JP3998360B2 - Telephone device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a call device connected to a wired communication network and a wireless communication network, and more particularly to a call device that makes a call by locating the voice of a call partner in a three-dimensional sound field.
[0002]
[Prior art]
Hereinafter, a conventional communication device will be described. For example, Japanese Patent Laid-Open No. 9-178833 “Terminal Device” is a document relating to a conventional telephone device. Hereinafter, for convenience of explanation, this terminal device is referred to as a call device.
[0003]
FIG. 7 shows a part of the communication device 29 which is the above-described conventional communication device, specifically, a cellular phone or a PHS (Personal Handy-phone System). In FIG. 7, reference numeral 25 denotes a communication unit that transmits and receives information necessary for making a call via a wireless communication network, and reference numeral 26 denotes a GPS (Global Positioning System), a VICS (Vehicle Information and Communication System), or a PHS base station. The other party position detecting unit detects the position of the other party by the information and detects the moving direction by the compass. 27 is an information display unit for displaying a map including the current position of the other party, that is, LCD, 28 is from the other party. Is a sound output unit that outputs the sound of, that is, a monaural speaker.
[0004]
In the conventional communication device (communication device 29) including such a configuration, the communication unit 25 and the partner position detection unit 26 detect the position of the other party and the moving direction, and display the map on the LCD 27. To inform the user of the location of the other party. More specifically, for example, when a call is made / received by the communication unit 25 during a call and a communication service is established, the partner position detection unit 26 is based on information from the GPS, VICS, or PHS public communication system. To detect the location of the other party. Further, the moving direction of the other party is detected by a compass magnet provided in the telephone 29.
[0005]
Next, information related to the location of the other party detected by the other party location detection unit 26 is sent to the LCD 27. The LCD 27 performs a display process using a map to inform the terminal user of the location of the other party. At this time, the voice from the other party is sent to the monaural speaker 28 and is in a state where a call can be made.
[0006]
As described above, the conventional communication device detects the position of the other party on the basis of information from the GPS, VICS, or PHS base station.
[0007]
[Problems to be solved by the invention]
However, in the above-described conventional call device, it is necessary to provide a display screen such as an LCD in order to know the position of the other party, and it becomes difficult to realize a small size, light weight, low price, and low power consumption. There was a problem. In addition, in order for the user to check the location of the other party, it is necessary to stop and check the map each time, which is very inconvenient.
[0008]
The present invention has been made in view of the above, and realizes a reduction in size, weight, price, and power consumption, and knows the direction of the other party without looking at a display screen such as an LCD. An object is to obtain a communication device that can be used.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the object, the call device according to the present invention is configured to be connected to a wired communication network and a wireless communication network, and the voice from the other party and the user's own voice. The communication means (corresponding to the communication unit 1 of the embodiment described later) and the other party's monaural sound received by the communication means are processed to generate stereo sound, and the other party's voice is three-dimensionally Sound image localization means (corresponding to the sound image localization unit 3) that is localized in the sound field, and sound field reproduction means (sound image reproduction) that reproduces the voice of the other party, which is a stereo sound localized by the sound image localization means, into a three-dimensional sound field. Equivalent to part 4).
[0010]
According to the present invention, since the other party's voice is localized and reproduced in a three-dimensional sound field, there is no need to provide a display screen such as an LCD in order to know the direction of the other party. For the same reason, it is not necessary for the user to stop and check the map each time in order to check the direction of the other party. Thereby, it is possible to realize a reduction in size and weight, a reduction in price, and a reduction in power consumption, and to know the direction of the other party without looking at a display screen such as an LCD.
[0011]
In the communication device according to the next invention, the azimuth angle sensor (corresponding to the azimuth angle sensor 5 of the embodiment described later) for recognizing the user's own direction and the azimuth angle sensor Relative direction detection means (in the first determination unit 2A) that detects the direction of the call partner from its own direction and the telephone number of the call partner notified to the communication means via the communication (wireless and wired) network. The sound image localization means localizes the voice of the other party in a three-dimensional sound field based on the direction detected by the relative direction detection means.
[0012]
According to the present invention, the call device can easily recognize the orientation of the user's own face, and in addition to this, using the telephone number of the call partner that can be received conventionally, and the user's own location information, Recognize the relative direction of the other party. As a result, the voice of the other party can be localized and reproduced in the relative direction recognized by the call device.
[0013]
In the call device according to the next invention, the provider type used by the call partner is detected from the information related to the provider notified to the communication means via the communication (wireless and wired) network, and predetermined for each provider type. Provider detection means (corresponding to a second determination unit 2B in an embodiment to be described later) for determining one direction from the determined directions. The sound image localization means is determined by the provider detection means. Based on the determined direction, the voice of the other party is localized in a three-dimensional sound field.
[0014]
According to the present invention, the call device can easily recognize the provider used by the call partner. Further, if direction information individually corresponding to a plurality of providers is set as internal information in advance, one direction to be determined by the call device can be easily determined during a call. As a result, the voice of the call partner can be associated with the provider used by the call partner, and the sound can be reproduced while being localized in the direction recognized by the call device.
[0015]
In the call device according to the next invention, from the information related to the call time notified from the communication means, the elapse of the call time with the call partner is detected, and the direction determined in advance every predetermined time, A call time detecting means for determining one direction (corresponding to a third determining unit 2C in the embodiment described later), and the sound image localization means based on the direction determined by the call time detecting means, The voice of the other party is localized in a three-dimensional sound field.
[0016]
According to the present invention, the call device can easily recognize the elapse of the call time with the call partner. Also, if direction information is set as internal information at predetermined time intervals in advance, it is possible to easily determine one direction to be determined by the call device during a call. As a result, the voice of the other party can be associated with the call time, and the voice can be reproduced while being localized in the direction recognized by the call device.
[0017]
In the call device according to the next invention, from the information on the call charge notified from the communication means, the progress of the call charge with the call partner is detected, and from the direction determined in advance for each predetermined charge, A call charge detecting means for determining one direction (corresponding to a fourth determining unit 2D in the embodiment described later), and the sound image localization means based on the direction determined by the call charge detecting means, The voice of the other party is localized in a three-dimensional sound field.
[0018]
According to the present invention, the call device can easily recognize a call charge for a call with a call partner. Further, if direction information is set as internal information for each predetermined fee in advance, one direction to be determined by the call device can be easily determined during a call. As a result, the voice of the other party can be associated with the call charge, and the voice can be reproduced while being localized in the direction recognized by the call device.
[0019]
In the call device according to the next invention, the call partner is determined from the phone number of the call partner notified to the communication means via the communication (wireless and wired) network, and further determined in advance for each call partner. A call partner discriminating means (corresponding to a fifth decision unit 2E in an embodiment to be described later) for determining a direction corresponding to the call partner from the current direction. In the sound image localization means, the call partner discrimination means The other party's voice is localized in a three-dimensional sound field based on the direction determined by the means.
[0020]
According to the present invention, the call device can easily determine the call partner using the phone number of the call partner that can be received conventionally. Further, if the direction information is previously set for each call partner as the internal information, it is possible to easily determine one direction to be determined by the call device during a call. As a result, it is possible to reproduce the voice of a specific call partner by localization in the direction recognized by the call device.
[0021]
In the communication device according to the next invention, the predetermined directions are four directions of front, rear, left and right.
[0022]
According to the present invention, it is possible to know the providers of four companies, four time zones, four charge zones, or four other parties by voice from each direction. As long as the user's direction can be recognized, the information may be associated with, for example, 8 directions, 16 directions,.
[0023]
In the call device according to the next invention, the stereo sound reproduced in the three-dimensional sound field by the sound field reproducing means can be heard by the user via the earphone or the headphones.
[0024]
According to the present invention, various kinds of information can be recognized by voice, and there is no need to provide a display screen such as an LCD. As a result, it is possible to reduce the size and weight of the communication device, reduce the price, and reduce the power consumption.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a communication device according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.
[0026]
FIG. 1 shows an embodiment of a communication device according to the present invention, that is, a configuration of a communication device 6. In FIG. 1, 1 receives the voice of the other party and information necessary for making a call via a wired communication network (general telephone) and a wireless communication network (PHS / mobile phone), and the user's own voice. 2 is a voice direction determination unit that determines a direction in which sound is heard, that is, a direction in which a sound image is localized, based on various information from the communication unit 1, and 3 is a communication unit that transmits other information. A sound image localization unit that executes a head-related transfer function for stereo earphones or headphones so that the voice can be heard from the direction determined by the voice direction determination unit 2 and localizes the voice of the other party in a three-dimensional sound field. Reference numeral 4 denotes a sound image reproduction unit that reproduces a stereophonic sound of a communication partner localized by the sound image localization unit 3 in a three-dimensional sound field, that is, stereo earphones or headphones. Its direction, i.e., an azimuth sensor for recognizing the orientation of the face. Hereinafter, for convenience of explanation, a case where headphones are used as the sound image reproduction unit 4 will be described.
[0027]
In the communication device 6 configured as described above, the head image transfer function for headphones is executed by the sound image localization unit 3, that is, the monaural sound received from the communication partner received by the communication unit 1 is converted into the audio direction determination unit. Based on the direction determined in 2, the sound is converted into stereo sound, and the other party's sound is localized in a three-dimensional sound field. Then, the stereo sound is reproduced by the headphones 4. This means that it is not necessary to provide a display screen such as an LCD in order to know the direction of the other party. Therefore, unlike the prior art, it is not necessary for the user to stop each time in order to confirm the direction of the other party and to check the map displayed on the LCD.
[0028]
As described above, according to the present invention, since a display screen such as an LCD is not required, it is possible to realize a reduction in size and weight, a reduction in price, and a reduction in power consumption as compared with a conventional communication device.
[0029]
In the following, a method for converting monaural sound from a call partner to stereo sound based on the direction determined by the sound direction determination unit 2 and localizing the sound of the call partner to a three-dimensional sound field will be specifically described with reference to the drawings. explain.
[0030]
FIG. 2 is a diagram showing a first method for localizing the voice of the other party in the three-dimensional sound field. As shown in FIG. 1, the telephone 6 that executes this method is configured to include the first determination unit 2A in the voice direction determination unit 2, and based on information from the azimuth angle sensor 5 and the communication unit 1. To determine the direction in which the sound image should be localized.
[0031]
First, the communication device 6 establishes communication with the other party on the network by processing the outgoing or incoming call in the communication unit 1. At this time, the communication unit 1 detects information such as an area code (hereinafter referred to as first information) from the telephone number of the other party notified through the network, and uses the first determination unit. 2A is notified. In addition, the azimuth sensor 5 detects the current user's face orientation (hereinafter referred to as second information) and notifies the first determination unit 2A of it as needed. On the other hand, the user operates the telephone 6 and inputs his / her position (hereinafter, third information).
[0032]
In this state, the first determination unit 2A calculates and determines the relative direction of the call partner based on the first, second, and third information. Thereafter, the relative direction is notified to the sound image localization unit 3, and the sound image localization unit 3 executes a head-related transfer function for headphones, that is, based on the direction determined by the second determination unit 2A. The monaural sound received from the communication partner received by the communication unit 1 is converted into stereo sound (represented by left ear sound and right ear sound because the headphones 4 are used here), and the other party's sound is converted into a three-dimensional sound. Localize in place.
[0033]
Finally, the headphones 4 that have received the stereo sound generated by the sound image localization unit 3 reproduce the sound in a three-dimensional sound field. As a result, the user of the telephone 6 can hear the sound of the other party from the localization position 8 in the three-dimensional sound image space 7, for example, as shown in FIG. As described above, the orientation information of the face is transmitted from the azimuth sensor 5 to the first determination unit 2A at any time, so that each time the user moves the face, localization of the voice of the other party is performed. The position to be updated is updated, and the user of the telephone 6 is controlled so that the voice can always be heard from the same direction.
[0034]
Thus, according to the first method, the voice of the other party can be reproduced in the relative direction determined by the first determining unit 2A. The user can make a call in a state recognized by the user.
[0035]
FIG. 3 is a diagram showing a second method for localizing the voice of the other party in a three-dimensional sound field. As shown in FIG. 1, the telephone 6 that executes this method is configured to include the second determination unit 2B in the voice direction determination unit 2, and the sound image is localized based on information from the communication unit 1. Determine the direction to be. Here, the first determination unit 2A described above may be provided at the same time. In this case, the first determination unit 2A and the second determination unit 2B are selectively used. To do.
[0036]
In the second method, first, the communication device 6 establishes communication with the communication partner on the network by processing the outgoing or incoming call in the communication unit 1. At this time, the communication unit 1 notifies the second determination unit 2B of information related to the provider notified via the network.
[0037]
In this state, the second determination unit 2B detects the provider type from the information related to the provider, and determines one direction based on the provider type. Here, for example, as internal information, direction information (for example, forward direction, right direction, backward direction, left direction, etc.) is set individually for each of four providers (Company A, Company B, Company C, Company D) in advance. It shall be. Therefore, the second determination unit 2B can easily determine one direction to be determined. In this embodiment, for convenience of explanation, four providers will be described as an example. However, the number of providers is not limited to this, and can be set in any direction, such as upward or downward.
[0038]
Thereafter, the direction determined by the second determination unit 2B is notified to the sound image localization unit 3, and the sound image localization unit 3 executes a head-related transfer function for headphones, that is, to the second determination unit 2B. Based on the determined direction, the monaural sound received from the communication partner received by the communication unit 1 is converted into stereo sound (in this case, the sound for the left ear and the sound for the right ear are used because the headphones 4 are used). Then, the provider used by the other party is localized in the three-dimensional sound field (refer to localization positions 9, 10, 11, and 12 in FIG. 3).
[0039]
Finally, the headphones 4 that have received the stereo sound generated by the sound image localization unit 3 reproduce the sound in a three-dimensional sound field. Thereby, the user of the telephone 6 can hear the sound of the other party from any one of the localization positions 9, 10, 11, 12 in the three-dimensional sound image space 7, as shown in FIG. Come. Therefore, in FIG. 3, for example, when the voice of the other party is heard from the localization position 10, it can be recognized that the other party is making a call using the provider company B.
[0040]
Thus, according to the second method, it is possible to reproduce the voice of the other party in the direction determined by the second determining unit 2B, that is, the other party's voice and the other party's voice. Since the provider to be used is associated, it is possible to make a call in a state where the user of the telephone 6 recognizes the provider used by the other party.
[0041]
FIG. 4 is a diagram showing a third method for localizing the voice of the other party in a three-dimensional sound field. As shown in FIG. 1, the telephone 6 that executes this method is configured to include the third determination unit 2 </ b> C in the voice direction determination unit 2, and the sound image is localized based on information from the communication unit 1. Determine the direction to be. Here, the first determination unit 2A and the second determination unit 2B described above may be provided at the same time. In this case, the first determination unit 2A, the second determination unit 2B, and the second determination unit 2B It is assumed that 3 determination units 2C are selectively used.
[0042]
In the third method, first, the communication device 6 establishes communication with the communication partner on the network by processing the outgoing or incoming call in the communication unit 1. At this time, the communication unit 1 notifies the third determination unit 2C of information related to the call duration with the call partner to be counted internally.
[0043]
In this state, the third determination unit 2C determines one direction based on the call time. Here, for example, as internal information, in advance every 15 minutes (call time ≦ 15 minutes, 15 minutes <call time ≦ 30 minutes, 30 minutes <call time ≦ 45 minutes, 45 minutes <call time ≦ 60 minutes) Information (for example, forward direction, right direction, backward direction, left direction, etc.) is set. Therefore, the third determination unit 2C can easily determine one direction to be determined. In this embodiment, for convenience of explanation, the case where the call time every 15 minutes and the set directions are four directions is described as an example, but the time interval and the number of directions to be set are described here. Not exclusively.
[0044]
Thereafter, the direction determined by the third determination unit 2C is notified to the sound image localization unit 3, and the sound image localization unit 3 executes a head-related transfer function for headphones, that is, the third determination unit 2C Based on the determined direction, the monaural sound received from the communication partner received by the communication unit 1 is converted into stereo sound (in this case, the sound for the left ear and the sound for the right ear are used because the headphones 4 are used). Then, the call time up to the present is localized in a three-dimensional sound field (refer to localization positions 13, 14, 15, 16 in FIG. 4).
[0045]
Finally, the headphones 4 that have received the stereo sound generated by the sound image localization unit 3 reproduce the sound in a three-dimensional sound field. Thereby, the user of the communication device 6 can hear the sound of the other party from any one of the localization positions 13, 14, 15, 16 in the three-dimensional sound image space 7, as shown in FIG. Come. Therefore, in FIG. 4, for example, when the voice of the other party is heard from the localization position 14, it can be recognized that the call time of 15 minutes to 30 minutes has elapsed.
[0046]
Thus, according to the third method, it is possible to reproduce the voice of the other party in the direction determined by the third determining unit 2C, that is, the voice of the other party and the call time. Therefore, it is possible to make a call in a state where the user of the communication device 6 recognizes the call time up to the present time.
[0047]
FIG. 5 is a diagram showing a fourth method for localizing the voice of the other party in a three-dimensional sound field. As shown in FIG. 1, the telephone 6 that executes this method is configured to include a fourth determination unit 2D in the voice direction determination unit 2, and a sound image is localized based on information from the communication unit 1. Determine the direction to be. Here, the first determination unit 2A, the second determination unit 2B, and the third determination unit 2C described above may be provided at the same time. In this case, each determination unit is selectively used. Shall be.
[0048]
In the fourth method, first, the communication device 6 establishes communication with the communication partner on the network by processing the outgoing or incoming call in the communication unit 1. At this time, the communication unit 1 notifies the fourth determination unit 2D of information related to the call charge with the call partner calculated internally.
[0049]
In this state, the fourth determination unit 2D determines one direction based on the call time. Here, for example, as internal information, every 150 yen in advance (call charge ≦ 150 yen, 150 yen <call charge ≦ 300 yen, 300 yen <call charge ≦ 450 yen, 450 yen <call charge ≦ 600 yen) Information (for example, forward direction, right direction, backward direction, left direction, etc.) is set. Therefore, the fourth determining unit 2D can easily determine one direction to be determined. In the present embodiment, for convenience of explanation, the call charge for every 150 yen and the case where four directions are set are described as an example, but the charge interval and the number of directions to be set are described here Not exclusively.
[0050]
Thereafter, the direction determined by the fourth determination unit 2D is notified to the sound image localization unit 3, and the sound image localization unit 3 executes a head-related transfer function for headphones, that is, the fourth determination unit 2D. Based on the determined direction, the monaural sound received from the communication partner received by the communication unit 1 is converted into stereo sound (in this case, the sound for the left ear and the sound for the right ear are used because the headphones 4 are used). Then, the call charge up to now is localized in a three-dimensional sound field (refer to localization positions 17, 18, 19, and 20 in FIG. 5).
[0051]
Finally, the headphones 4 that have received the stereo sound generated by the sound image localization unit 3 reproduce the sound in a three-dimensional sound field. As a result, the user of the telephone 6 can hear the sound of the other party from any one of the localization positions 17, 18, 19, and 20 in the three-dimensional sound image space 7, as shown in FIG. Come. Therefore, in FIG. 5, for example, when the voice of the other party is heard from the localization position 18, it can be recognized that a call charge of 150 to 300 yen is incurred.
[0052]
Thus, according to the fourth method, it is possible to reproduce the voice of the other party in the direction determined by the fourth determining unit 2D, that is, the voice of the other party and the call charge. Therefore, it is possible to make a call in a state where the user of the telephone 6 recognizes the call charge up to now.
[0053]
FIG. 6 is a diagram showing a fifth method for localizing the voice of the other party in the three-dimensional sound field. As shown in FIG. 1, the telephone 6 that executes this method is configured to include a fifth determination unit 2E in the voice direction determination unit 2, and a sound image is localized based on information from the communication unit 1. Determine the direction to be. In addition, here, the first determination unit 2A, the second determination unit 2B, the third determination unit 2C, and the fourth determination unit 2D described above may be provided at the same time. It is assumed that the determination unit is selectively used.
[0054]
In the fifth method, first, the communication device 6 establishes communication with the other party on the network by processing the outgoing or incoming call in the communication unit 1. At this time, the communication unit 1 notifies the fifth determination unit 2E of information related to the telephone number of the call partner notified to the communication unit 1 via the network.
[0055]
In this state, the fifth determination unit 2E determines the type of the other party from this telephone number, and determines one direction corresponding to the determined other party. Here, for example, as internal information, specific information (call partner A, call partner B, call partner C, call partner D) is given in advance as direction information (for example, forward direction, right direction, backward direction, left direction, etc.). ) Is set. Therefore, the fifth determining unit 2E can easily determine one direction to be determined. In the present embodiment, for convenience of explanation, the case where four call partners and four directions are set is described as an example. However, the number of people and the number of directions to be set are not limited thereto. .
[0056]
Thereafter, the direction determined by the fifth determination unit 2E is notified to the sound image localization unit 3, and the sound image localization unit 3 executes a head-related transfer function for headphones, that is, the fifth determination unit 2E. Based on the determined direction, the monaural sound received from the communication partner received by the communication unit 1 is converted into stereo sound (in this case, the sound for the left ear and the sound for the right ear are used because the headphones 4 are used). Then, a specific call partner is localized in the three-dimensional sound field (refer to localization positions 21, 22, 23, and 24 in FIG. 6).
[0057]
Finally, the headphones 4 that have received the stereo sound generated by the sound image localization unit 3 reproduce the sound in a three-dimensional sound field. Thereby, for example, as shown in FIG. 6, the user of the communication device 6 can hear the sound of a specific call partner from any one of the localization positions 21, 22, 23, and 24 in the three-dimensional sound image space 7. Can be heard. Therefore, in FIG. 6, for example, when the voice of the other party is heard from the localization position 22, it can be recognized that the other party is C.
[0058]
As described above, according to the fifth method, it is possible to reproduce the voice of a specific call partner in the direction determined by the fifth determination unit 2E. The telephone call can be performed in a state recognized by the user of the machine 6.
[0059]
【The invention's effect】
As described above, according to the present invention, since the other party's voice is localized and reproduced in a three-dimensional sound field, there is no need to provide a display screen such as an LCD in order to know the direction of the other party. For the same reason, it is not necessary for the user to stop and check the map each time in order to check the direction of the other party. As a result, it is possible to realize a reduction in size and weight, a reduction in price, and a reduction in power consumption, and to know the direction of the other party without looking at a display screen such as an LCD.
[0060]
According to the next invention, the call device can easily recognize the orientation of the user's own face, and in addition to this, using the telephone number of the other party that can be received conventionally and the user's own location information. , Can recognize the relative direction of the other party. As a result, it is possible to localize and reproduce the voice of the other party in the relative direction recognized by the call device.
[0061]
According to the next invention, the call device can easily recognize the provider used by the call partner. Further, if direction information individually corresponding to a plurality of providers is set as internal information in advance, one direction to be determined by the call device can be easily determined during a call. As a result, the voice of the other party can be associated with the provider used by the other party, and the voice can be reproduced while being localized in the direction recognized by the telephone device. There is an effect.
[0062]
According to the next invention, the call device can easily recognize the elapse of the call time with the call partner. Also, if direction information is set as internal information at predetermined time intervals in advance, it is possible to easily determine one direction to be determined by the call device during a call. As a result, it is possible to associate the call partner's voice with the call time, and at the same time, it is possible to reproduce the sound by localization in the direction recognized by the call device.
[0063]
According to the next invention, the call device can easily recognize a call charge for a call with a call partner. Further, if direction information is set as internal information for each predetermined fee in advance, one direction to be determined by the call device can be easily determined during a call. As a result, it is possible to associate the voice of the other party with the call charge, and at the same time, it is possible to reproduce the voice while being localized in the direction recognized by the call device.
[0064]
According to the next invention, the call device can easily determine the call partner using the telephone number of the call partner that can be received conventionally. Further, if the direction information is previously set for each call partner as the internal information, it is possible to easily determine one direction to be determined by the call device during a call. As a result, it is possible to localize in the direction recognized by the call device and to reproduce the voice of a specific call partner.
[0065]
According to the next invention, for example, there is an effect that it is possible to know four providers, four time zones, four toll zones, or four other parties by voice from each direction.
[0066]
According to the next invention, various kinds of information can be recognized by voice, and there is no need to provide a display screen such as an LCD. As a result, the communication device can be reduced in size and weight, reduced in price, and reduced in power consumption.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment of a communication device according to the present invention.
FIG. 2 is an explanatory diagram showing a first method for localizing sound into a three-dimensional sound field.
FIG. 3 is an explanatory diagram showing a second method for localizing sound into a three-dimensional sound field.
FIG. 4 is an explanatory diagram showing a third method for localizing sound into a three-dimensional sound field.
FIG. 5 is an explanatory diagram showing a fourth method for localizing sound into a three-dimensional sound field.
FIG. 6 is an explanatory diagram showing a fifth method for localizing sound into a three-dimensional sound field.
FIG. 7 is a configuration of a conventional communication device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Communication part, 2 Sound direction determination part, 2A 1st determination part, 2B 2nd determination part, 2C 3rd determination part, 2D 4th determination part, 2E 5th determination part, 3 Sound image localization part, 4 sound image playback unit, 5 azimuth angle sensor, 6 telephone.

Claims (7)

In a telephone device connected to a wired communication network and a wireless communication network,
A communication means for transmitting and receiving voice from the other party and the user's own voice;
An azimuth sensor for recognizing the user's own direction;
Relative direction detection means for detecting the direction of the call partner from the direction recognized by the azimuth sensor and the telephone number of the call partner notified to the communication means via the network;
A stereo voice is generated by processing the monaural voice of the call partner received by the communication means, and the call partner voice is converted into a three-dimensional sound field based on the direction detected by the relative direction detection means. Sound image localization means for localization;
Sound field reproduction means for reproducing the voice of the other party, which is stereo sound localized by the sound image localization means, into a three-dimensional sound field;
A call device comprising: Provider detection that detects the provider type used by the other party from information related to the provider notified to the communication means via the network, and determines one direction from directions determined in advance for each provider type. means,
Further comprising
The sound image localization means appropriately selects one of the direction detected by the relative azimuth detecting means or the direction determined by the provider detecting means, and based on the selected direction , the voice of the other party is selected. 2. The communication device according to claim 1, wherein the communication device is localized in a three-dimensional sound field. Call time detection means for detecting the elapse of the call time with the call partner from the information on the call time notified from the communication means, and determining one direction from predetermined directions every predetermined time;
Further comprising
The sound image localization means appropriately selects one of the direction detected by the relative direction detection means, the direction determined by the provider detection means, or the direction determined by the call duration detection means, 3. The call device according to claim 2 , wherein the voice of the other party is localized in a three-dimensional sound field based on the selected direction . A call charge detecting means for detecting the progress of a call charge with a call partner from the information related to the call charge notified from the communication means, and determining one direction from predetermined directions for each predetermined charge;
Further comprising
In the sound image localization means, the direction detected by the relative direction detection means, the direction determined by the provider detection means, the direction determined by the call duration detection means, or determined by the call charge detection means 4. The call device according to claim 3 , wherein any one of the selected directions is appropriately selected, and the voice of the other party is localized in a three-dimensional sound field based on the selected direction . The call partner is determined from the telephone number of the call partner notified to the communication means via the network, and further, the direction corresponding to the call partner is determined from the predetermined directions for each call partner. Call partner identification means
Further comprising
In the sound image localization means, the direction detected by the relative direction detection means, the direction determined by the provider detection means, the direction determined by the call duration detection means, and determined by the call charge detection means 5. The method according to claim 1 , further comprising: selecting one of a selected direction and a direction determined by the call partner determination unit , and locating the voice of the call partner in a three-dimensional sound field based on the selected direction. 4. The communication device according to 4 . The call device according to any one of claims 2 to 5, wherein the predetermined directions are four directions of front, rear, left and right . The telephone apparatus according to any one of claims 1 to 6, wherein stereo sound reproduced in the three-dimensional sound field by the sound field reproducing means is heard by a user via an earphone or a headphone. .

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