屈折力の第３レンズ３４、及び撮像素子３５から構成されている。いわゆるトリプレットの光学パワー配置になっている。第１レンズ３１は、物体側に凸を向けている。第２レンズ３３は、像側に凸を向けたメニスカスレンズである。
非球面は、第１レンズ３１の両面、第２レンズ３３の両面、第３レンズ３４の両面に設けられている。
【００４６】
この撮像光学系では、第１レンズ３１がガラス、第２レンズ３３、第３レンズ３４がプラスチックである。用いているプラスチックは、夫々、ポリカーボネート、ポリオレフィン系のプラスチック（例えば、ゼオネックス（登録商標））である。
この撮像光学系のスペックは、焦点距離がｆ＝４．５ｍｍ、ＦナンバーがＦ_ｎｏ＝２．４、全画角が６７°で広角の光学系である。光学系の全長は６．２ｍｍと非常に小さい値となっている。また、物体までの距離は∞である。
【００４７】

【００４８】
非球面[1]
曲率半径 1.84
k 4.0305e-001 a 1.0299e-005 b -6.1723e-004
非球面[2]
曲率半径 4.36
k -4.0146e-001 a 8.8825e-003 b 1.8630e-003
非球面[3]
曲率半径 -0.82
k -6.3680e-001 a 1.7662e-001 b -9.4120e-003
非球面[4]
曲率半径 -1.29
k -6.8734e-001 a 3.7877e-002 b 2.7515e-002
非球面[5]
曲率半径 2.53
k -1.1928e+001 a 3.9115e-003 b -2.2073e-004
非球面[6]
曲率半径 -22.59
k -9.5216e+003 a -6.1641e-003 b -7.7722e-005
【００４９】
第３の実施形態の携帯端末に用いられる撮像光学系を図１０に示す。撮像光学系は、物体側から順に、正屈折力の第１レンズ４１、明るさ絞り４２、正屈折力の第２レンズ４３、フィルタ４４、及び撮像素子４５から構成されている。第１レンズは物体側に凸を向けている。第２レンズは、像側に凸を向けている。この撮像光学系は、対称型の光学パワー配置になっている。
非球面は、第１レンズ４１の両面、第２レンズ４３の両面に設けられている。
【００５０】
この撮像光学系は、全てのレンズがプラスチック（ポリオレフィン系のプラスチック（例えば、ゼオネックス（登録商標））である。
また、この撮像光学系のスペックは、焦点距離がｆ＝２．４ｍｍ、ＦナンバーＦが_ｎｏ＝４．０、全画角が５８°で広角の光学系である。光学系の全長は３．８ｍｍと非常に小さい値となっている。また、物体までの距離は５００ｍｍである。また、屈折率、アッベ数はｄ線における値である。
【００５１】

【００５２】
非球面[1]
曲率半径 0.75
k 3.0035e-001 a -1.4881e-002 b 6.2629e-002
非球面[2]
曲率半径 0.92
k 9.0790e-001 a -5.9363e-003 b 6.2138e-002
非球面[3]
曲率半径 -1.08
k 8.7013e+000 a -3.2352e-001 b -4.6068e-001
非球面[4]
曲率半径 -0.77
k -2.5880e-002 a 4.3594e-002 b -3.2707e-002
【００５３】
上記数値例において、曲率半径及び面間隔の単位はｍｍである。また、e+003は、10³を表す。
また後述する数値データの表において、ｒは曲率半径、ｄは面間隔を表す。また、ｎは屈折率、νはアッベ数を表し、ｄ線における値である。後述する各光路図には、数値データの表のｒ_ｉ、ｄ_ｉとの対応が示されている。
また、非球面は、以下の定義式で与えられる回転対称非球面である。

ただし、Ｚを光の進行方向を正とした光軸（軸上主光線）とし、ｙを光軸と鉛直な方向にとる。ここで、Ｒは近軸曲率半径、ｋは円錐定数、ａ、ｂ、ｃ、ｄ、・・・はそれぞれ４次、６次、８次、１０次の非球面係数である。この定義式のＺ軸が回転対称非球面の軸となる。なお、データの記載されていない非球面に関する項は０である。
【００５４】
各実施形態の撮像光学系において、撮像光学系の焦点距離をｆ（ｍｍ）としたとき、下記の式（１）を満足するのが好ましい。
０．５＜ｆ＜１０．０…式（１）
上記条件を満足すると、撮像光学系の収差の発生を抑えることができ、高性能な撮影ユニットを提供することができる。また、撮影ユニットの全長を短くすることができ、小型な撮影ユニット及び携帯端末を提供することが可能である。
【００５５】
また、撮像光学系のＦナンバーをＦ_ｎｏとしたとき、下記の式（２）を満足するのが好ましい。
１．０＜Ｆ_ｎｏ＜６．０…式（２）
上記条件を満足すると、撮像素子を小型化しても適切な光スポット径が得られるので、回折ボケを防ぐことができる。また、撮像光学系が極端に暗くなることがないので、新たな光源の必要性がない。よって携帯端末の大型化や、電力の消費量の増加を抑えることができる。
また、性能確保のためにレンズの枚数が増加することがないため、撮像光学系の大型化を防ぐことができる。また、焦点深度が浅くなることがないため、撮像光学系の組み立てにおいて、高い組み立て精度の必要性がない。その結果、軽量、低コストで小型な撮影ユニット及び携帯端末を提供することが可能である。
【００５６】
各実施例の撮像光学系は、以下に示すように条件を満足している。

【００５７】
また、撮像光学系を、より高性能で小型にするためには、以下の条件を満足することが好ましい。
１．０＜ｆ＜６．０
更に、高性能で小型にするためには、以下の条件を満足することが好ましい。
１．２＜ｆ＜４．８
【００５８】
また、撮像光学系を、より軽量で、低コストで小型にするためには、以下の条件を満足することが好ましい。
１．５＜Ｆ_ｎｏ＜５．０
更に、軽量で、低コストで小型にするためには、以下の条件を満足することが好ましい。
２．０＜Ｆ_ｎｏ＜４．５
【００５９】
また、上記実施の形態では、顔検出ユニットは、不特定の人物の顔が携帯端末の前にあるかを判断するものに適応した。しかしながら、携帯端末の使用者を識別し、登録された人のみが携帯端末を使用可能になるようにしてもよい。
また、上記実施の形態では、顔検出ユニットは、顔全体を検出していたが、顔の輪郭、眼球位置など顔の特徴的な一部分を検出してもよい。
また、上記実施の形態では、超音波によって顔の検出を行ったが、赤外線によって顔の検出を行ってもよい。
【００６０】
また、上記実施形態では、報知ユニットとしてサウンダ１０を用いたが、これに限定されるものではない。発光部材、例えばＬＥＤ３を、報知ユニットとして兼用してもよい。この発光部材を用いて、第１の報知情報や第２の報知情報を発信することができる。また、携帯電話機１に、発光部材として、新たにＬＥＤ等を設けるようにしてもよい。また、発光部材として、フラッシュ光を用いることもできる。このフラッシュ光を被写体に向けて発光することで、被写体となった人に、撮影が行われようとしたことを知らせることができる。
また、携帯電話機１には、着信を報知するためのバイブレーター機能（振動部材）が備えられている。この場合は、それを報知ユニットとして兼用してもよい。この振動部材を用いて、第１の報知情報や第２の報知情報を発信することができる。また、携帯電話機に、報知ユニットとして、新たに振動発生部材を設けるようにしてもよい。
【００６１】
また、第３実施形態において、シャッターキー４を押しても、ディスプレイ７に表示された画像データを記憶しないようにする方法を提案した。この処理が正常に行われれば、撮影した画像は得られない。ただ、以下の方法を備えていれば、より確実に、撮影禁止時に画像が得られないようにすることができる。
例えば、ＬＥＤからの光が内蔵カメラに入射するように、ＬＥＤを配置しておく。そして、撮影が禁止の場合、ＬＥＤが発光するようにしておく。このようにしておくと、撮影時にＬＥＤの光が被写体からの光に重なるため、被写体の画像を得ることができない。
また、例えば、振動発生部材が振動するようにしておく。このようにしておくと、撮影時に振動が生じているため、被写体の画像を得ることができない。
【００６２】
なお、これら音発生部材、発光部材及び振動発生部材による報知は、用途に応じて複合させて構成してもよい。そして、このような構成によっても、本実施例のような報知ユニットを音発生部材で構成した場合と同様の効果が得られる。
【００６３】
また、上記実施の形態では、携帯電話機本体が、矩筒形の折りたたみ式で構成されていた。しかしながら、矩筒形の一胴体や、２つの導体をスライド式にした携帯電話機としてもよい。
また、上記実施の形態では、静止画像が撮像可能なデジタルカメラ機能付の携帯電話機を用いたが、動画像が撮像可能なものに適用してもよい。
また、上記実施の形態では、デジタルカメラ機能付の携帯電話機を用いたが、例えば、ＰＨＳや、携帯情報端末全般に適用してもよい。
【００６４】
なお、本発明の携帯端末では、撮像素子上に形成された像の画像を表示する表示素子が備えられている。これにより、撮影ユニットにより得られた画像が、表示素子にリアルタイムで表示される。よって、盗撮を目的としない場合は、撮影者が表示素子で被写体を確認しながら撮影を行うことができる。その結果、撮影がより簡単に行える。
【００６５】
また、本発明の携帯端末では、表示素子を設けた面とは反対側の面に、撮影ユニットが設けられている。これにより、表示素子をファインダとして使用することが可能となる。すなわち、盗撮を目的としない場合は、表示素子によって、撮影者は被写体を確認しながら撮影を行うことができる。そのため、撮影がより簡便に行える。
【００６６】
また、本発明の携帯端末では、撮影ボタンが、表示素子と同一面に設けられている。これにより、撮影ボタンが撮影者側に位置しているため、撮影するときに手ぶれが生じなくなる。
【００６７】
【発明の効果】
以上説明したように、本発明によれば、携帯端末が撮影者または被撮影者の顔の前にない場合に、撮像ユニットによる撮像を禁止したので、盗撮等の反社会的行為を防止することができる。また、顔が検出されれば撮影が行われるので、撮影範囲が限定されない。更に、小型で操作性の良い、携帯端末を提供できる。
【図面の簡単な説明】
【図１】 本発明の第１実施形態として示した携帯端末の構成図であり、（ａ）は内面側からの斜視図であり、（ｂ）は外面側からの斜視図である。
【図２】 本発明の第１実施形態における、撮影の実行あるいは禁止までの処理の流れを示すフローチャート図である。
【図３】 様々な撮影の様子を示す図であり、（ａ）は水平方向の被写体を撮影する様子、（ｂ）と（ｃ）垂直方向の被写体を撮影する様子である。
【図４】 本発明の第２実施形態として示した盗撮防止携帯端末の構成図であり、（ａ）は内面側からの斜視図であり、（ｂ）は外面側からの斜視図である。
【図５】 本発明の第２実施形態における、撮影の実行あるいは禁止までの処理の流れを示すフローチャート図である。
【図６】 本発明の第３実施形態として示した盗撮防止携帯端末の構成図であり、（ａ）は内面側からの斜視図であり、（ｂ）は外面側からの斜視図である。
【図７】 本発明の第３実施形態における、撮影の実行あるいは禁止までの処理の流れを示すフローチャート図である。
【図８】 本発明の第１実施形態に係る携帯端末に用いられる撮影光学系の光路図である。
【図９】 本発明の第２実施形態に係る携帯端末に用いられる撮影光学系の光路図である。
【図１０】 本発明の第３実施形態に係る携帯端末に用いられる撮影光学系の光路図である。
【符号の説明】
１ 携帯電話機（携帯端末）
４ シャッターキー（撮影ボタン）
７ ディスプレイ（表示素子）
１０ サウンダ（報知ユニット）
１２Ａ、１２Ｂ 内蔵カメラ（撮影ユニット、顔検出ユニット）
１３ 処理ユニット
１４ 超音波発信・受信ユニット（顔検出ユニット）[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable terminal having a camera function and a voyeurism prevention function.
[0002]
[Prior art]
In recent years, mobile phones and personal digital assistants equipped with a digital camera function (hereinafter abbreviated as a camera function) have been supplied. For example, a mobile phone with a camera function can easily shoot a subject (shooting target) simply by pointing the camera at the shooting target and pressing a shooting button. At this time, the image of the subject is obtained as a still image or a moving image (hereinafter abbreviated as an image).
The obtained image is stored in the memory as image data. Also, it can be sent as an attachment to an e-mail, or displayed as a standby screen or an incoming screen. Further, unnecessary image data can be easily deleted from the memory.
However, it is expected that malicious users who perform antisocial acts such as voyeurism, such as taking pictures from a low position in a train or the like, taking advantage of this convenience, are expected. Further, since the voyeur image data can be easily deleted, there is a problem that it does not remain as evidence of malicious intention.
Therefore, for example, as described in Patent Document 1 below, a portable terminal that prevents voyeurism has been proposed.
[0003]
[Patent Document 1]
JP 2002-290818 A (page 5, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, the conventional voyeurism-preventing portable terminal prohibits photographing when the portable terminal body is tilted within the photographing prohibition angle range. Therefore, even when shooting is not aimed at voyeurism, shooting is prohibited if the angle is within the range of the shooting prohibition angle. As a result, there is a problem that the photographing range is remarkably limited.
[0005]
The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a portable terminal that is difficult to voyeurize. It is another object of the present invention to provide a portable terminal whose shooting range is not limited when shooting is not intended for voyeur photography. It is another object of the present invention to provide a portable terminal that is small and has good operability.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention proposes the following means.
According to a first aspect of the present invention, there is provided a photographing unit having an imaging optical system and an imaging element, and a face detecting unit for performing processing for detecting face information of a subject or a photographer based on information output from the photographing unit. And a portable terminal that performs photographing only when face information is detected by the face detection unit.
[0007]
According to the present invention, it is possible to perform photographing only when the information output from the photographing unit includes the subject or photographer's face information. In order to realize this, in the present invention, a face detection unit that performs processing for detecting a subject or a photographer's face is provided. If face information is not detected by this face detection unit, shooting is prohibited (or shooting is not executed).
Shooting for the purpose of voyeurism may not include subject face information. Therefore, in such a case, it is possible to prevent voyeurism. Further, in order to include the photographer's face information in order to perform photographing, it is necessary to perform photographing including the photographer himself. However, in such a state, voyeurism becomes very difficult.
On the other hand, if the purpose is not voyeurism, shooting can be performed regardless of the state of the mobile terminal by including the photographer himself. Therefore, the shooting range is not limited.
[0008]
The invention according to claim 2 includes a face detection unit, and the portable unit in which the photographing unit and the face detection unit are arranged so that a photographing direction of the photographing unit and a detection direction of the face detecting unit are substantially opposite to each other. Suggest a terminal.
According to this invention, the face detection unit is provided in addition to the photographing unit. The shooting unit and the face detection unit are arranged so that the shooting direction of the shooting unit and the detection direction of the face detection unit are substantially opposite to each other. In such a configuration, the photographing unit can be used for photographing a subject, and the face detection unit can be used for detecting a photographer's face.
When aiming at voyeurism that does not include the face information of the subject, the photographer must obtain his / her face information. In this case, with the above configuration, the photographer must face the subject via the face detection unit. Therefore, voyeurism becomes difficult.
On the other hand, in shooting that is not aimed at voyeurism, in many cases, the photographer can place the mobile terminal in front of his / her face. Therefore, if the mobile terminal is placed in front of the user's face, the face can be detected by the face detection unit, so that photographing can be performed. In this case, the shooting range is not limited.
Further, according to the configuration of the present invention, a face detection unit for the photographer is provided separately from the photographing unit for the subject. Therefore, it is not necessary to photograph the photographer himself in the subject. Therefore, for example, even if the subject is only a landscape, it is possible to shoot. Therefore, the shooting range is further expanded.
Here, the face detection unit can be composed of an imaging optical system and an imaging element. Alternatively, the face detection unit can be composed of a transmitter that transmits ultrasonic waves and a receiver that receives ultrasonic waves.
[0009]
The invention according to claim 5 is the portable terminal according to claim 1, further comprising a notification unit having at least one of first notification information and second notification information, wherein the first notification information is the imaging information. Is provided for notifying the mobile terminal, and the second notification information is information for notifying that the photographing has been completed.
The invention according to claim 6 provides the portable terminal according to claim 5, wherein the notification unit includes a sound generating member that generates a predetermined sound.
The invention according to claim 7 provides the portable terminal according to claim 5, wherein the notification unit includes a sound generating member that generates a predetermined sound.
The invention according to claim 8 provides the portable terminal according to claim 5, wherein the notification unit includes a vibration generating member that generates a predetermined vibration.
According to these inventions, when the notification unit has the first notification information, voyeurism can be prevented using the notification information. In addition, it is possible to notify the photographer that shooting is not possible (shooting prohibited state).
Further, when the notification unit has the second notification information, it is possible to notify the photographer that the shooting can be performed (shooting enabled state) by the second notification information.
[0010]
The invention according to claim 9 provides a portable terminal in which the predetermined sound is different between the first notification information and the second notification information.
The invention which concerns on Claim 10 provides the portable terminal from which the said predetermined light differs by said 1st alerting | reporting information and said 2nd alerting | reporting information.
The invention according to claim 11 provides a portable terminal in which the predetermined vibration is different between the first notification information and the second notification information.
According to these inventions, it is possible to distinguish whether the first notification information is notified or the second notification information is notified.
[0011]
The invention according to claim 12 proposes a portable terminal that satisfies the following expression (1) when the focal length of the imaging optical system is f (mm).
0.5 <f <10.0 ... Formula (1)
According to the present invention, the occurrence of aberration in the imaging optical system can be suppressed, and a high-performance imaging unit can be provided. Further, the overall length of the photographing unit can be shortened, and a small photographing unit and a portable terminal can be provided.
[0012]
In the invention according to claim 13, the F number of the imaging optical system is set to F. _no Then, a portable terminal satisfying the following formula (2) is proposed.
1.0 <F _no <6.0 ... Formula (2)
According to the present invention, since an appropriate light spot diameter can be obtained even if the image pickup device is downsized, diffraction blur can be prevented. Moreover, since the imaging optical system does not become extremely dark, there is no need for a new light source. Therefore, an increase in the size of the mobile terminal and an increase in power consumption can be suppressed.
In addition, since the number of lenses does not increase to ensure performance, it is possible to prevent the imaging optical system from becoming large. In addition, since the depth of focus does not become shallow, there is no need for high assembly accuracy in the assembly of the imaging optical system. As a result, it is possible to provide a light-weight, low-cost and small photographing unit and portable terminal.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a portable terminal according to the present invention will be described with reference to FIGS. The embodiment described here is applied to a mobile phone.
A portable terminal according to the first embodiment is shown in FIG. As shown in FIG. 1, a mobile phone 1 according to this embodiment is configured as a folding mobile phone. In this configuration, the second housing 2B is foldably connected to the first housing 2A via the hinge 3.
The first casing 2A is provided with an operation key portion 5 and a microphone 6 for inputting a transmission voice on the inner surface when folded. The operation key unit 5 includes numeric keys and a shutter key 4 that is a shooting button.
Further, a display (display element) 7 for displaying characters and images and a speaker 8 for outputting a received voice are provided on the inner surface side of the second housing 2B. In the vicinity thereof, a light emitting diode (LED) 9 for notifying an incoming call or a charged state is provided. A sounder 10 is provided on the outer surface. Here, the sounder 10 includes a sound generating member (sound source) that outputs a ringtone and a warning sound, and functions as a notification unit.
In addition, a retractable antenna 11 is provided at the upper end.
[0014]
The second housing 2B is provided with a built-in camera (photographing unit) 12A used for photographing a subject. The built-in camera 12A has an imaging optical system and an imaging element. This imaging optical system will be described later.
A processing unit 13 is provided inside the second housing 2B. The processing unit 13 is composed of a microcomputer, a memory, and the like. The processing unit 13 is connected to the image sensor with a signal line.
[0015]
Next, a method for using the mobile phone 1 according to the present embodiment will be described. First, the first housing 2A and the second housing 2B are expanded, and the power is turned on by appropriately operating keys. When used as a telephone, the telephone operation is performed in this state. When the call processing is started, a voice signal input to the microphone 6 is transmitted from the antenna 11 as voice data by a call processing circuit (not shown). Also, the voice data received from the antenna 11 by the call processing circuit is output from the speaker 8 as a voice signal. Thus, it will be used as a telephone.
[0016]
Next, a method of using the mobile phone 1 as a camera will be described with reference to FIGS. FIG. 2 is a flowchart showing a flow of processing up to execution and prohibition of photographing. FIG. 3 shows the photographer.
First, the first casing 2A and the second casing 2B are expanded as in the case of use as a telephone set described above. Then, an appropriate key operation is performed to turn on the power, and a predetermined operation is performed with the operation key unit 5, thereby setting a shooting mode in which shooting is possible (step S1).
Next, the photographer points the built-in camera 12 toward the subject to be photographed. When the built-in camera 12 is pointed at the subject, an image captured by the built-in camera 12 is displayed on the display 7. The photographer looks at the image displayed on the display 7 and confirms the subject to be photographed. Start shooting after confirming the subject. This starts by pressing the shutter key 4.
[0017]
When the processing unit 13 detects that the shutter key 4 has been pressed (step S2), it stores the image data displayed on the display 7 in the memory (step S3). Subsequently, the processing unit 13 performs face information extraction processing using the stored image data (step S4). Then, based on the result of the image processing, whether to perform photographing (permitted) or not (prohibited) is determined (step S5).
Here, when face information is extracted, the image data stored in the memory is stored as it is. Thereafter, the camera returns to a state in which shooting can be performed again, but the shooting mode is ended by performing a predetermined operation with the operation key unit 5 (step S6).
[0018]
On the other hand, when the face information is not extracted, the processing unit 13 does not perform shooting (not performed). In this case, for example, the image data stored in the memory is deleted (discarded) (step S7). As a result, shooting is not executed. Thereafter, the camera returns to a state in which shooting can be performed again, but the shooting mode is ended by performing a predetermined operation with the operation key unit 5 (step S6).
[0019]
According to the above configuration, shooting is executed only when the information output from the built-in camera 12A includes the subject or the photographer's face information. Here, in the shooting state of FIG. 3C, the face information of the subject is often not included. Such a shooting state is often used for shooting for the purpose of voyeurism. Therefore, according to the above configuration, it is possible to prevent voyeurism in the shooting state of FIG.
Further, when the face information of the subject is not included, it is necessary to include the photographer's face information in order to perform shooting. In that case, the photographer himself / herself must be photographed by the built-in camera 12A. However, for the purpose of voyeurism, it is difficult for the photographer to take a posture that allows the photographer to take a picture together with the subject. Therefore, voyeurism becomes very difficult.
[0020]
Note that, when shooting a person who is not intended for voyeurism, the information output from the built-in camera 12A includes the face information of the subject, and thus shooting is performed. Also, since the shooting state at that time is also a natural shooting state as shown in FIG. 5A, there is no fear of misunderstanding. When the subject is a landscape, the landscape and itself may be photographed together. In this way, it is possible to photograph even a subject that does not have face information. Therefore, the shooting range is not limited. Also, since the photographing state at this time is similar to that in FIG. 5A, there is no fear of misunderstanding.
[0021]
In this embodiment, by using the display 7 as a viewfinder, it is possible to take a picture while checking the subject. Further, since the shutter key 4 is provided on the same surface as the display 7, shooting is easier.
In addition, when “YES” is determined in the step S5 or when the process of the step S7 is completed, it is preferable to notify that the process is completed.
[0022]
Next, a portable terminal according to the second embodiment is shown in FIG. The basic configuration of the second embodiment is the same as that of the first embodiment described above. Therefore, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
As shown in FIG. 4, the second embodiment further includes a face detection unit. This detection unit is a built-in camera 12B. The built-in camera 12B is provided on the inner surface side of the second housing 2B. Therefore, the shooting direction of the built-in camera 12A and the shooting direction (detection direction) of the built-in camera 12B are substantially opposite to each other.
The built-in camera 12B includes an image pickup optical system and an image pickup element, like the built-in camera 12A. In the present embodiment, the same imaging optical system is used for the built-in camera 12A and the built-in camera 12B. This imaging optical system will be described later.
[0023]
Next, a photographing method using the mobile terminal of this embodiment will be described. FIG. 5 is a flowchart showing a flow of processing up to execution and prohibition of photographing. As in the first embodiment, the shooting mode is set (step S1), and the built-in camera 12A is directed toward the subject. In this state, the built-in camera 12B naturally faces the photographer. Shooting starts when the shutter key 4 is pressed.
[0024]
When detecting that the shutter key 4 has been pressed (step S2), the processing unit 13 stores the image data obtained by the built-in camera 12A in the first memory (step S3-1). At the same time, the image data obtained by the built-in camera 12B is stored in the second memory (step S3-2). Subsequently, the processing unit 13 performs face information extraction processing using the stored image data (step S4). Then, based on the result of the image processing, whether or not shooting is performed is determined (step S5).
Here, when face information is extracted, for example, the image data stored in the second memory is stored as it is. Thereafter, the camera returns to a state in which shooting can be performed again, but the shooting mode is ended by performing a predetermined operation with the operation key unit 5 (step S6).
[0025]
On the other hand, when face information is not extracted, the processing unit 13 does not perform shooting. In this case, for example, the image data stored in the first and second memories is deleted (discarded) (step S7). As a result, shooting is not executed. Further, a warning sound is generated (step S8). Thereafter, the camera returns to a state in which shooting can be performed again, but the shooting mode is ended by performing a predetermined operation with the operation key unit 5 (step S6).
[0026]
According to the above configuration, photographing is executed only when face information is included in one of the information output from the built-in camera 12A and the built-in camera 12B.
For example, in the shooting state of FIG. 3C, the subject and the photographer's face cannot be shot. Further, when it is attempted to obtain the face information of the user in the shooting state of FIG. 3C, the shooting state of FIG. 3B is obtained. This will result in an unnatural shooting state. Therefore, as shown in FIG. 3 (b) and FIG. 3 (c), it is possible to prevent photographing from the bottom to the top as often seen in voyeurism. Further, in the shooting state of FIG. 3A, the photographer must face the subject via the built-in camera 12B. Therefore, shooting for the purpose of voyeurism becomes difficult.
[0027]
On the other hand, in shootings not intended for voyeurism, in many cases, a photographer can bring a mobile terminal in front of his / her face. Then, since the face can be detected by the built-in camera 12B, photographing can be performed. In this case, the shooting range is not limited.
In the configuration of the present invention, a built-in camera 12B for a photographer is provided separately from the built-in camera 12A for the subject. Therefore, it is not necessary to photograph the photographer himself in the subject. Therefore, for example, even if the subject is only a landscape, it is possible to shoot. Therefore, the shooting range is further expanded.
[0028]
In the present embodiment, when shooting is not executed (step S7), a warning sound is emitted from the sounder 10. Therefore, the photographer can easily recognize that the photographing has not been executed. Further, since the warning sound can be heard by the surrounding people, there is also an effect of informing the surrounding people.
Further, when shooting is performed, a sound different from the warning sound may be generated. Then, the photographer can recognize that the photographing has been executed.
[0029]
In addition, by using the display 7 as a finder, it is possible to take a picture while checking the subject. At that time, since the shutter key 4 is provided on the same surface as the display 7, photographing becomes easier.
[0030]
As described above, it is preferable that at least one of the two pieces of notification information is notified by the sounder 10. One is information (first notification information) for notifying that photographing cannot be performed. Another one is information (second notification information) for notifying that shooting can be executed or that shooting has been completed.
In the present embodiment, the first notification information is output from the sounder 10 as sound. In this case, as described above, it is possible to make the surrounding people recognize that shooting is being performed or that shooting has been performed. Therefore, it becomes easier to prevent voyeurism. Further, it is assumed that the second notification information is output from the sounder 10 as sound. In this case, the photographer can recognize that the photographing has been completed. Therefore, the photographer can move to the next shooting.
In other embodiments, it is preferable to adopt such a configuration.
[0031]
When two or more pieces of notification information are output, it is preferable that the volume, the sound range, the sound generation time, and the like are different for each piece of notification information. Further, as described later, light or vibration may be used instead of sound. In this case, the intensity and frequency of light and vibration, the light emission time, the vibration time, and the like are preferably made different for each piece of notification information.
[0032]
Next, a portable terminal according to the third embodiment is shown in FIG. The basic configuration of the third embodiment is the same as that of the first embodiment described above. Therefore, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
As shown in FIG. 6, the third embodiment further includes a face detection unit. This detection unit is an ultrasonic transmission / reception unit 14. The ultrasonic transmission / reception unit 14 is provided on the inner surface side of the second casing 2B. Therefore, the imaging direction of the built-in camera 12A and the detection direction (transmission / reception) direction of the ultrasonic transmission / reception unit 14 are substantially opposite to each other.
The ultrasonic transmission / reception unit 14 includes a transmission unit that transmits ultrasonic waves and a reception unit that receives ultrasonic waves. The built-in camera 12A uses an imaging optical system. This imaging optical system will be described later.
[0033]
In the present embodiment, as the processing unit 13, a unit that can perform face information extraction processing at a very high speed is used. Therefore, face information is always extracted from the image displayed on the display element. Therefore, when the shutter key 4 is pressed, execution of shooting can be permitted or prohibited. Note that “always” means real time or time close to real time.
[0034]
Next, a photographing method using the mobile terminal of this embodiment will be described. FIG. 7 is a flowchart showing a flow of processing up to execution and prohibition of photographing. As in the first embodiment, the shooting mode is set (step S1), and the built-in camera 12A is directed toward the subject. In this state, an image obtained by the built-in camera 12A is displayed on the display 7. Therefore, the processing unit 13 extracts face information from the image displayed on the display 7 (step S2). Further, the processing unit 13 extracts face information from the ultrasonic data (step S3). Then, based on the result of the image processing, whether to permit or prohibit photographing is determined (step S4).
[0035]
Here, when face information is extracted, the processing unit 13 performs photographing. In this case, for example, the shutter key 4 can be pressed (step S5). As a result, the photographer can shoot at any time. When the shutter key 4 is pressed, the image data displayed on the display 7 is stored (step S6). As a result, photographing has been executed. Thereafter, the camera returns to a state in which photographing can be performed again, but the photographing mode is ended by performing a predetermined operation with the operation key unit 5 (step S7).
On the other hand, when face information is not extracted, the processing unit 13 does not perform shooting. In this case, for example, the shutter key 4 is prevented from being pressed (step S8). As a result, shooting is not executed. Thereafter, the camera returns to a state in which shooting can be performed again, but the shooting mode is ended by performing a predetermined operation with the operation key unit 5 (step S6).
[0036]
According to said structure, the effect similar to 1st Embodiment or 2nd Embodiment can be acquired.
In step S8, shooting is prohibited by preventing the shutter key 4 from being pressed. Instead, the image data displayed on the display 7 may not be stored even when the photographer presses the shutter key 4. In this case, a warning sound should be generated when “NO” is determined in the step S4.
When “YES” is determined in the step S4, a sound different from the warning sound is emitted. In this way, it is more preferable for the photographer to recognize that the photographing can be performed.
[0037]
In addition, by using the display 7 as a finder, it is possible to take a picture while checking the subject. At that time, since the shutter key 4 is provided on the same surface as the display 7, photographing becomes easier.
[0038]
In this embodiment, when the ultrasonic transmission / reception unit 14 is not provided, only the processing speed of the processing unit 13 is different from that of the first embodiment. Therefore, in this embodiment, the ultrasonic transmission / reception unit 14 may not be provided. Alternatively, in the second embodiment, the ultrasonic transmission / reception unit 14 may be used instead of the built-in camera 12B.
[0039]
The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, in the above embodiment, the display unit is simply a display, but it may be a color liquid crystal display device, a digital micromirror device (DMD), an organic EL display device, or a plasma display panel (PDP). It may be configured.
[0040]
In the above embodiment, the photographing unit is simply a built-in camera, but it may be constituted by a CCD (charge coupled device) or a C-MOS artificial retina IC. Further, when the lens is arranged in a place where there is no thickness such as a cellular phone, it is preferable that the lens configuration is a telephoto type so that the focal length can be made longer than the entire lens length.
[0041]
Next, an imaging optical system used in each embodiment is shown below.
An imaging optical system used in the mobile terminal of the first embodiment is shown in FIG. The imaging optical system includes, in order from the object side, a first lens 21 having a negative refractive power, a second lens 22 having a positive refractive power, an aperture stop 23, a third lens 24 having a positive refractive power, a fourth lens 25, a filter 26, And the image sensor 27. The first lens 21 is a meniscus lens having a concave surface directed toward the object side. The second lens 22 is a meniscus lens having a concave surface directed toward the object side. The third lens 24 is a meniscus lens having a concave surface facing the image side. The fourth lens 25 is a biconvex lens.
The aspheric surface is used for the image side surface of the first lens 21, the image side surface of the second lens 22, and the image side surface of the fourth lens 25.
[0042]
In this imaging optical system, all lenses are made of plastic. Among these, the first lens 21, the third lens 24, and the fourth lens 25 are polyolefin plastic (for example, ZEONEX (registered trademark)), and the second lens 22 is polystyrene-based plastic (for example, styrene (registered trademark)). It is.
The spec of this imaging optical system is that the focal length is f = 1.5 mm and the F number is F. _no = 3.0, wide angle optical system with a total angle of view of 66 °. The total length of the optical system is a very small value of 6.3 mm. The distance to the object is 260 mm.
[0043]

[0044]
Aspherical [1]
Radius of curvature -8.00
k 0.0000e + 000 a -2.1585e-002
Aspherical [2]
Radius of curvature -1.53
k -1.6295e + 000 a -2.4759e-003 b -1.2802e-003
Aspherical [3]
Radius of curvature -1.07
k -2.2926e-001 a 2.2341e-001 b 1.5727e-002
[0045]
An imaging optical system used in the portable terminal of the second embodiment is shown in FIG. The imaging optical system includes, in order from the object side, a first lens 31 having a positive refractive power, an aperture stop 32, a second lens 33 having a negative refractive power, a third lens 34 having a positive refractive power, and an imaging element 35. Yes. This is a so-called triplet optical power arrangement. The first lens 31 is convex toward the object side. The second lens 33 is a meniscus lens having a convex surface on the image side.
The aspheric surfaces are provided on both surfaces of the first lens 31, both surfaces of the second lens 33, and both surfaces of the third lens 34.
[0046]
In this imaging optical system, the first lens 31 is glass, and the second lens 33 and the third lens 34 are plastic. The plastics used are polycarbonate and polyolefin plastics (for example, ZEONEX (registered trademark)), respectively.
The specs of this imaging optical system are that the focal length is f = 4.5 mm and the F number is F. _no = 2.4, a wide angle optical system with a total angle of view of 67 °. The total length of the optical system is a very small value of 6.2 mm. The distance to the object is ∞.
[0047]

[0048]
Aspherical [1]
Curvature radius 1.84
k 4.0305e-001 a 1.0299e-005 b -6.1723e-004
Aspherical [2]
Curvature radius 4.36
k -4.0146e-001 a 8.8825e-003 b 1.8630e-003
Aspherical [3]
Radius of curvature -0.82
k -6.3680e-001 a 1.7662e-001 b -9.4120e-003
Aspherical [4]
Radius of curvature -1.29
k -6.8734e-001 a 3.7877e-002 b 2.7515e-002
Aspherical [5]
Curvature radius 2.53
k -1.1928e + 001 a 3.9115e-003 b -2.2073e-004
Aspherical [6]
Radius of curvature -22.59
k -9.5216e + 003 a -6.1641e-003 b -7.7722e-005
[0049]
An imaging optical system used in the mobile terminal according to the third embodiment is shown in FIG. The imaging optical system includes, in order from the object side, a first lens 41 having a positive refractive power, an aperture stop 42, a second lens 43 having a positive refractive power, a filter 44, and an imaging element 45. The first lens is convex toward the object side. The second lens is convex toward the image side. This imaging optical system has a symmetrical optical power arrangement.
The aspheric surfaces are provided on both surfaces of the first lens 41 and both surfaces of the second lens 43.
[0050]
In this imaging optical system, all lenses are plastic (polyolefin-based plastic (for example, ZEONEX (registered trademark)).
The spec of this imaging optical system is that the focal length is f = 2.4 mm and the F number F is _no = 4.0, wide angle optical system with a total angle of view of 58 °. The total length of the optical system is a very small value of 3.8 mm. The distance to the object is 500 mm. The refractive index and the Abbe number are values at the d-line.
[0051]

[0052]
Aspherical [1]
Curvature radius 0.75
k 3.0035e-001 a -1.4881e-002 b 6.2629e-002
Aspherical [2]
Curvature radius 0.92
k 9.0790e-001 a -5.9363e-003 b 6.2138e-002
Aspherical [3]
Radius of curvature -1.08
k 8.7013e + 000 a -3.2352e-001 b -4.6068e-001
Aspherical [4]
Radius of curvature -0.77
k -2.5880e-002 a 4.3594e-002 b -3.2707e-002
[0053]
In the above numerical example, the unit of curvature radius and surface spacing is mm. E + 003 is 10 ^Three Represents.
In a numerical data table to be described later, r represents a radius of curvature and d represents a surface interval. Further, n represents the refractive index, ν represents the Abbe number, and is a value at the d-line. Each optical path diagram to be described later has r in the numerical data table. _i , D _i Correspondence with is shown.
An aspherical surface is a rotationally symmetric aspherical surface given by the following definition.

However, Z is an optical axis (axial principal ray) with the traveling direction of light as positive, and y is perpendicular to the optical axis. Here, R is a paraxial radius of curvature, k is a conic constant, a, b, c, d,... Are fourth-order, sixth-order, eighth-order, and tenth-order aspherical coefficients, respectively. The Z axis of this defining formula is the axis of a rotationally symmetric aspherical surface. The term relating to the aspherical surface for which no data is described is zero.
[0054]
In the imaging optical system of each embodiment, it is preferable that the following expression (1) is satisfied when the focal length of the imaging optical system is f (mm).
0.5 <f <10.0 ... Formula (1)
When the above conditions are satisfied, the occurrence of aberration in the imaging optical system can be suppressed, and a high-performance imaging unit can be provided. Further, the overall length of the photographing unit can be shortened, and a small photographing unit and a portable terminal can be provided.
[0055]
Also, the F number of the imaging optical system is set to F _no It is preferable that the following formula (2) is satisfied.
1.0 <F _no <6.0 ... Formula (2)
If the above conditions are satisfied, an appropriate light spot diameter can be obtained even if the image sensor is miniaturized, and diffraction blur can be prevented. Moreover, since the imaging optical system does not become extremely dark, there is no need for a new light source. Therefore, an increase in the size of the mobile terminal and an increase in power consumption can be suppressed.
In addition, since the number of lenses does not increase to ensure performance, it is possible to prevent the imaging optical system from becoming large. In addition, since the depth of focus does not become shallow, there is no need for high assembly accuracy in the assembly of the imaging optical system. As a result, it is possible to provide a light-weight, low-cost and small photographing unit and portable terminal.
[0056]
The imaging optical system of each example satisfies the conditions as shown below.

[0057]
Further, in order to make the imaging optical system higher performance and smaller, it is preferable to satisfy the following conditions.
1.0 <f <6.0
Furthermore, in order to achieve high performance and a small size, it is preferable to satisfy the following conditions.
1.2 <f <4.8
[0058]
Further, in order to make the imaging optical system lighter, lower cost, and smaller, it is preferable to satisfy the following conditions.
1.5 <F _no <5.0
Furthermore, it is preferable to satisfy the following conditions in order to reduce weight and size at low cost.
2.0 <F _no <4.5
[0059]
In the above-described embodiment, the face detection unit is adapted to determine whether an unspecified person's face is in front of the mobile terminal. However, the user of the mobile terminal may be identified so that only the registered person can use the mobile terminal.
In the above embodiment, the face detection unit detects the entire face, but it may detect a characteristic part of the face such as the outline of the face and the eyeball position.
Moreover, in the said embodiment, although the face was detected with the ultrasonic wave, you may detect a face with infrared rays.
[0060]
Moreover, in the said embodiment, although the sounder 10 was used as an alerting | reporting unit, it is not limited to this. A light emitting member, for example, LED 3 may also be used as a notification unit. The first notification information and the second notification information can be transmitted using the light emitting member. Further, the mobile phone 1 may be newly provided with an LED or the like as a light emitting member. Further, flash light can also be used as the light emitting member. By emitting the flash light toward the subject, it is possible to notify the person who has become the subject that shooting has been attempted.
In addition, the mobile phone 1 is provided with a vibrator function (vibrating member) for notifying incoming calls. In this case, it may be used as a notification unit. Using this vibrating member, the first notification information and the second notification information can be transmitted. Moreover, you may make it provide a vibration generation member newly as a alerting | reporting unit in a mobile telephone.
[0061]
In the third embodiment, a method has been proposed in which the image data displayed on the display 7 is not stored even when the shutter key 4 is pressed. If this process is performed normally, a photographed image cannot be obtained. However, if the following method is provided, an image cannot be obtained more reliably when photographing is prohibited.
For example, the LEDs are arranged so that light from the LEDs enters the built-in camera. When shooting is prohibited, the LED emits light. If this is done, the image of the subject cannot be obtained because the light from the LED overlaps the light from the subject during shooting.
For example, the vibration generating member is vibrated. If this is done, the image of the subject cannot be obtained because vibration occurs during shooting.
[0062]
Note that the notification by the sound generating member, the light emitting member, and the vibration generating member may be combined according to the application. Even with such a configuration, the same effect as that obtained when the notification unit as in the present embodiment is configured by a sound generating member can be obtained.
[0063]
Moreover, in the said embodiment, the mobile telephone main body was comprised by the rectangular cylinder type folding type. However, a rectangular tubular body or a mobile phone in which two conductors are slidable may be used.
In the above embodiment, a mobile phone with a digital camera function capable of capturing a still image is used, but the present invention may be applied to a mobile phone capable of capturing a moving image.
Moreover, in the said embodiment, although the mobile telephone with a digital camera function was used, you may apply to PHS and a portable information terminal in general, for example.
[0064]
Note that the mobile terminal of the present invention includes a display element that displays an image of an image formed on the image sensor. Thereby, the image obtained by the photographing unit is displayed on the display element in real time. Therefore, when the purpose is not voyeurism, the photographer can take a picture while checking the subject on the display element. As a result, shooting can be performed more easily.
[0065]
In the portable terminal of the present invention, the photographing unit is provided on the surface opposite to the surface on which the display element is provided. Thereby, the display element can be used as a finder. That is, when the purpose is not voyeurism, the photographer can take a picture while checking the subject by the display element. Therefore, photographing can be performed more easily.
[0066]
In the portable terminal of the present invention, the photographing button is provided on the same surface as the display element. Accordingly, since the shooting button is located on the photographer side, camera shake does not occur when shooting.
[0067]
【The invention's effect】
As described above, according to the present invention, when the mobile terminal is not in front of the photographer or the person to be photographed, the image capturing unit prohibits the image capturing, thereby preventing antisocial acts such as voyeurism. Can do. Also, if a face is detected, shooting is performed, so the shooting range is not limited. Furthermore, it is possible to provide a portable terminal that is small and has good operability.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a mobile terminal shown as a first embodiment of the present invention, in which (a) is a perspective view from the inner surface side, and (b) is a perspective view from the outer surface side.
FIG. 2 is a flowchart showing a flow of processing up to execution or prohibition of photographing in the first embodiment of the present invention.
FIGS. 3A and 3B are diagrams showing various shooting states, in which FIG. 3A shows a state of shooting a subject in a horizontal direction, and FIGS. 3B and 3C show a state of shooting a subject in a vertical direction;
4A and 4B are configuration diagrams of a voyeurism-preventing portable terminal shown as a second embodiment of the present invention, in which FIG. 4A is a perspective view from the inner surface side, and FIG. 4B is a perspective view from the outer surface side.
FIG. 5 is a flowchart showing a flow of processing up to execution or prohibition of photographing in the second embodiment of the present invention.
6A and 6B are configuration diagrams of a voyeurism-preventing portable terminal shown as a third embodiment of the present invention, in which FIG. 6A is a perspective view from the inner surface side, and FIG. 6B is a perspective view from the outer surface side.
FIG. 7 is a flowchart showing a flow of processing up to execution or prohibition of photographing in the third embodiment of the present invention.
FIG. 8 is an optical path diagram of a photographing optical system used in the mobile terminal according to the first embodiment of the present invention.
FIG. 9 is an optical path diagram of a photographing optical system used in a mobile terminal according to a second embodiment of the present invention.
FIG. 10 is an optical path diagram of a photographing optical system used in a mobile terminal according to a third embodiment of the present invention.
[Explanation of symbols]
1 Mobile phone (mobile terminal)
4 Shutter key (shooting button)
7 Display (display element)
10 Sounder (notification unit)
12A, 12B Built-in camera (shooting unit, face detection unit)
13 Processing unit
14 Ultrasonic transmission / reception unit (face detection unit)

Claims (13)

An imaging unit having an imaging optical system and an imaging device, and a processing unit that performs processing for detecting subject or photographer face information based on information output from the imaging unit. A portable terminal characterized in that photographing is executed only when it is detected. The face detection unit is provided, and the shooting unit and the face detection unit are arranged so that a shooting direction of the shooting unit and a detection direction of the face detection unit are substantially opposite to each other. The portable terminal described. The portable terminal according to claim 2, wherein the face detection unit includes an imaging optical system and an imaging element. The mobile terminal according to claim 2, wherein the face detection unit includes an oscillation unit that oscillates an ultrasonic wave and a reception unit that receives the ultrasonic wave. A notification unit that notifies at least one of the first notification information and the second notification information is provided, and the first notification information is information that notifies that the photographing cannot be performed, and the second notification information The mobile terminal according to claim 1, wherein the mobile terminal is information notifying that the photographing has been completed. The portable terminal according to claim 5, wherein the notification unit includes a sound generating member that generates a predetermined sound. The portable terminal according to claim 5, wherein the notification unit includes a light emitting member that emits predetermined light. The portable terminal according to claim 5, wherein the notification unit includes a vibration generating member that generates a predetermined vibration. The mobile terminal according to claim 6, wherein the predetermined sound is different between the first notification information and the second notification information. The portable terminal according to claim 7, wherein the predetermined light is different between the first notification information and the second notification information. The portable terminal according to claim 8, wherein the predetermined vibration is different between the first notification information and the second notification information. The portable terminal according to any one of claims 1 to 11, wherein when the focal length of the imaging optical system is f (mm), the following expression (1) is satisfied.
0.5 <f <10.0 ... Formula (1) When the F-number of the imaging optical system and the F _no, the mobile terminal according to any one of claims 1 to 12, characterized by satisfying the equation (2) below.
1.0 <F _no <6.0 ... Formula (2)

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