JP4714571B2 - COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD - Google Patents

Description

  The present invention relates to a communication apparatus that communicates with other communication apparatuses using radio resources, a communication system that includes the communication apparatuses, and a communication method that performs communication using radio resources.

In the transmission of voice packets between a radio terminal such as a mobile phone and a radio communication base station in voice communication, as shown in FIG. 5, radio resources are set between these radio terminals and the radio communication base station. A voice packet is transmitted to a radio resource (see, for example, Patent Document 1). In such transmission of voice packets, in order to facilitate a conversation between speakers, real-time characteristics are important, and retransmission is not performed even if a voice packet is lost on a radio resource. Is.
JP-A-2005-278118

  However, even when voice packets are frequently lost due to deterioration in communication quality of radio resources, if the retransmission is not performed, it becomes difficult to talk between speakers. For this reason, even when the communication quality of radio resources is deteriorated, it is required to improve the reliability of voice packet transmission.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to improve the reliability of transmission of audio data even when the communication quality of radio resources deteriorates. An apparatus, a communication system, and a communication method are provided.

  The present invention is a communication apparatus that communicates with another communication apparatus using a radio resource, and a value indicating the communication quality of the radio resource set between the other communication apparatus and a predetermined threshold value And when the communication quality determination unit determines that the value indicating the communication quality of the radio resource is lower than the threshold value, adds a radio resource to the other communication device. Radio resource setting means for setting, and transmission means for transmitting audio data at different timings to each of a plurality of radio resources set between the other communication devices.

  With this configuration, when the communication quality of radio resources set between communication devices deteriorates, radio resources are added so that the same audio data is transmitted to each of the plurality of radio resources at different timings. You can also Therefore, even if the communication quality of a plurality of radio resources deteriorates at the same timing, the audio data transmitted through each radio resource is out of timing, so that the same audio data is prevented from being lost. Thus, the certainty of voice data transmission is improved.

  In the communication device of the present invention, after the radio resource is additionally set by the radio resource setting unit, the communication quality determination unit determines that the value indicating the communication quality of any radio resource exceeds the threshold value. In this case, a radio resource releasing unit that releases radio resources other than the radio resource may be provided.

  With this configuration, even if the communication quality of the radio resource deteriorates and the radio resource is additionally set, if it improves again, some of the multiple radio resources are released, so the set radio resource is minimized. Therefore, efficient use can be achieved.

  The present invention is a communication device that communicates with other communication devices using radio resources, and that includes receiving means for receiving audio data transmitted at different timings for each of a plurality of radio resources, and the plurality of radio When the voice data transmitted by the first radio resource among the resources is lost, the lost voice data is transmitted by the second radio resource of the plurality of radio resources and is received from the receiving unit. And holding means for holding the audio data after the missing audio data transmitted by the first radio resource and received by the receiving means until it is received.

  With this configuration, when audio data is transmitted to each of a plurality of radio resources at different timings, it is possible to appropriately acquire the audio data even if the communication quality of the radio resources deteriorates.

  The communication apparatus of the present invention may further include an output unit that outputs the missing audio data received by the receiving unit and the audio data held by the holding unit in a predetermined order. Good.

  A communication system according to the present invention includes the communication device according to claim 1 or 2 and the communication device according to claim 3 or 4.

  The present invention is a communication method for performing communication using radio resources, the communication quality determination step of comparing a value indicating the communication quality of radio resources set between communication devices and a predetermined threshold value, When the communication quality determination step determines that the value indicating the communication quality of the radio resource is lower than the threshold, the radio resource setting step for additionally setting a radio resource between the communication devices and the communication device is set. Each of the plurality of radio resources includes a transmission step of transmitting audio data at different timings.

  In the communication method of the present invention, after a radio resource is additionally set in the radio resource setting step, it is determined in the communication quality determination step that a value indicating the communication quality of any radio resource exceeds the threshold value. In this case, a radio resource releasing step for releasing radio resources other than the radio resource may be provided.

  The present invention is a communication method for performing communication using radio resources, wherein a reception step of receiving audio data transmitted at different timings for each of a plurality of radio resources, and a first of the plurality of radio resources When there is a loss in the audio data transmitted through the radio resource, the lost audio data is transmitted through the second radio resource of the plurality of radio resources and received from the reception step. A holding step of holding, in a storage unit, audio data after the missing audio data transmitted through the first radio resource and received in the receiving step.

  Further, the communication method of the present invention includes a step of outputting the missing voice data received in the receiving step and the voice data held in the storage means by the holding step in a predetermined order. May be.

  According to the present invention, even if the communication quality of a plurality of radio resources deteriorates at the same timing, the same audio data is prevented from being lost, and the reliability of audio data transmission is improved.

  FIG. 1 is a diagram showing a first configuration of a communication system according to the present invention. The communication system in FIG. 1 includes a wireless terminal 10 such as a mobile phone, a wireless communication base station 20 that transmits and receives voice packets between the wireless terminal 10, and between the wireless terminal 10 and the wireless communication base station 20. And the radio resource α set in (1). The wireless terminal 10 has a memory 11 that holds voice packets, and the wireless communication base station 20 has a memory 21 that holds voice packets.

  On the other hand, FIG. 2 is a diagram showing a second configuration of the communication system according to the present invention. The communication system in FIG. 2 includes a wireless terminal 10 such as a mobile phone, a wireless communication base station 20 that transmits and receives voice packets between the wireless terminal 10, and between the wireless terminal 10 and the wireless communication base station 20. Are configured with a radio resource α and a radio resource β.

  The radio terminal 10 and the radio communication base station 20 collect information on communication quality of the radio resource α, a statistical value (communication quality statistical value) indicating the communication quality of the radio resource α, and a predetermined threshold (resource (Additional threshold). Here, the communication quality information is, for example, SINR, which is the ratio between the signal component and the noise component, RSSI, which is the ratio between the power of the signal component and the noise component, and the communication quality statistical value is, for example, a measurement It is an average value of values indicating communication quality. When the communication quality statistical value of the radio resource α exceeds the resource addition threshold value, in other words, when the communication quality is good, the radio terminal uses only the radio resource α as shown in FIG. Voice packets are transmitted and received between the wireless communication base station 10 and the wireless communication base station 20.

  On the other hand, when the communication quality statistical value of the radio resource α falls below the resource addition threshold, in other words, when the communication quality deteriorates, as shown in FIG. 2, the radio terminal 10 and the radio communication base station 20 A radio resource β is set in addition to the radio resource α. Thereafter, voice packets are transmitted and received between the radio terminal 10 and the radio communication base station 20 using the radio resource α and the radio resource β.

  Thereafter, when the communication quality statistical value of the radio resource α exceeds a predetermined threshold (resource release threshold), in other words, when the communication quality becomes good again, the radio terminal 10 and the radio communication base station 20 releases the radio resource β. Here, the resource release threshold value may be the same value or a different value from the resource addition threshold value. Thereafter, as shown in FIG. 1, voice packets are transmitted and received between the wireless terminal 10 and the wireless communication base station 20 using only the wireless resource α.

  Hereinafter, the operation of the communication system will be described with reference to the sequence diagram. FIG. 3 is a sequence diagram showing the operation of the communication system. In the following description, it is assumed that UDP (User Datagram Protocol) is employed in the communication system, and the transmission side does not confirm that the voice packet is received on the reception side.

  The wireless terminal 10 and the wireless communication base station 20 transmit and receive voice packets to and from each other using the wireless resource α (S101). During the transmission and reception of the voice packet, the radio terminal 10 and the radio communication base station 20 collect information on the communication quality of the radio resource α, compare the communication quality statistical value of the radio resource α and the resource addition threshold, It is determined whether or not the communication quality statistical value of the radio resource α is below the resource addition threshold (S102).

  When the communication quality statistical value of the radio resource α falls below the resource addition threshold, the radio communication base station 20 transmits a redundancy resource addition request, which is a request for adding a radio resource, to the radio terminal 10. The wireless terminal 10 that has received this redundancy resource addition request transmits a redundancy resource addition response as a response to the wireless communication base station 20 (S103). Note that the wireless terminal 10 may transmit a redundancy resource addition request to the wireless communication base station 20, and the wireless communication base station 20 may transmit a redundancy resource addition response to the wireless terminal 10. .

  After the exchange of the redundancy resource addition request and the redundancy resource addition response, the radio terminal 10 and the radio communication base station 20 additionally set the radio resource β between the radio terminal 10 and the radio communication base station 20 ( S104). Thereafter, the wireless terminal 10 and the wireless communication base station 20 transmit and receive voice packets to and from each other using both the wireless resource α and the wireless resource β (S105, S106). At this time, the radio terminal 10 and the radio communication base station 20 transmit the same voice packet to the radio resource α and the radio resource β at different timings. Specifically, the radio terminal 10 and the radio communication base station 20 transmit the voice packet transmitted to the radio resource α to the radio resource β again after a predetermined time has elapsed since the transmission.

  When a voice packet transmitted with the radio resource α is lost, the receiving-side radio terminal 10 and the radio communication base station 20 wait until the missing voice packet is transmitted with the radio resource β. Processing is performed (S107).

  FIG. 4 is a diagram illustrating an example of processing when a voice packet transmitted with the radio resource α is lost. In FIG. 4, times t0 to t3 each correspond to the time of one time slot.

  At time t0, the wireless terminal 10 transmits the voice packet A with sequence number 1 to the wireless resource α. The radio communication base station 20 receives the voice packet A transmitted with the radio resource α and outputs it to the WAN network γ.

  Next, at time t1, the wireless terminal 10 transmits the voice packet B with the sequence number 2 to the wireless resource α. However, if the voice packet B is lost due to the influence of noise or the like during transmission of the radio resource α, the radio communication base station 20 cannot receive it.

  Further, at time t2, the radio terminal 10 transmits the voice packet C with sequence number 3 to the radio resource α, and the radio packet A with sequence number 1 transmitted to the radio resource α at time t0 is newly set. Send to resource β. That is, the radio terminal 10 delays the voice packet transmitted to the radio resource α by a time corresponding to two time slots and transmits the voice packet to the radio resource β again. The radio communication base station 20 receives the voice packet C transmitted with the radio resource α and the voice packet A transmitted with the radio resource β. Here, the radio communication base station 20 receives the voice packet of sequence number 3 before receiving the missing voice packet B of sequence number 2. In this case, the radio communication base station 20 holds the voice packet C, which is a voice packet after the lost voice packet B, in the memory 21.

  Further, at time t3, the radio terminal 10 transmits the voice packet D with the sequence number 4 to the radio resource α, and the radio packet B with the sequence number 2 transmitted to the radio resource α at the time t1 is newly set. Send to resource β. The radio communication base station 20 receives the voice packet D transmitted with the radio resource α and the voice packet B transmitted with the radio resource β. Further, the radio communication base station 20 outputs the received voice packets or the voice packets held in the memory 21 in the order of sequence numbers. That is, the radio communication base station 20 first outputs the voice packet B transmitted with the radio resource β, that is, the voice packet B lost during transmission of the radio resource α to the WAN. Further, the radio communication base station 20 sequentially outputs the voice packet C held in the memory 21 and the received voice packet D to the WAN. As a result, voice packets A to D are transmitted to the WAN network γ in the order of the sequence numbers.

  In this way, the voice packets A to D are transmitted from the radio terminal 10 to the radio communication base station 20 by the radio resource α and the radio resource β, and further output from the radio communication base station 20 to the WAN network γ. Note that when voice packets are transmitted from the radio communication base station 20 to the radio terminal 10 using the radio resource α and the radio resource β, the time transition is the same as in FIG.

  Again, referring back to FIG. After the process of waiting until the missing voice packet is transmitted through the radio resource β (S107), the radio terminal 10 and the radio communication base station 20 collect information on the communication quality of the radio resource α, and the radio resource α Is compared with the resource addition threshold value, it is determined whether or not the communication quality statistical value of the radio resource α exceeds the resource release threshold value (S108).

  When the communication quality statistical value of the radio resource α exceeds the resource release threshold, the radio terminal 10 transmits a resource release request for redundancy, which is a request for releasing the radio resource, to the radio communication base station 20. The wireless communication base station 20 that has received this redundancy resource release request transmits a redundancy resource release response to the wireless terminal 10 as a response (S109). The wireless communication base station 20 may transmit a redundancy resource release request to the wireless terminal 10, and the wireless terminal 10 may transmit a redundancy resource release response to the wireless communication base station 20. .

  After the exchange of the redundancy resource release request and the redundancy resource release response, the radio terminal 10 and the radio communication base station 20 release the radio resource β set between the radio terminal 10 and the radio communication base station 20. (S110). After that, the wireless terminal 10 and the wireless communication base station 20 transmit / receive voice packets to / from each other again using only the wireless resource α (S111).

  As described above, in the communication system according to the present embodiment, when the communication quality of the radio resource α set in advance between the radio terminal 10 and the radio communication base station 20 deteriorates, the radio resource β is added. The same voice packet is transmitted to each of the plurality of radio resources α and β at different timings. Therefore, even if the communication quality of the radio resources α and β deteriorates at the same timing, the voice packets transmitted through the radio resources α and β are out of timing, so that the same voice packets are not lost. Thus, the certainty of transmission of voice packets is improved. Further, when the communication quality of the preset radio resource α is improved while the same voice packet is transmitted to each of the plurality of radio resources α and β at different timings, additional setting is performed. Since the radio resource β is released, the radio resource set between the radio terminal 10 and the radio communication base station 20 can be minimized to achieve efficient use.

  In the above-described embodiment, when the communication quality of the preset radio resource α is improved, the additionally set radio resource β is released, but the released radio resource is It is not limited to the radio resource β. For example, the communication quality of the radio resource β additionally set by the radio terminal 10 and the radio communication base station 20 is determined, and when the communication quality of the radio resource β becomes good, the radio resource α set in advance is changed. You may make it open.

  In the above-described embodiment, the case where two radio resources α and β are set has been described, but the present invention can also be applied to the case where three or more radio resources are set. Furthermore, in the above-described embodiment, both the wireless terminal 10 and the wireless communication base station 20 determine the communication quality of the wireless resource, but only one of them determines, and depending on the communication quality, A redundancy resource addition request or a redundancy resource release request may be transmitted.

  As described above, the communication device, the communication system, and the communication method according to the present invention can improve the reliability of transmission of audio data, and are useful as a communication device or the like.

1 is a first configuration diagram of a communication system. It is a 2nd block diagram of a communication system. It is a sequence diagram which shows operation | movement of a communication system. It is a figure which shows an example of a process when a missing | missing voice packet arises. It is a sequence diagram which shows operation | movement of the conventional communication system.

Explanation of symbols

  10 wireless terminals, 11, 21 memory, 20 wireless communication base stations, α, β wireless resources, γ WAN network.

Claims (4)

A communication device that communicates with other communication devices using radio resources,
Communication quality determination means for comparing a value indicating the communication quality of the first radio resource set with the other communication device and a predetermined threshold;
A radio resource setting unit configured to additionally set a second radio resource with the other communication device when the communication quality determination unit determines that a value indicating the communication quality of the radio resource is lower than the threshold; ,
And receiving means transmit to receive send audio data including a plurality of voice packets in Oite different timings to each of the plurality of radio resources to be set between the other communication apparatus,
Output means for sequentially outputting voice packets received by the transmission / reception means;
When a voice packet transmitted by the first radio resource is lost, the voice packet transmitted after the first radio resource and received by the transmission / reception unit is held after the missing voice packet. a holding means, possess,
The output means, when a voice packet transmitted by the first radio resource is lost, until the lost voice packet is transmitted by the second radio resource and received from the transmission / reception means, Waiting for output of the voice packet received by the transmission / reception means, and after the missing voice packet is received by the transmission / reception means, the missing voice packet and the voice packet held by the holding means are predetermined. A communication apparatus that outputs in order . After the second radio resource is additionally set by the radio resource setting means, when the communication quality determination means determines that the value indicating the communication quality of any one of the radio resources exceeds the threshold, the radio resource The communication apparatus according to claim 1, further comprising a radio resource releasing unit that releases radio resources other than resources. A communication method for performing communication using radio resources,
A communication quality determination step of comparing a value indicating the communication quality of the first radio resource set between the communication devices with a predetermined threshold;
A radio resource setting step of additionally setting a second radio resource between the communication devices when it is determined by the communication quality determination step that a value indicating the communication quality of the radio resource is lower than the threshold;
And receiving to Luz step feed by transmitting and receiving means the audio data including a plurality of voice packets in Oite different timings to each of the plurality of radio resources to be set between the communication device,
An output step of sequentially outputting voice packets received by the transmission / reception means;
A means for holding voice packets after the missing voice packet transmitted by the first radio resource and received by the transmitting / receiving means when a voice packet transmitted by the first radio resource is lost. It possesses a step of holding, to,
In the output step, when a voice packet transmitted by the first radio resource is lost, until the lost voice packet is transmitted by the second radio resource and received by the transmission / reception unit, Waiting for output of the voice packet received by the transmission / reception means, and after the missing voice packet is received by the transmission / reception means, the missing voice packet and the voice packet held by the holding means are predetermined. A communication method characterized by outputting in order . After the second radio resource is additionally set by the radio resource setting step, when it is determined by the communication quality determination step that a value indicating the communication quality of any one of the radio resources exceeds the threshold, the radio resource The communication method according to claim 3 , further comprising a radio resource releasing step for releasing radio resources other than resources.

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