DE4124927A1 - ONE-PIECE VIDEO CAMERA - Google Patents

Description

The invention relates to a one-piece video camera.

Fig. 10 contains a perspective view of a conventional one-piece video camera obliquely from behind and above, while Fig. 11 contains a perspective view of the same video camera obliquely from the front and above. The video camera 10 has a first microphone 1 for receiving sounds emanating from a subject, a zoom button 3 , a grip belt 4 , a standby switch 5 , a start / stop button 6 , an image finder 7 for monitoring a scene to be recorded and a backlight compensation switch 8 on.

If it is desired to change the flashing angle in the conventional camera, it is necessary for the operator to move a finger within the grip belt and to hold the hand in the video camera and press the zoom button 3 . Be the movement of the operator's finger may have an undesirable movement of the video camera 10 itself.

If it is also desired to pick up an object in front of a light source, the operator must operate the backlight compensation switch 8 with the hand that does not hold the camera 10 . However, since this background light is compensation switch 8 arranged on the side of the video camera, which is opposite to the side on which it is held by the operator, it is possible that the operator sets up the eyes on this switch. 8 This means that the operator turns his face away from the viewfinder 7 so that the recorded scene is not monitored by the operator.

The operator's voice is picked up by the microphone 1 and recorded on a recording tape. In particular, if the sensitivity of the microphone 1 is increased because the distance between the video camera and the object is large, the operator's voice is recorded at an increased recording level without the voice being appropriately recorded by the object.

Furthermore, noises from the inner drive motors of the video camera 10 such as the capstan motor, the rotary drum motor, the zoom drive motor and others are also recorded. It is therefore difficult to improve the signal-to-noise ratio in the voice signals.

To prevent the video camera from being unintentionally is moved when a zoom operation or a back basic light compensation are to be carried out, the video camera may be desirable control the operator's voice. However the other problem that the the operating mode of the video camera controlling voice of Operator annoying when playing on the Ear works.

To overcome these problems, it's the job of the present invention, an improved videoka to create mera in which the voice of the operator person with such a level on a Ma gnetband is recorded that they at a how this is disruptive. It is still the job the invention to provide a video camera in which unwanted movements can be avoided by using the Operating mode of the video camera through the voice of the operator servant is controlled, this voice but not at such a level on a measure gnetband is recorded that when playing is an obstacle.

This object is achieved by the each in the characterizing part of claims 1, 10 and 16 specified features. Advantageous training Solutions of the video camera according to the invention result from the respective subclaims.

The video camera according to the invention comprises:

• A) a first microphone on an object or a person is directed to receive one from this or this outgoing sound or  Voice and its conversion into a first sound signal;
• B) a second microphone on an operating is directed to receiving the voice of the Operator and to convert them into one second sound signal;
• C) a subtraction device for subtracting the second sound signal from the first sound signal to the picture formation of a differential output signal;
• D) an optical system for recording the image of the Object or person; and
• E) a recording device for recording the differential output signal and the image.

Such an arrangement can prevent the Voice of the operator is recorded, or the operator's voice can go down so far put that they do not interfere with the ear represents.

The subtraction device can be from an Opera tion amplifier exist. This can be the first tone signal at the non-inverting input and the second Record the audio signal at the inverting input. Consequently occurs at the output of the operational amplifier strengthened signal that the difference between the represents the first and the second sound signal. This amplified signal can be used as a differential signal be used. In other words, generation the differential signal can be easily by any ge own means are realized, which is currently the State of the art belongs.

A switch is preferably provided, which either the the first or the second sound signal for delivery  to the recording device. So that is it is also possible to have the operator's voice on to draw. So the video camera is in its groove opportunities improved.

To continue to improve the Her set the level at which the operator's voice is recorded before, is to be achieved partially provided a frequency filter so that Frequency characteristics and the level of the second tone signals correspond to those of the first sound signal.

Taking into account the for the spread of the Voice required time can be another verb change regarding the level reduction, with which the operator's voice is recorded, can be achieved by a delay to compensa tion of a difference between the time required is used to spread the sound or the voice between the first microphone and the object or the person and the time required to Voice transmission between the second microphone and the operator is provided.

Voice recognition can also be carried out will. More specifically, the second microphone, the was used to record the voice coming from the first sound signal is cut out, who uses to different sections in the video camera Taxes. In such a case, one will vote identification device used, such that this decides whether the second sound signal is a certain one Represents word or not. If the second tone corresponds to this word, gives the voice recognition device operating according to this word  art command signal off. The operating mode command signal is led to a control device that the on drawing device and / or the optical system in Controls depending on the operating mode command signal.

It is further preferred that the second microphone also various mechanical vibrations in the Video camera in addition to the operator's voice son records. Thus, the adverse influence me mechanical vibrations on the recording process be reduced.

The present invention also relates to a video koka mera, which includes:

• A) a first microphone on an object or a person is directed to receive one from this or this outgoing sound or Voice and its conversion into a first sound signal;
• B) a second microphone on an operating is directed to receiving the voice of the Operator and to convert them into one second sound signal;
• C) a first detection circuit for detecting the Envelope of the first sound signal;
• D) a second detection circuit for detection the envelope of the second tone signal;
• E) a subtraction device for subtracting the Output signal of the second detection circuit from the output signal of the first detection scarf device for issuing a gain control gnals;
• F) a gain control circuit for control the level of the first sound signal depending on Gain control signal;  
• G) an optical system for recording the image of the Object or person; and
• H) a recording device for recording the first sound signal and the image of the counter status or the person whose level is determined by the Gain control circuit was controlled on a magnetic recording medium.

With such an arrangement, the subtraction can direction through a general circuit component, which forms an operational amplifier will. Especially if the non-inverting Input of the subtraction device the output si gnal of the first detection circuit and the invertie rende input the output signal of the second Erfas received circuit, is the output signal of Operational amplifier an amplified signal that the Difference between the output signals of the first and the second detection circuit. This Signal can be used as a gain control signal be det.

In addition to the subtraction device, the ver gain control circuit from an operational amplifier ker exist that records the first sound signal and reinforced. Furthermore, the gain control scarf tion have a function that the level of the first Sound signal regulated. Such a function can can be obtained by using a feedback resistor is provided, the resistance value of the size of the gain control signal.

It is also advantageous to use a switch to determine whether the operator's voice son is recorded or not. In one  In this case, however, this switch has a function causes the recording device to cause the first Receives sound signal, either when it amplifies has passed through control circuit or if it has not gone through this

In addition, this arrangement can control operation feature that include voice recognition in used with respect to the second tone signal. This can can be realized by the aforementioned arrangement.

The invention further relates to a one-piece Video camera, which includes:

• A) an optical system for taking the picture an object or a person;
• B) a first microphone on the object or the person is directed to receive one of this or that outgoing tone or voice and to convert it into a he first sound signal;
• C) a second microphone on an operating is directed to receiving the voice of the Operator and any mechanical Vibration in the video camera and for conversion the voice and the mechanical vibration in a second sound signal;
• D) a differential amplifier for subtracting the second tone signal from the first tone signal to the off giving an amplified difference signal as well for summing the first and the second tone gnals for the output of an increased sum gnals;
• E) a recording device for recording the difference signal and the image on one magnetic recording medium;  
• F) a voice recognition device for recognition of the sum signal as voice and for output corresponding to an operating mode command signal a certain word when the sum signal represents this word; and
• G) a control device for controlling the on drawing device and the optical system depending on the value of the operating mode command si gnals.

This arrangement is characterized by the up drawing the difference signal and controlling the different functional sections depending on Sum signal. This arrangement is optimized according to the Basic concept of the invention, such that everyone un wanted sound like the operator's voice and other noise from the Tonsi to be recorded gnalen can be eliminated, and that the one-piece ge video camera is simple and easy to use by using voice recognition. Therefore can the functions and advantages of the invention by this simplified arrangement can be obtained.

The voice recognition system can be implemented as follows become: It includes a plurality of analog data genes rators, each of which filters a sum signal and rectified to create a channel of analog data testify. The channels of analog data are then in nested in a multiplexer. The nested Analog data are converted by an A / D converter in Digi valley data converted. After that, through a mic computer related to a word data store provides in which predetermined words are stored. Information can thus be obtained through this reference can be obtained through a necessary word that is in the  Word data storage is saved. The microcomputer judges whether the digital data is in the word data word stored in memory. If this the case is, the microcomputer gives this word corresponding operating mode command signal.

The invention is described in the following in the Figures illustrated embodiments closer explained. It shows

Fig. 1 is a block diagram of a first example of execution from a one-piece video camera according to the invention,

Fig. 2 is a perspective view of the outer shape of the video camera according to the first embodiment,

Fig. 3 is a block diagram of a second example of execution from a one-piece video camera according to the invention,

Fig. 4 is a block diagram of a third example of a one-piece guide from video camera according to the invention,

Fig. 5 is a block diagram showing a fourth example of execution from a one-piece video camera according to the invention,

Fig. 6 is a block diagram showing a fifth example of execution from a one-piece video camera according to the invention,

Fig. 7 is a block diagram of a sixth embodiment of a einstücki gen video camera according to the invention,

Fig. 8 is a block diagram of a seventh embodiment of a einstücki gen video camera according to the invention,

Figure 9 is an illustration of the arrangement and the operation of detection system of the guide, for example at the seventh Off Voice used.,

Fig. 10 is a perspective view of the outer shape of the known one-piece video camera, and

Fig. 11 is a perspective view of the outer shape of another known one-piece video camera.

In Figs. 1 and 2, a video camera 110 is shown that includes a second microphone 102, which has a narrow directional beam, and is arranged so that it is located adjacent to the mouth of the operator, if this looks into the viewfinder 107th The video camera 110 also has a frequency filter 150 with such a filter characteristic that after the operator's voice signal picked up by the second microphone 102 has passed the frequency filter 150 , the frequency characteristic and the level of this voice signal are equal to those of the signal caused by the the operator's voice is picked up by a first microphone 101 . The properties of the frequency filter 150 depend on various factors such as the structure of the video camera 110 itself, the directional properties of the first and second microphones 101 , 102 and the like.

The video camera 110 further includes an operational amplifier 120 through which the output sound signal of the frequency filter 150 is subtracted from the sound signal picked up by the first microphone 101 . Thus, the output sound signal of the operational amplifier 120 is a new sound signal with a difference component in which the operator's voice is lowered. Therefore, the new sound signal is not recorded at such a level that it is a nuisance to the ear during playback.

The video camera also includes a switch 109 for selecting the output sound signal of either the operational amplifier 120 or the first microphone 101 , which is fed to a recording device 111 . By operating the switch 109 , the operator's voice can therefore be selectively cut out.

According to the first embodiment, the operator's voice is not recorded to a significant extent if the switch 109 is flipped so that it is present at the terminal a. On the other hand, when the switch 109 is applied to the other terminal b, the operator's voice can be recorded by the recording device 111 .

Fig. 3 shows a block diagram of the internal circuit device according to the second embodiment of the inven tion, which corresponds to that in Fig. 1 with the exception that a delay element 245 is inserted between the second microphone 202 and the frequency filter 250 . The delay element 245 serves to compensate for a time delay between the signals of the first and the second microphone 201 , 202 generated by the operator's voice. This time delay depends on the positional relationship between the first and second microphones 201 , 202 . The delay element can have any suitable configuration, for example that of a BBD element (bucket chain memory), a CCD element (charge-coupled element), a glass delay line or the like.

In FIG. 4, a block diagram is shown that illustrates a third embodiment of the invention. This circuit has two envelope detection circuits 346 and 347 which detect the envelopes of the output sound signals of the first and second microphones 301 , 302 . The circuit also includes an operational amplifier 348 for comparing the output signals of the first and second microphones with each other after the envelopes of these output signals have been detected. If there is a difference between the output levels of the first and second microphones 301 , 302 , then the output voltage of the operational amplifier 348 is high.

In the video camera there is also an amplification control circuit 349 for controlling the amplification at the output of the first microphone 301 by the output voltage of the operational amplifier 348 . When the output of the second microphone 302 generated by the operator's voice is high, the output of the operational amplifier 348 also becomes high. This leads to a reduction in the output gain of the first microphone 301 , so that the operator's voice is recorded at a reduced level.

In the fourth embodiment according to FIG. 5, a video camera uses a voice recognition system 430 , which has a sound analyzer 431 , a voice recognition microcomputer 432 , which also functions as a processor, and a word memory 433 , almost all of which are designed as integrated circuits. The voice recognition system 430 receives the output sound signal of the second microphone 402 and responds to every word spoken by the operator to give a high signal level to an output. For example, if the word spoken by the operator is "record", "stop", "zoom" or "backlight compensation", each of these words is suitable, the corresponding one of the outputs 1 , 2 , 3 or 4 of the voice recognition system 430 to the to set a high signal level. When these outputs are connected to corresponding inputs of a mode control microcomputer 414 to control different modes of operation of the one-piece video camera, a sequencer circuit 412 in the video camera receives the same sequence signal from the voice recognition system 430 as by operating one of different switches for "signs""," Zoom up "and so on is generated at any point in time at which the respective word mentioned is spoken by the operator. In this way, the operating mode of the video camera can be controlled by the operator's voice.

Although the previous embodiments point to visible a reduction in the operating mode be described the operator's tuning voice the same arrangement can be used for abatement the mechanical vibration noises from the drive practice in the video camera without interference the record will be used.

Although in the described embodiments Only two microphones can be provided more than two microphones to improve accuracy be used in the recording. About that In addition, the second microphone can be wired nes or wireless microphone be formed, the arranged from the video camera and suitable is the video camera by the voice of the operator remote control person.

Fig. 6 shows a block diagram of a circuit according to the fifth embodiment of the invention, which differs from the circuit of FIG. 5 only in that a delay element 545 is connected between a second microphone 502 and a frequency filter 550 . This delay element 545 has the function and the advantages corresponding to that in FIG. 3.

Fig. 7 is a block diagram of a circuit according to the sixth embodiment of the invention, which has a voice recognition system 630 , a mode control microcomputer 614 and a sequence control circuit 612 , all of which correspond to those in Fig. 5, which correspond to the third embodiment in Fig . 4 are added. In addition to the operations described with reference to FIG. 4, the sixth embodiment operates as shown in FIG. 5.

Fig. 8 is a block diagram illustrating the seventh embodiment of the invention and Fig. 9 shows the circuit and the function of the voice recognition system according to the seventh embodiment. According to Fig. 8 and 9, the Videoka ra a lens system 713, a two-stage Diffe rentialverstärker 740 to output the sum and the difference of the output audio signals of the first and second microphones 701, 702, microphone amplifier 741 and 742, a bandpass filter 743 and a Amplifiers 744 , all of which are located within the housing of the Videoka mera 710 .

The operation of the seventh embodiment is explained below.

In the arrangement according to FIG. 8, the first microphone 701 has a relatively high sensitivity and a rela tively wide-beam alignment, so that a voice can be received by a person from a relatively wide range. On the other hand, the second microphone 702 has a relatively low sensitivity and a narrow beam orientation. Thus, the second microphone 702 does not receive that person's voice. Sound signals received by the first microphone 701 are amplified by the first microphone amplifier 741 and then fed to the transistor TR _{1 of} the two-stage differential amplifier 740 . The differential gain of the differential amplifier 740 is:

G _DIP = (R ₃ / R ₂ ) (R ₆ / 2R ₅ ).

The sound signal is recorded together with an image signal from the lens system 713 in a recording device 711 on a video tape. At the same time, noises from various drives such as the drum motor in the recording device 711 and several motors in the lens system 713 for zooming, focusing, iris setting and others are received together by the first and second microphones 701 , 702 . These noises are thus suppressed by the difference formation in the differential amplifier 740 . Only the sound signal based on the person's voice is recorded on the video tape with a favorable signal-to-noise ratio.

Even if a general conversation takes place between the operator and the person to be recorded, for example instructions from the operator to the position of the person to be recorded, this is not recorded on the video tape since it is recorded simultaneously by the first and second microphones 701 , 702 .

The voice recognition system 730 according to the seventh embodiment works as follows: The word memory 733 in the voice recognition system 730 has stored about ten words which are used to control the video camera, such as "record", "pause", "zoom up", "zoom down", "background" light "," stop "and others.

If the operator whispers "record" near the microphone 702 while looking into the viewfinder 707 , then the voice signal is received by the microphone 702 and amplified by the microphone amplifier 742 , and the amplified sound signal becomes the transistor TR _{2 of} the two-stage differential amplifier 740 fed. The differential gain of the two-stage differential amplifier 740 is represented by:

G _COM = R ₄ / R ₁ + (R _2/2).

Thus, the audio signal is amplified by amplifier 740 by this factor before being output. The sum component is supplied to the voice recognition system 730 via the bandpass filter 743 and the voice amplifier 744 by identifying the content of the audio signal.

The voice recognition system 730 shown in Fig. 9 uses the multiple similarity accumulation process in which an original sound input through the amplifier 744 is converted into analog data by a plurality of channels (seven in Fig. 9) each having a band pass filter and a full wave rectifier becomes. The analog data is converted into digital data by a multiplexer and an A / D converter. In a microcomputer 732 , the digitized signal data is compared to word data containing about ten registered words. If a word corresponding to the digitized data is present in the word data, an I / O signal is generated. This sequence signal is fed to the sequence control device 712 in FIG. 8, which in turn controls the video camera 710 in the specific operating mode.

At this time, it is natural that the operating mode of the video camera controlling the operator's voice is slightly picked up by the first microphone 701 . However, this is compensated for in the two-stage differential amplifier 740 . As a result, the operator's voice does not appear in the difference component and is not recorded on the video tape.

That is the multiple similarity accumulation process Using voice recognition system is suitable for the recognition of voices by indefinite people. The present invention is not limited to this, but can be applied to other suitable processes be like the linear comparison process or the like chen. Furthermore, the voice recognition system can be suitable only the voice of a certain person to recognize, so that the reliability is increased.

It is desirable that the first and second microphones 701 , 702 are arranged to face each other directly. It is also desirable that the second microphone 702 be near the operator's mouth when looking into the viewfinder 707 .

In addition, the second microphone 702 may be of the wadden needle type, which is separate from the housing of the video camera 710 .

In this way, the recording of the voice of the Operator prevented or reduced in level be provided by providing a video camera which a first microphone for receiving each of a Ge subject or a person coming sound, one two Microphone for receiving an operator's voice person, an operational amplifier for subtraction the output sound signal of the second microphone from Output sound signal of the first microphone and a pre direction for recording the output sound signal of the Has operational amplifier on a video tape.  

The elimination or reduction of the record the level of the operator's voice can be achieved equally by a video camera is provided, which in addition to the first and second microphone comprises: an envelope detector for Detection of the envelopes of the output signals of the er and second microphones, an operational amplifier ker to compare the output levels of the first and second microphone after passing the envelope detector, a gain control circuit based on the output signal of the operational amplifier talks about changing the gain in the first mic fon and a device for recording the off output signal of the first microphone on a video tied after it through the gain control scarf tion was regulated.

In addition to the above components the video camera according to the present invention Voice recognition system for recognizing the content Operating mode command voice signal from the two microphone was recorded. The voice recognition system speaks to the recognized content of the Be mode command voice signal to the operating to control the type of video camera. Therefore, the Video camera no manipulation using the fingers the operator. This can make an unwanted Movement of the video camera can be avoided.

Claims (17)

1. One-piece video camera, characterized by
a first microphone ( 101 ) with an orientation towards a subject, which is suitable for receiving a tone emanating from the subject and for converting this tone into a first output tone signal,
a second microphone ( 102 ) oriented towards an operator, which is suitable for receiving the operator's voice and for converting this voice into a second output tone signal,
a subtraction device ( 120 ) for subtracting the second output sound signal from the first output sound signal to form a differential output signal,
an optical system for taking the image of the subject, and
a recording device ( 111 ) for recording the difference signal and the image. 2. Video camera according to claim 1, characterized in that the subtraction device is an operational amplifier ( 120 ), at the non-inverting input of the first sound signal and at the inverting input of the second sound signal are applied, and which is suitable for a differential output signal by amplification to form a difference between the first and the second sound signal. 3. Video camera according to claim 1, characterized in that a switch ( 109 ) is seen before to select either the difference signal or the first sound signal for the guide to the recording device ( 111 ). 4. Video camera according to claim 1, characterized in that a frequency filter ( 150 ) is hen vorgese to match the frequency characteristic and the level of the second sound signal to those of the first sound signal. 5. Video camera according to claim 1, characterized in that a delay element ( 245 ) is seen before to delay the second Tonsi gnals, so that a difference between the time it takes to transmit the sound between the most microphone ( 201 ) and it Subject is required, and the time required to transmit the voice between the second microphone ( 202 ) and the operator is compensated. 6. Video camera according to claim 1, characterized in that a voice recognition device ( 430 ) for recognizing the second sound signal as a voice and for outputting an operating mode command signal which speaks a given word ent which can be represented by the second sound signal, and control means ( 414 , 412 ) responsive to the mode command signal for controlling the recording means ( 111 ) are provided. 7. Video camera according to claim 1, characterized in that a voice recognition device ( 430 ) for recognizing the second sound signal as a voice and for outputting an operating mode command signal corresponding to a predetermined value which can be represented by the second sound signal, and a controller ( 414 , 412 ) responsive to the mode command signal for controlling the optical system is provided. 8. Video camera according to claim 1, characterized records that the second sound signal mechanical Contains vibrations within the videoka mera were created. 9. Video camera according to claim 7, characterized in that a delay element ( 545 ) is seen before to delay the second Tonsi gnals, so that a difference between the time it takes for the transmission of the sound between the most microphone ( 501 ) and it Subject is required, and the time required to transmit the voice between the second microphone ( 502 ) and the operator is compensated. 10. One-piece video camera, characterized by a first microphone ( 301 ) with an orientation towards a subject, which is suitable for receiving a sound emanating from the subject and for converting this sound into a first sound signal, a second microphone ( 302 ) with an orientation an operator who is capable of receiving the operator's voice and converting that voice into a second output tone signal,
a first envelope detection circuit ( 346 ) for detecting the envelope of the first sound signal,
a second envelope detection circuit ( 347 ) for detecting the envelope of the second sound signal,
a subtractor ( 348 ) for subtracting the output of the second envelope detection circuit ( 347 ) from the output of the first envelope detection circuit ( 346 ) to output a gain control signal,
a gain control circuit ( 349 ) for controlling the level of the first sound signal depending on the gain control signal,
an optical system for taking the image of the subject, and
a recording device for recording the first sound signal and the image of the subject whose level has been controlled by the gain control device on a magnetic recording medium. 11. Video camera according to claim 10, characterized in that the subtraction device is an operational amplifier, at whose non-inverting input the output signal of the first envelope detection circuit ( 346 ) and at the sen inverting input, the output signal of the second envelope detection circuit ( 347 ) and which is suitable for forming the gain control signal at the output by amplifying the difference between the output signals of the first and second envelope detection circuits ( 346 , 347 ). 12. Video camera according to claim 10, characterized in that the gain control circuit ( 349 ) contains an operational amplifier for receiving and amplifying the first audio signal and a feedback resistor, the resistance value of which can be changed as a function of the gain control signal for adjusting the gain of the operational amplifier. 13. Video camera according to claim 10, characterized records that a switch is provided for Selection of the first sound signal after the Gain control circuit has happened, or of the first sound signal without the ampl control circuit has happened for the Zu guide to the recorder. 14. Video camera according to claim 10, characterized in that a voice recognition device ( 630 ) for recognizing the second sound signal as a voice and for outputting an operating mode command signal which speaks a given word ent which can be represented by the second sound signal, and a controller ( 614 , 612 ) responsive to the mode command signal for controlling the recording device ( 111 ) are provided. 15. Video camera according to claim 10, characterized in that a voice recognition device ( 630 ) for recognizing the second sound signal as a voice and for outputting an operating mode command signal which speaks a given word ent which can be represented by the second sound signal, and a controller ( 614, 612 ) responsive to the mode command signal for controlling the optical system is provided. 16. One-piece video camera, characterized by an optical system ( 713 ) for recording the image of a subject,
a first microphone ( 741 ) with an orientation towards the subject, which is suitable for receiving a tone emanating from the subject and for converting this tone into a first output tone signal,
a second microphone ( 742 ) with an orientation towards an operator, which is suitable for receiving the operator's voice and depending on the mechanical vibration in the video camera and for converting this voice and the mechanical vibration into a second output sound signal,
a differential amplifier ( 740 ) for subtracting the second sound signal from the first sound signal for outputting an amplified difference signal and for summing the first and second sound signals for outputting an amplified sum signal,
a recording device ( 711 ) for recording the difference signal and the image on a magnetic recording medium,
a voice recognition device ( 730 ) for recognizing the sum signal as a voice and for outputting an operating mode command signal corresponding to a predetermined word when the sum signal represents this word, and
a control device ( 712 ) for controlling the recording device ( 711 ) and the optical system ( 713 ) depending on the operating mode command signal. 17. Video camera according to claim 16, characterized in that the voice recognition device ( 730 ) comprises:
several analog data generation channels for filtering and rectifying the sum signal,
a multiplexer for interleaving the analog data,
an analog / digital converter for converting the nested analog data into digital data,
a word store ( 733 ) for previously storing a given number of words, and
a microcomputer ( 732 ) for judging whether or not the digital data match a word stored in the word memory ( 733 ) and for outputting an operation mode command signal corresponding to that word when matched.