JP3938841B2 - Data network call device and data network call adapter device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data network call device that performs a call and facsimile transmission / reception using a data network using a packet switching technique, and in particular, obtains a call signal in a reliable state without deterioration regardless of the state of the data network. The present invention relates to a data network communication device that can perform communication.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, telephone conversation is performed by transmitting and receiving audio signals via a data network (such as the Internet network). When transmitting an audio signal, an audio signal input from a microphone or the like is encoded on the transmission side into encoded audio data, and then packetized and transmitted to a data network. When receiving this audio signal, the reception side receives the encoded audio data packetized via the data network, and then decodes the audio signal to output it from a speaker or the like.
[0003]
However, as described above, since audio signals are transmitted and received via the Internet network, there are delays in data arrival time, fluctuations in data arrival time, and missing data due to congestion of the Internet network. The problem of reducing the call quality has occurred.
[0004]
In order to solve the above problem, for example, Japanese Patent Laid-Open No. 10-98548 discloses a service to a customer when the Internet network is congested and a telephone call via the Internet network is impossible. In this case, a message such as “Not available now” is notified to the customer. For example, Japanese Patent Laid-Open No. 10-164129 discloses that a part of a received packet is deleted according to the congestion status of the Internet network.
[0005]
By the way, the techniques disclosed in the above Japanese Patent Laid-Open Nos. 10-98548 and 10-164129 do not satisfy the needs of customers who have urgent requirements, and a message such as “Not Available Now” is notified. It does not give clues as to when and how customers should retry when done. Further, when a part of customer voice data is sacrificed, it is necessary to determine the importance of the customer voice data, but it is generally difficult to determine which part is sacrificed.
[0006]
For this reason, none of the above technologies can provide the essential call service requested by the customer. That is, it can be said that it is too big a problem to sacrifice a customer's urgent communication request or important voice data as a price for a low communication cost.
[0007]
In order to solve the above problems, for example, Japanese Patent Laid-Open No. 12-261553 discloses that a button telephone device incorporates a normal telephone function and an Internet telephone function, and a customer can selectively use them. And when the customer uses the Internet telephone function, if congestion exceeding a predetermined limit of the Internet network is detected, the network is automatically switched to the ISDN circuit switching network connected to the Internet network. The voice data of the customer is automatically re-transmitted by controlling the same party to redial via the circuit-switched network based on the dial data stored when the call is transmitted via It is what you want to do.
[0008]
[Problems to be solved by the invention]
However, according to such a conventional technique, the following problems have occurred separately. That is, when congestion exceeding the predetermined limit of the Internet network is detected, a situation occurs in which the temporary call is interrupted and waited for a while in order to switch to the ISDN circuit switching network connected to the Internet network. The essential call service requested cannot be provided.
[0009]
Further, since the button telephone device incorporates a normal telephone function, an Internet telephone function, and a switching circuit thereof, the internal circuit becomes complicated and the device cost increases. Furthermore, since it is necessary for the customer to connect two types of networks, the public line switching network and the Internet network, the network form that can be connected is limited and the network connection cost increases.
[0010]
Therefore, the present invention always ensures a constant call quality regardless of the congestion status of a data network (such as the Internet network), does not limit the form of the data network to be connected, reduces the connection cost, and further reduces the cost of the apparatus main body. An object of the present invention is to provide a data network communication device capable of reducing the above.
[0011]
[Means for Solving the Problems]
In order to solve the above-described problem, a data network communication device according to the present invention includes a packet processing unit that receives a packet transmitted via a data network and extracts data included in the packet, and stores the data and stores the data. Buffer memory with variable capacity, The number of packets that traverse the data network within a predetermined time and the packet length of the packets that traverse the data network Depending on the data storage capacity of the buffer memory decide And control means for writing and reading the data to and from the buffer memory.
[0012]
With this configuration, a data network communication device that always ensures a constant call quality regardless of the congestion status of the data network, does not limit the data network form to be connected, reduces the connection cost, and further reduces the cost of the device main body Can be provided.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
A data network communication device according to a first aspect of the present invention includes a packet processing unit that receives a packet sent via a data network and extracts data contained in the packet, and stores the data and has a variable data storage capacity. Buffer memory, The number of packets that traverse the data network within a predetermined time and the packet length of the packets that traverse the data network Depending on the data storage capacity of the buffer memory decide And control means for writing and reading the data to and from the buffer memory.
[0014]
This The traffic congestion status is detected over the two-sided events of the number of packets going and going through the data network and the packet length, so the traffic congestion status can be detected more reliably and detected. Data storage capacity of buffer memory according to traffic conditions decide As a result, since the received voice data is reliably buffered, a constant call quality can always be ensured regardless of the congestion status of the data network.
[0015]
Furthermore, in order to ensure a constant call quality regardless of the congestion status of the data network, the data network connection mode is not limited and no special circuit is required for the data network call device. Connection cost and the cost of the apparatus body can be reduced.
[0020]
First of the present invention 2 A data network communication device according to the aspect of 1's In the aspect, when other data transmission processing is performed during data reception processing, the data storage capacity of the buffer memory is determined according to the data reception processing amount and the other data transmission processing amount. Is.
[0021]
As a result, when the data network calling device performs other data transmission / reception while the data network communication device is performing voice data reception processing, the data storage capacity of the buffer memory is further increased in accordance with the data processing amount for other data transmission / reception. Therefore, when other data transmission / reception processing is performed, the audio data reception processing can be reliably received without interruption.
[0022]
First of the present invention 3 A data network communication device according to the aspect of 1's In the aspect, a voice communication processing means or a facsimile processing means for transmitting and receiving data by a facsimile procedure is provided.
[0023]
As a result, the data network communication device and the call processing or facsimile processing are integrated, so that the price and size of the data network communication device can be reduced.
[0024]
A data network calling device according to a fourth aspect of the present invention includes a packet processing unit that receives a packet sent via a data network and extracts data contained in the packet, and stores the data and has a variable data storage capacity. Buffer memory and means for dynamically changing the data storage capacity of the buffer memory according to the traffic state of the data network And means for determining the data storage capacity of the buffer memory according to the number of packets traveling through the data network within a predetermined time and the packet length of the packets traveling through the data network And a control means for writing and reading the data to and from the buffer memory, a facsimile processing means for transmitting and receiving data according to a facsimile procedure, and a data storage capacity of the buffer memory when the reception state by the facsimile is detected. And means for preventing the operation to be changed.
[0025]
As a result, there is no problem in facsimile transmission / reception in which constant transmission / reception is always performed regardless of traffic congestion state, even if buffer control is not performed. The processing overhead time can be reduced.
[0026]
First of the present invention 5 A data network call adapter device according to the above aspect includes a packet processing unit that receives a packet sent via a data network and extracts data contained in the packet, a buffer memory that stores the data and has a variable data storage capacity, , The number of packets that traverse the data network within a predetermined time and the packet length of the packets that traverse the data network Depending on the data storage capacity of the buffer memory decide Means, control means for writing and reading the data into and from the buffer memory, and means for connecting to an individual telephone device or facsimile device or a telephone function or a device having a facsimile function.
[0027]
As a result, the data network call device can be realized by connecting the data network call adapter device to an existing telephone device or facsimile device or a device having a call function or a facsimile function, so that the existing device can be used as it is and is economical. is there.
[0028]
First of the present invention 6 The data network call control method according to the aspect of the present invention receives a packet sent via a data network, extracts data included in the packet, The number of packets that traverse the data network within a predetermined time and the packet length of the packets that traverse the data network The data storage capacity of the buffer memory in which the data is stored Decide The data is written to and read from the buffer memory.
[0029]
As a result, the received voice data is reliably buffered by dynamically changing the data storage capacity of the buffer memory according to the traffic state of the packet on the data network. A constant call quality can always be secured.
[0030]
A data network communication device according to an embodiment of the present invention will be described below with reference to the drawings.
[0031]
FIG. 1 is a block diagram showing an overall configuration of a data network communication device according to an embodiment of the present invention. Hereinafter, the data network 101 is an Internet network that uses an Internet protocol (hereinafter referred to as “IP”) as a common protocol.
[0032]
As shown in FIG. 1, a data network calling device 100 converts a voice processing unit 104 that inputs and outputs voice signals or a facsimile processing unit 105 that transmits and receives data, and a voice signal or a facsimile signal and a packet to each other. A signal data conversion unit 103 and a packet processing unit 102 that transmit and receive via the Internet network 101 constitute a main part.
[0033]
The data network call device 100 includes a call processing unit 104 and a facsimile processing unit 105 as shown in the figure, but can also include the call processing unit 104 or the facsimile processing unit 105 individually. Voice signals and facsimile signals are input / output by the call processing unit 104 or the facsimile processing unit 105.
[0034]
As a result, the data network call device 100 and the call processing unit 104 or the facsimile processing unit 105 are integrally configured, so that the price and size of the data network call device 100 can be reduced.
[0035]
The signal data conversion unit 103 is disposed between the voice CODEC 112 that mutually converts voice signals or facsimile signals and PCM signals, and between the voice CODEC 112 and the call processing unit 104 or the facsimile processing unit 105. And an audio signal i / f (interface) 113 for detecting a CNG (Calling Tone) signal of a facsimile.
[0036]
The packet processing unit 102 incorporates TCP (Transmission Control Protocol) / IP which is a communication protocol on the Internet 101, converts destination data from the call processing unit 104 or the facsimile processing unit 105 into an IP address on the IP protocol, The IP packet conversion unit 111 performs IP packet conversion including the voice data or facsimile data subjected to the PCM conversion and performs packet relay function and packet detection with the Internet network 101, and the IP packet conversion unit 111 converts the IP packet. The data network i / f 110 connects the converted packet to a signal suitable for the connected data network.
[0037]
The main control unit 106 is realized by a CPU or the like, and is connected to the packet processing unit 102, the audio data conversion unit 103, and the buffer control unit via the bus 108 together with the main memory unit 107 configured by RAM, ROM, etc. The processor 102, the audio data converter 103, and the buffer controller are directly controlled.
[0038]
The call processing unit 104 and the facsimile processing unit 105 are connected to the CPU 106 via the bus 108 and may be directly controlled by the CPU 106, or the call processing unit 104 and the facsimile processing unit 105 may be different CPUs not shown. May be connected to and controlled by another CPU
[0039]
FIG. 2 is a block diagram showing the overall configuration of the buffer control unit of the data network communication device according to the embodiment of the present invention. As shown in FIG. 2, the buffer control unit 109 includes a buffer control circuit 201 that controls the entire buffer control unit 109, and a buffer memory having a first in first out (FIFO) structure that stores audio data and the like and includes an SRAM or the like. 205, a buffer memory counter 202 that variably controls the capacity of the buffer memory 205, a threshold setting register 203, and a comparison circuit 204.
[0040]
The buffer control circuit 201, the buffer memory counter 202, and the threshold setting register 203 are connected to the CPU 106 via the bus 108 and controlled by the CPU 106.
[0041]
FIG. 3 is a diagram showing the configuration of the FIFO structure memory of the buffer control unit of the data network communication device according to the embodiment of the present invention. As shown in FIG. 3, the buffer memory 205 of the buffer control unit 109 is configured by connecting a FIFO structure SRAM (hereinafter referred to as FIFO) 301 having a data storage capacity with each stage to an FIFO structure for N stages. Has been.
[0042]
In the FIFOs for N stages, the data output part of the previous FIFO is connected to the input part of the next FIFO for each stage FIFO. In addition, the connection between the FIFOs is connected via the switch 302 so that it can be disconnected.
[0043]
The operation of the data network communication device 100 according to the embodiment of the present invention configured as described above will be described below with reference to FIGS. FIG. 4 is a flowchart showing a method for detecting the number of packets traveling on the Internet network within a predetermined time of the data network communication device according to the embodiment of the present invention.
[0044]
As shown in FIG. 1, when a call is made via the Internet network 101, the destination from the call processing unit 104 is converted into an IP address by the IP packet conversion unit 111. The voice CODEC 112 that performs analog-digital conversion on the voice signal from the call processing unit 104 is converted into a PCM signal or the like.
[0045]
The IP packet conversion unit 111 packetizes the PCM signal converted from the voice data, adds the IP address, and transmits the packet as an IP packet from the data network i / f 110 to the Internet network 101. In this way, callers are connected via the Internet network 101, and a call is made between the callers by packet communication using the TCP / IP protocol.
[0046]
However, in the data network communication device 100 according to the embodiment of the present invention, the line connection required when using the Internet network 101 is not only the case where the customer makes the connection independently, but the Internet usually referred to as a service provider. This includes the case of communicating via an intermediary.
[0047]
When receiving a call, IP packetized voice data and the like is taken from the Internet network 101 into the IP packet conversion unit 111 via the data network i / f 110, and the voice data converted from the IP packet into a PCM signal, etc. (Hereinafter referred to as data) is retrieved. Data extracted from the IP packet is stored in the buffer control unit 109.
[0048]
Data is stored in the buffer control unit 109 for the amount of data, and then extracted again from the buffer control unit 109 in the order of storage, and sent to the audio CODEC 112. The data is converted into the original audio signal by the audio CODEC 112, and if it is recognized as the audio via the audio signal i / f 113, the data is reproduced as audio in the call processing unit 104.
[0049]
As shown in FIG. 2 and FIG. 3, if traffic of a packet on the Internet network 101 is in a normal state at the start of receiving a call, the value of the threshold setting register 203 is set to L, for example, and the buffer memory 205 is The first stage FIFO 301 to the L stage FIFO 303 are connected to form a FIFO structure, the switch 304 is disconnected, and an L stage FIFO is configured. The contents of the buffer memory counter 202 are cleared to 0 value.
[0050]
The data extracted from the IP packet conversion unit 111 is written from the A to the first-stage FIFO 301 by the buffer control circuit 201 via the bus 108 from the IP packet conversion unit 111. During this time, the buffer memory counter 202 is incremented (+1) every time the write data capacity exceeds the FIFO data storage capacity. When the data is fully written up to the L-th FIFO, the value of the buffer memory counter 202 becomes the L value, and the L value of the threshold setting register 203 is compared with the comparison circuit 204 to recognize that they match.
[0051]
Then, the buffer control circuit 201 starts reading data in the order in which the data is accumulated from B illustrated in the L-th stage FIFO 303. Data read by the buffer control circuit 201 is sent to the voice CODEC 112 via the bus 108, converted into the original voice signal, and reproduced as voice in the call processing unit 104.
[0052]
Even when the data accumulated in the L-stage FIFO is sequentially read out, if the traffic of the packet on the Internet network 101 is in a normal state, the data is continuously transmitted from the IP packet conversion unit 111. Since the data is sent and stored in the FIFO for L stages, there is no possibility that the data to be read disappears in the middle and the sound is interrupted in the middle.
[0053]
However, when the traffic of packets on the Internet network 101 is congested, the delay between packets that should be continued often increases, and even if the buffer memory 205 is configured with an FIFO of L stages and stores data, Depending on the degree of delay, all audio data may be output before the next audio data is accumulated. If it does so, it will be in the state where a voice is interrupted on the way, and trouble that a smooth voice call cannot be generated may occur.
[0054]
Therefore, when the traffic of packets on the Internet network 101 is congested, the number of FIFO stages in the buffer memory 205 is increased according to the congested state. Therefore, the value of the threshold setting register 203 is set to M greater than L, for example, and the buffer memory 205 is connected so that the first-stage FIFO 301 to the M-th FIFO 305 are in a FIFO structure, and the switch 306 is disconnected. Thus, FIFOs for M stages are configured. The contents of the buffer memory counter 202 are cleared to 0 value.
[0055]
The data extracted from the IP packet conversion unit 111 is written from the A to the first-stage FIFO 301 by the buffer control circuit 201 via the bus 108 from the IP packet conversion unit 111. During this time, the buffer memory counter 202 is incremented every time the write data capacity exceeds the FIFO data storage capacity of each stage. When the data is completely written up to the M-th stage FIFO 305, the value of the buffer memory counter 202 becomes the M value, and the M value of the threshold setting register 203 is compared with the comparison circuit 204 to recognize that they match.
[0056]
Then, the buffer control circuit 201 starts reading data in the order in which the data is accumulated from D shown in the M-th FIFO 305. Data read by the buffer control circuit 201 is sent to the voice CODEC 112 via the bus 108, converted into the original voice signal, and reproduced as voice in the call processing unit 104.
[0057]
As a result, even if a data reception delay occurs, data that can sufficiently cover the data reception delay is accumulated in the buffer memory 205, so that all data is output before the next data is accumulated. It does not occur, the data to be read disappears in the middle, and the sound is interrupted in the middle.
[0058]
The buffer memory control described above is realized by an external circuit such as the buffer memory counter 202, the threshold setting register 203, and the comparison circuit 204, but may be realized by program control by the CPU.
[0059]
As described above, the received voice data is reliably buffered by dynamically changing the data storage capacity of the buffer memory 205 in accordance with the traffic state of the packet on the Internet network 101. Regardless of the congestion situation, it is possible to ensure a constant call quality.
[0060]
Further, in order to ensure a constant call quality regardless of the congestion status of the Internet network 101, the connection form of the data network is not limited and no special circuit is required for the data network call apparatus 100, so that the connection is established. It is possible to reduce the connection cost of the data network and the cost of the apparatus main body.
[0061]
As shown in FIG. 4, the data network call device 100 according to one embodiment of the present invention detects the number of packets that travels through the Internet network 101 within a predetermined time by program control by the CPU 106.
[0062]
In a processing step (hereinafter referred to as ST) 401, the timer in the CPU 106 that counts time is cleared to zero, and at the same time, the timer in the CPU 106 is started to count. In addition, a packet counter that counts the number of packets traveling through the Internet network 101 is initialized to a zero value. Thereafter, the timer automatically keeps timing by the CPU's timer control.
[0063]
In ST402, the presence or absence of a packet detection signal from the IP packet conversion 111 of the packet processing unit 102 is recognized, and if there is a packet, the process proceeds to ST403, and then the process proceeds to ST404. If there is no packet, the process in ST403 is performed. Without moving to ST404. In ST403, since the packet is detected, the value of the packet counter is incremented (+1).
[0064]
In ST404, the timer value is compared with a predetermined time to be measured. If the timer value does not exceed the predetermined time to be timed, the process proceeds to ST402 and the above process is repeated. If the timer value exceeds the predetermined time to be measured, the predetermined time for detecting the number of packets has been exceeded, so the packet counting and timer timing are terminated, and the process proceeds to ST405.
[0065]
In ST405, the detection of the number of packets that traverse the Internet network 101 within a predetermined time is finished, and the number of packets that traverse the Internet network 101 within the predetermined time is counted in the packet counter. The number of FIFO stages in the buffer memory 205 is determined, and the value of the threshold setting register is set.
[0066]
Alternatively, when the IP packet conversion 111 of the packet processing unit 102 detects a packet going through the Internet network 101, the packet length of the packet is also notified at the same time. The number of FIFO stages is determined, and the value of the threshold setting register is set.
[0067]
In this way, either the number of packets that travel through the Internet network 101 within a predetermined time or the packet length of a packet that travels through the Internet network 101 is detected, and either the number of packets increases or the packet length of the packet is long. In such a case, the data storage capacity of the buffer memory 205 is increased. That is, the threshold setting register 203 of the buffer control unit 109 is set to a large value, and the number of FIFO stages of the buffer memory 205 is increased.
[0068]
As a result, the traffic congestion state can be easily realized by using an existing circuit such as the packet processing unit 102, so that no special circuit is required and the cost of the apparatus can be reduced.
[0069]
In addition, when the number of packets that traverse the Internet network 101 and the packet length of the packets that traverse the Internet network 101 within a predetermined time are detected and the number of packets increases or the packet length of the packets is long, the buffer memory 205 Increase the data storage capacity. That is, the threshold setting register 203 of the buffer control unit 109 may be set to a large value, and the number of FIFO stages of the buffer memory 205 may be increased.
[0070]
As a result, the traffic congestion state is detected over two-sided events of the number of packets going and going through the Internet network 101 and the packet length, so that the traffic congestion state can be detected more reliably. Further, since it can be easily realized by using a circuit such as the existing packet processing unit 102 to detect the traffic congestion state, a special circuit is not required, and the cost of the apparatus can be reduced.
[0071]
In addition, when the data network call device 100 is performing voice data reception processing via the call processing unit 104 and performing facsimile data transmission processing via the facsimile processing unit 105, the voice data reception processing amount The data storage capacity of the buffer memory 205 is increased according to the facsimile data transmission processing amount. That is, the threshold setting register 203 of the buffer control unit 109 is set to a large value, and the number of FIFO stages of the buffer memory 205 is increased.
[0072]
As a result, when other data is transmitted / received while the data network communication device 100 is performing voice data reception processing, the data storage capacity of the buffer memory further increases in accordance with the data processing amount for other transmission / reception. Therefore, when other data transmission / reception processing is performed, the voice data reception processing can be reliably received without interruption.
[0073]
Further, when a CNG signal or the like is detected in the audio signal i / f 113 of the signal data conversion unit 103 during data reception processing, the data storage capacity of the buffer memory 205 is dynamically set as a reception state by facsimile. It is not necessary to perform the operation to change.
[0074]
As a result, there is no problem in facsimile transmission / reception in which constant transmission / reception is always performed regardless of the traffic congestion state, even if buffer control is not performed. The overhead time of 100 processes can be reduced.
[0075]
Next, a data network call adapter device according to an embodiment of the present invention will be described with reference to FIG. FIG. 5 is a block diagram showing the overall configuration of the data network call adapter device according to the embodiment of the present invention.
[0076]
As shown in FIG. 5, a data network call adapter device 500 according to an embodiment of the present invention includes an existing telephone 501 as an audio signal i / f 113 of the data network call device 100 according to the embodiment of the present invention. Alternatively, a process for connecting a facsimile apparatus 502 or a personal computer 503 having a telephone function or a facsimile function is provided, and an existing telephone 501 or facsimile machine 502 or a telephone function or a facsimile function is provided instead of the telephone processing unit 104 and the facsimile processing unit 105. It is different from the data network communication device 100 according to the embodiment of the present invention in that a personal computer 503 is connected.
[0077]
As a result, the data network call device 100 can be realized by connecting the data network call adapter device 500 to the existing telephone 501 or the facsimile machine 502 or the personal computer 503 having a call function or a facsimile function. It is economical to use.
[0078]
【The invention's effect】
As explained above, according to the present invention, If To provide a data network communication device that ensures a constant call quality regardless of the Internet congestion status, does not limit the data network form to be connected, reduces the connection cost, and further reduces the cost of the device body Can do.
[Brief description of the drawings]
FIG. 1 is a block diagram of the overall configuration of a data network communication device according to an embodiment of the present invention.
FIG. 2 is a block diagram of the overall configuration of a buffer control unit of the data network communication device according to the embodiment;
FIG. 3 is a FIFO configuration diagram of a buffer control unit of the data network communication device according to the embodiment;
FIG. 4 is a flowchart for detecting the number of packets in the data network communication device according to the embodiment;
FIG. 5 is an overall configuration block diagram of a data network call adapter device according to an embodiment of the present invention;
[Explanation of symbols]
102 Packet processing unit
103 Signal data converter
104 Call processing unit
105 Facsimile processing section
109 Buffer control unit
201 Buffer control circuit
202 Buffer memory counter
203 Threshold setting register
204 Comparison circuit
205 Buffer memory

Claims (6)

  A packet processing unit that receives a packet sent via a data network and extracts data contained in the packet; a buffer memory that stores the data and has a variable data storage capacity; and a packet that travels through the data network within a predetermined time A data network comprising: means for determining a data storage capacity of the buffer memory according to the number and a packet length of a packet passing through the data network; and a control means for writing and reading the data to and from the buffer memory Telephone device.   When performing other data transmission processing while performing data reception processing, the data storage capacity of the buffer memory is determined according to the data reception processing amount and the other data transmission processing amount. The data network communication device according to claim 1.   2. A data network call device according to claim 1, further comprising a voice processing unit for performing voice call processing or a facsimile processing unit for transmitting and receiving data by a facsimile procedure. A packet processing unit that receives a packet sent via a data network and extracts data included in the packet; a buffer memory that stores the data and has a variable data storage capacity; and the traffic network according to a traffic state of the data network. A means for dynamically changing the data storage capacity of the buffer memory, wherein the data storage capacity of the buffer memory depends on the number of packets that traverse the data network within a predetermined time and the packet length of the packets that traverse the data network Determining means , control means for writing and reading the data to and from the buffer memory, facsimile processing means for transmitting and receiving data according to a facsimile procedure, and data reception in the buffer memory when a reception state by the facsimile is detected Change capacity dynamically Data network speaking apparatus and means not to perform the operation for.   A packet processing unit that receives a packet sent via a data network and extracts data contained in the packet; a buffer memory that stores the data and has a variable data storage capacity; and a packet that travels through the data network within a predetermined time Means for determining the data storage capacity of the buffer memory in accordance with the number and the packet length of the packet traveling through the data network, control means for writing and reading the data to and from the buffer memory, and individual telephone devices Or a data network call adapter device comprising a facsimile device or a means for connecting to a call function or a device having a facsimile function.   The packet received via the data network is received, the data contained in the packet is taken out, and the data is determined according to the number of packets that travel within the data network and the packet length of the packet that travels through the data network. A data network call control method for determining a data storage capacity of a buffer memory in which data is stored and writing and reading the data to and from the buffer memory.

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