JP2004228920A - Portable communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable communication terminal capable of obtaining comfortable communication regardless of the opening / closing state of a case. <P>SOLUTION: The terminal 1 is provided with a first case, a second case, a hinge mechanism, a speaker 10, a first microphone 8, a second microphone 9, a control part 19, an opening / closing detection circuit 20, an analog gain adjustment part 26, and a voice signal processing part 30. The hinge mechanism freely rotatably connects the first case and the second case. The first and second microphones 8 and 9 are provided in the first case and the speaker 10 is provided in the second case. The opening / closing detection circuit 20 detects the relative rotating positions of the first case and the second case and outputs the detection signal. The analog gain adjustment part 26 and the voice signal processing part 30 work voice signals for transmission outputted by the first microphone 8 or the second microphone 9 corresponding to the detection signals from the opening / closing detection circuit 20 according to control from the control part 19. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile communication terminal in which two housings are rotatably connected to each other.
[0002]
[Prior art]
Patent Literature 1 discloses a mobile phone as an example of a mobile communication terminal. In this mobile phone, the two housings are connected to be freely opened and closed, and are carried in a closed state when not in use. When an incoming call or outgoing call is made, the user opens the housing to open it, puts the speaker provided on one housing into his / her ear, and brings the microphone provided on the other housing close to the mouth in this state. Make a call.
[0003]
[Patent Document 1]
JP-A-7-288860
[Problems to be solved by the invention]
Here, the convenience of a mobile phone that can be freely opened and closed can be improved if a call can be made even in a closed state.
[0005]
However, since the relative positions of the two housings are different between the open state and the closed state, the relative positions of the speakers and the microphones respectively disposed in one and the other housings are also different. As a result, the distance between the microphone and the mouth when the speaker is brought into contact with the ear is longer in the closed state than in the open state, and the sound pickup state of the microphone is more likely to be reduced in the closed state. Further, depending on the position of the microphone in the other housing, the microphone may be covered by the one housing in the closed state.
[0006]
For this reason, in the closed state, it becomes difficult for the user on the receiving side to hear the voice, and a comfortable call state may not be obtained.
[0007]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a portable communication terminal capable of obtaining a comfortable call regardless of the open / closed state of a housing.
[0008]
[Means for Solving the Problems]
A portable communication terminal according to the present invention includes a first housing, a second housing, a connection unit, a loudspeaker, a sound pickup, a detector, and an audio signal processor. .
[0009]
The connecting means rotatably connects the first housing and the second housing. The sound pickup means is constituted by, for example, a microphone and is provided in the first housing. The loudspeaker is composed of, for example, a speaker and is provided in the second housing. The detection means detects a relative rotation position between the first housing and the second housing and outputs a detection signal. The voice signal processing means processes the voice signal for transmission output by the sound pickup means according to the detection signal from the detection means.
[0010]
In the above configuration, when the mobile communication terminal functions as a telephone and performs a call, the detecting unit detects a relative rotation position between the first housing and the second housing, and outputs a detection signal thereof, The voice signal processing means processes the voice signal for transmission output by the sound pickup means according to the detection signal from the detection means. In other words, even if the relative rotational positions of the first housing and the second housing are different and the sound pickup state by the sound pickup means is different, the voice signal processing means responds accordingly to this. To accurately process the audio signal.
[0011]
Therefore, regardless of the relative rotation position between the first housing and the second housing, the user on the receiving side can listen to the voice satisfactorily and can obtain a comfortable call state.
[0012]
The audio signal processing means may process the audio signal according to a predetermined processing function, and may set the value of the parameter of the processing function according to the detection signal.
[0013]
In the above configuration, the simple process of setting the value of the parameter of the processing function in accordance with the detection signal allows the user on the receiving side to communicate with the user on the receiving side irrespective of the relative rotational position of the first housing and the second housing. A comfortable call state can be obtained between the users.
[0014]
The audio signal processing means may have a plurality of tables in which parameter values are set in advance, and switch the table to be used according to the detection signal.
[0015]
According to the above configuration, by a simpler process of switching the table, a comfortable communication state with the user on the receiving side can be obtained irrespective of the relative rotation position between the first housing and the second housing. it can.
[0016]
The connecting means can be set to a closed state where the first housing and the second housing overlap and an open state where the first housing and the second housing slide from each other from the closed state. Alternatively, a hinge mechanism that rotatably connects the first housing and the second housing may be used.
[0017]
The present invention can be favorably applied to a mobile communication terminal of the type in which the first housing and the second housing are slidably connected to each other as in the above configuration.
[0018]
The sound pickup means includes a plurality of sound pickup sections arranged at different positions from each other, and a switch section for inputting one of the transmission sound signals output by the sound pickup section to the sound signal processing means in response to the detection signal. And may be provided.
[0019]
In the above configuration, for example, when the first housing and the second housing can be set to a closed state where they overlap each other and an open state where they are relatively moved from the closed state, two sound pickup units (for example, microphones) ) Can be arranged at the optimum position in the open state and the optimum position in the closed state, respectively, and a more comfortable communication state with the user on the receiving side can be obtained.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0021]
A mobile phone (portable communication terminal, hereinafter abbreviated as a terminal) 1 according to the present embodiment is of a so-called jack knife type, and includes a first housing 2 and a second housing, as shown in FIGS. A body 3, a display unit 4 composed of a liquid crystal screen, a plurality of operation units 5 and 6 composed of operation keys, a hinge mechanism 7, a first microphone 8, a second microphone 9, and a speaker 10 is provided. The first housing 2 and the second housing 3 have a substantially rectangular plate shape and substantially the same size.
[0022]
The display unit 4 is arranged on the surface of the second housing 3. The operation units 5 and 6 are arranged on the first housing 2 and the second housing 3, respectively. A predetermined function is assigned to each of the operation units 5 and 6, and is used as an input means from a user at the time of outgoing operation, incoming operation, creation of mail, and the like.
[0023]
The hinge mechanism 7 rotatably connects one end of the first housing 2 and one end of the second housing 3 so as to be able to set a closed state and an open state. In the closed state shown in FIG. 2, the first housing 2 and the second housing 3 overlap while the second housing 3 covers the operation unit 6, and the back surface of the second housing 3 is The upper surface of the housing 2 is completely covered immediately above. In the open state shown in FIG. 3, the second housing 3 and the first housing 2 slide from each other from the closed state and rotate by approximately 180 °. The display unit 4 and the operation unit 6 of the second housing 3 are always exposed in both the open state and the closed state.
[0024]
The terminal 1 is configured to be able to make and receive calls in both the open state and the closed state, and the speaker 10 is disposed at the other end of the surface of the second housing 3 (the side opposite to the hinge mechanism 7). ing.
[0025]
The first microphone 8 is provided at the other end of the surface of the first housing 2 so as to be close to the mouth of the user when the user puts the terminal 1 in the open state and puts the speaker 10 on his / her ear. (Opposite to the hinge mechanism 7). When the user puts the terminal 1 in the closed state and puts the speaker 10 on his / her ear, the second microphone 9 is as close as possible to the mouth of the user and is not completely covered by the second housing 3. , For the closed state, is disposed on the side of one end of the first housing 2 (on the same side as the hinge mechanism 7).
[0026]
An MR sensor (magnetic sensor) 11 and a magnet 12 are built in the first housing 2 and the second housing 3, respectively. Both are arranged at positions overlapping when the terminal 1 is in the closed state, and the MR sensor 11 detects whether the terminal 1 is in the closed state.
[0027]
The terminal 1 of FIG. 1 has an internal configuration shown in the block diagram of FIG. That is, the terminal 1 includes an antenna 13, a duplexer (Duplexer) 14, a receiving unit (RX) 15, a transmitting unit (TX) 16, a DSP (Digital Signal Processor) 17, an analog baseband unit 18, a control unit (CPU) 19, An open / close detection circuit 20, a RAM (Random Access Memory) 21, and a ROM (Read Only Memory) 22 are provided.
[0028]
The open / close detection circuit 20 receives a signal input from the MR sensor 11 and outputs a detection signal indicating whether the terminal 1 is in the closed state to the control unit 19.
[0029]
The duplexer 14 is connected to the antenna 13, the receiving unit 15, and the transmitting unit 16, transmits a radio wave received from the antenna 13 to the receiving unit 15, and transmits a transmission signal from the transmitting unit 16 to the antenna 13.
[0030]
The receiving unit 15 is connected to the duplexer 14 and the DSP 17, and demodulates a signal received from the duplexer 14 and sends the demodulated signal to the DSP 17. The transmission unit 16 is connected to the duplexer 14 and the DSP 17, and demodulates a transmission signal from the DSP 17 and sends the demodulated signal to the duplexer 14.
[0031]
The DSP 17 is connected to the receiving unit 15, the transmitting unit 16, the analog baseband unit 18, and the control unit 19. The DSP 17 includes an audio signal processing unit 30. The audio signal processing unit 30 includes an audio codec, a transmission / reception EQ (equalizer), an echo canceller, a transmission / reception noise reducer, and a VOX (Voice Operated Transmitter) processing unit. ing. Each component of the audio signal processing unit 30 processes and processes the audio signal according to a predetermined processing function under the control of the control unit 19.
[0032]
The analog baseband unit 18 is connected to the first microphone 8, the second microphone 9, the speaker 10, the DSP 17, and the control unit 19. The analog baseband unit 18 includes a reception-side analog gain adjustment unit 23, a D / A converter 24, a digital gain adjustment unit 25, and a transmission-side analog gain adjustment unit 26, an A / D converter 27, and a digital gain adjustment. And a switch unit 29. The analog gain adjustment units 23 and 26 and the digital gain adjustment units 25 and 28 perform predetermined processing and processing on the audio signal according to a predetermined processing function under the control of the control unit 19.
[0033]
The control unit 19 is connected to the DSP 17, the analog baseband unit 18, the open / close detection circuit 20, the RAM 21, and the ROM 22, and controls each connected component according to a control program stored in the ROM 12 or the RAM 21.
[0034]
The DSP 17 is provided with a cavity opening conversation parameter table 31 and a cavity closing conversation parameter table 32. Similarly, the RAM 21 is also provided with a cavity opening conversation parameter table 33 and a cavity closing conversation parameter table 34. The control unit 19 switches between the cabinet opening communication parameter tables 31 and 33 and the cabinet closing communication parameter tables 32 and 34 in the DSP 17 and the RAM 21 in accordance with a detection signal from the open / close detection circuit 20.
[0035]
At the time of reception, a reception signal from the antenna 13 is input to the DSP 17 as an audio signal for reception via the duplexer 14 and the reception unit 15, processed and processed by the audio signal processing unit 30, and input to the analog baseband unit 18. Is done. In the analog baseband unit 18, the receiving voice signal is sent from the digital gain adjustment unit 25 to the analog gain adjustment unit 23 via the D / A converter 24, and is sent to the speaker 10. The digital gain adjustment unit 25 and the analog gain adjustment unit 23 perform predetermined processing and processing on the audio signal for reception under the control of the control unit 19.
[0036]
At the time of transmission, an audio signal for transmission is transmitted from the first microphone 8 and the second microphone 9 and input to the switch unit 29 of the analog baseband unit 18. The switch unit 29 inputs one of the audio signals from the first and second microphones 8 and 9 to the analog gain adjustment unit 26 based on the detection signal from the open / close detection circuit 20 under the control of the control unit 19. . The audio signal input to the analog gain adjustment unit 26 is sent to the digital gain adjustment unit 28 via the A / D converter 27, and sent to the DSP 17. The digital gain adjustment unit 25 and the analog gain adjustment unit 23 perform predetermined processing and processing on the audio signal for transmission under the control of the control unit 19. In the DSP 17, the audio signal processing unit 30 performs predetermined processing and processing on the audio signal for transmission under the control of the control unit 19. Then, the signal is transmitted to the antenna 13 via the transmission unit 16 and the duplexer 14.
[0037]
The terminal 1 is configured to be able to make and receive calls in both the open state (shown in FIG. 3) and the closed state (shown in FIG. 2). Switch 29. Specifically, when it is determined from the detection signal from the opening / closing detection circuit 20 that the terminal 1 is not in the closed state (including the open state), the audio signal from the first microphone 8 is set to the closed state. When it is determined, the audio signal from the second microphone 9 is input to the analog gain adjustment unit 26, respectively. That is, the first microphone 8 for the open state and the second microphone 9 for the closed state are switched and used according to the open / closed state, so that the performance of the microphones 8 and 9 is maximized in each state. Can be done.
[0038]
In addition, the control unit 19 processes the audio signal according to a predetermined processing function in the analog gain adjustment unit 26 and the audio signal processing unit 30, and changes the value of the parameter of the processing function according to the open / close state of the terminal 1. . More specifically, two types of parameter tables for the open state and the closed state (cavity opening parameter tables 31 and 33 and cabinet closing parameter tables 32 and 34) are provided. The values of the parameters used in the open state are set in advance, and the values of the parameters used in the closed state are set in advance in the cabinet closing parameter tables 32 and 34. When it is determined that the terminal 1 is not in the closed state (including the open state) by the detection signal from the open / close detection circuit 20, the cabinet opening parameter tables 31 and 33 are used. Use the cabinet closing parameter tables 32 and 34, respectively. In the parameter tables 31 and 32 of the DSP 17, values of parameters of processing functions in the transmission EQ, the echo canceller, and the transmission noise reducer are set, respectively. In the parameter tables 33 and 34 of the RAM 21, analog gains for transmission are set. The values of the parameters of the processing functions in the adjustment unit 26 are set. The parameter values set in the parameter tables 31 and 32 of the DSP 17 are directly input to the audio signal processing unit 30 in the DSP 17. The parameter values set in the parameter tables 33 and 34 of the RAM 21 are input to the analog gain adjustment unit 26 of the analog baseband unit 18 through the control unit 19.
[0039]
Next, parameter values set in the parameter tables 31, 32, 33, and 34 will be described with reference to FIGS.
[0040]
The value of the parameter for the open state (for opening the cabinet) and the value of the parameter for the closed state (for closing the cabinet) are basically set to be different from each other. In particular, the analog gain adjustment unit 26, the echo canceller, And the values of the parameters for the transmission noise reducer are set such that the following relationship is established. The parameter value for the analog gain adjustment unit 26 is set such that the analog gain is larger in the closed state than in the open state. The parameter values for the echo canceller are set such that the echo cancellation amount is larger in the closed state than in the open state. The parameter values for the transmission noise reducer are set such that the noise suppression amount is larger in the closed state than in the open state. It should be noted that the above-described relationship does not hold for the parameter values for the transmission EQ, and different values (A and B) are set. Among these parameters, among the parameters, the influence on the audio signal is greatest when the parameter value is changed for the analog gain adjustment unit 26, and then the influence is reduced in the order of the echo canceller, the transmission noise reducer, and the transmission EQ. Become.
[0041]
As described above, since the value of the parameter of the processing function for processing the voice signal for transmission is changed according to the open / close state of the terminal 1, the voice signal is changed in both the open state and the closed state. It is appropriately processed and processed, and is output as an audio signal having more preferable acoustic characteristics.
[0042]
As described above, the reason why the parameter tables 31, 32, 33, and 34 are arranged not only in the RAM 21 but also in the DSP 17 is to ensure quick switching by the control unit 19 and ensure more comfortable communication. . For example, when parameter values used in the DSP 17 are set in the parameter tables 33 and 34 of the RAM 21, the amount of information transmitted from the control unit 19 to the DSP 17 increases. If the wiring between the control unit 19 and the DSP 17 is set more finely than the wiring between the control unit 19 and the analog baseband unit 18, the control unit is not used due to its structure. The transmission speed of information between the DSP 19 and the DSP 17 is delayed, and there is a possibility that switching of parameter values in the DSP 17 is not performed quickly. On the other hand, if the parameter tables 31 and 32 are set in the DSP 17, the information transmitted from the control unit 19 to the DSP 17 only needs to be a command signal for switching the parameter tables 31 and 32, and the amount of information can be kept small. Therefore, quick switching by the control unit 19 is ensured, and a comfortable call is guaranteed.
[0043]
The operation of the present embodiment will be described with reference to the flowchart shown in FIG.
[0044]
The control shown in FIG. 6 is started by turning on the terminal 1 and starting a voice call by incoming call (incoming call) or outgoing call (outgoing call), and proceeds to step S1.
[0045]
In step S1, the control unit 19 identifies the open / closed state of the terminal 1 based on the detection signal from the circuit detection means 20. If the control unit 19 identifies that the terminal 1 is in the closed state, the process proceeds to step S2. If the state is identified (not the closed state), the process proceeds to step S3.
[0046]
In step S2, the control unit 19 sets the values of the parameters of the cabinet closing parameter tables 32 and 34 to the processing functions of the transmission EQ, the echo canceller, the transmission noise reducer, and the analog gain adjustment unit 26, Processing and processing of a voice signal for transmission is started, and a voice call is started.
[0047]
On the other hand, in step S3, the control unit 19 sets the values of the parameters of the cabinet opening parameter tables 31 and 33 to the processing functions of the transmission EQ, the echo canceller, the transmission noise reducer, and the analog gain adjustment unit 26. Then, processing and processing of the voice signal for transmission is started, and the voice call is started.
[0048]
When a voice call is started in steps S2 and S3, the process proceeds to step S4. In step S4, the control unit 19 sequentially detects a change in the open / close state of the terminal 1 based on the detection signal from the circuit detection unit 20. Specifically, similarly to step S1, based on the detection signal from the circuit detection unit 20, the control unit 19 identifies the open / closed state of the terminal 1, and if the control unit 19 identifies that the terminal 1 is in the closed state, the process proceeds to step S1. The process proceeds to S5, and if it is determined that the device is in the open state (not the closed state), the process proceeds to step S6.
[0049]
In step S5, similarly to step S2, the control unit 19 compares the values of the parameters in the cabinet closing parameter tables 32 and 34 with the processing of the transmission EQ, the echo canceller, the transmission noise reducer, and the analog gain adjustment unit 26. Set to a function, process and process voice signals for transmission, and continue voice communication. On the other hand, in step S6, as in step S3, the control unit 19 compares the values of the parameters in the cabinet opening parameter tables 31 and 33 with the transmission EQ, the echo canceller, the transmission noise reducer, and the analog gain adjustment unit 26. Each processing function is set, processing and processing of a voice signal for transmission are performed, and voice communication is continued. That is, when the open / closed state of the terminal 1 is not changed, the processing / processing is continued with the same parameter value, and when the open / closed state is changed, the parameter value corresponding to the changed state is changed to the value of the parameter corresponding to the changed state. Rewrite and continue processing and processing.
[0050]
When the voice call is continued in steps S5 and S6, the process proceeds to step S7, and the control unit 19 determines whether or not the call is in progress. If a call is in progress, the process returns to step S4, and the control up to step S7 is repeated. As a result, even when the open / close state of the terminal 1 is changed during a call, appropriate processing and processing are performed on the audio signal according to the changed state.
[0051]
In step S7, when the control unit 19 determines that the call is not in progress, the call ends, and the control ends.
[0052]
Although the description of the processing in each of the above steps is omitted, in the above steps 2 and 5, the control unit 19 switches the switch unit so that the audio signal is input from the second microphone 9 to the analog gain adjustment unit 26. Set 29. In steps 3 and 6, the control unit 19 sets the switch unit 29 so that the audio signal is input from the first microphone 8 to the analog gain adjustment unit 26.
[0053]
As described above, according to the present embodiment, the value of the parameter of the processing function when processing the voice signal for transmission is changed according to the open / closed state of the terminal 1, so that the open state and the closed state are changed. In both cases, the audio signal is appropriately processed and processed, and is output as an audio signal having more preferable acoustic characteristics. Therefore, regardless of the open / closed state of the terminal 1, the user on the receiving side can hear the voice satisfactorily, and a comfortable call state can be obtained.
[0054]
In addition, by a simple process of setting the value of the parameter of the processing function when processing the audio signal according to the open / close state of the terminal 1, the user can communicate with the receiving user regardless of the open / close state of the terminal 1. A comfortable call state can be obtained.
[0055]
In addition, two parameter tables 31, 32, 33, and 34 for the open state and the closed state are provided, and these are switched according to the open / closed state of the terminal 1. Therefore, it is possible to obtain a comfortable communication state with the receiving user.
[0056]
In the above embodiment, the values of the parameters for the transmission EQ, the echo canceller, the transmission noise reducer, and the analog gain adjustment unit 26 for transmission have been changed. However, other parameters (for example, The values of the parameters for the digital gain adjustment unit 28 and the parameters related to the VOX processing may be changed, and the setting locations of the parameter tables 31, 32, 33, and 34 are not limited to the RAM 21 and the DSP 17.
[0057]
Although the two microphones 8 and 9 are provided for the open state and the closed state, both may be shared and used as one microphone. In this case, as shown by a two-dot chain line in FIGS. 1 to 3, it is preferable to set the location of the microphone 35 on the side surface of the intermediate portion of the first housing 2.
[0058]
The method of detecting the relative rotational position between the first housing 2 and the second housing 3 is not limited to the MR sensor 11 and may be any method.
[0059]
The present invention can be applied to a mobile communication terminal in which two housings are rotatably connected, regardless of the rotation direction and connection method (for example, even a so-called folding type mobile phone). it can.
[0060]
Further, the present invention can be applied to a mobile communication terminal other than a mobile phone such as a PDA (Personal Digital Assistant) having a voice communication function.
[0061]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the user on the receiving side can listen to a voice well regardless of the relative rotation position of a 1st housing | casing and a 2nd housing | casing, and can obtain a comfortable talking state.
[Brief description of the drawings]
FIG. 1 is a plan view of a terminal according to an embodiment.
FIGS. 2A and 2B are diagrams showing a closed state of the terminal of FIG. 1, wherein FIG. 2A is a side view and FIG.
3A and 3B are diagrams showing an open state of the terminal of FIG. 1, wherein FIG. 3A is a front view and FIG. 3B is a side view.
FIG. 4 is a block diagram of the terminal of FIG. 1;
FIGS. 5A and 5B are schematic diagrams showing a parameter table, wherein FIG. 5A shows an open state and FIG. 5B shows a closed state.
FIG. 6 is a flowchart illustrating control according to the present embodiment.
[Explanation of symbols]
1. Terminals (mobile phones, mobile communication terminals)
2. First housing 3 Second housing 7 Hinge mechanism (connection means)
8. First microphone (first sound pickup unit, sound pickup means)
9: second microphone (second sound pickup unit, sound pickup means)
10. Speaker (loudspeaker means)
11 ... MR sensor (detection means)
12 ... magnet (detection means)
17 ... DSP (audio signal processing means)
18. Analog baseband unit (audio signal processing means)
19: control unit (audio signal processing means)
20 Open / close detection circuit (detection means)
26 ... Transmission-side analog gain adjustment unit (audio signal processing means)
30 audio signal processing unit (audio signal processing means)
31: Call parameter table for opening the cabinet 32 ... Call parameter table for closing the cabinet 33: Call parameter table for opening the cabinet 34: Call parameter table for closing the cabinet

Claims (5)

A first housing;
A second housing;
Connecting means for rotatably connecting the first housing and the second housing;
Sound pickup means provided in the first housing;
Loudspeaker provided in the second housing;
Detecting means for detecting a relative rotational position between the first housing and the second housing;
An audio signal processing unit that processes an audio signal for transmission output by the sound pickup unit according to a detection signal from the detection unit,
A mobile communication terminal comprising: The mobile communication terminal according to claim 1,
The portable communication terminal, wherein the audio signal processing means processes the audio signal according to a predetermined processing function, and sets parameter values of the processing function according to the detection signal. The mobile communication terminal according to claim 2,
The mobile communication terminal according to claim 1, wherein the audio signal processing unit has a plurality of tables in which the values of the parameters are set in advance, and switches a table to be used according to the detection signal. A mobile communication terminal according to any one of claims 1 to 3,
The connecting means includes a closed state in which the first housing and the second housing overlap with each other, and an open state in which the first housing and the second housing slide with respect to each other from the closed state. A portable communication terminal, characterized in that the portable communication terminal is a hinge mechanism that rotatably connects the first housing and the second housing so as to be set to a state. A mobile communication terminal according to any one of claims 1 to 4,
The sound pickup means includes: a plurality of sound pickup units arranged at different positions from each other; and one of transmission sound signals output by the sound pickup unit in response to the detection signal to the sound signal processing means. And a switch unit for inputting.

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