JP7332660B2 - RELAYER, PROGRAM, SYSTEM, COMMUNICATION TERMINAL AND METHOD - Google Patents

Description

The present invention relates to a relay device, program, system, communication terminal and method.

Japanese Unexamined Patent Application Publication No. 2002-200002 describes an information processing apparatus that prevents the transmission speed of the entire system from decreasing even when the state of some of the lines changes.
[Prior art documents]
[Patent Literature]
[Patent Document 1] International Publication No. 2017/183244

According to one embodiment of the present invention, a relay device is provided. The relay device may include a packet receiver that receives a packet generated from transmission data by the source terminal and wirelessly transmitted by mobile communication. The relay device may include a packet storage unit that stores the packet received by the packet reception unit. The relay device may include a packet transmission section that transmits the packet received by the packet reception section to a transmission destination terminal, which is a transmission destination of the transmission data from the transmission source terminal, via the Internet. The relay device uses the plurality of packets stored in the packet storage unit to determine whether or not there is a missing packet that has been transmitted by the transmission source terminal and has not been received by the packet reception unit. A missing determination unit may be provided. The relay device may include a retransmission request transmission unit that transmits a retransmission request requesting retransmission of the missing packet to the transmission source terminal in response to determination by the loss determination unit that the missing packet exists. The packet transmission unit may transmit the missing packet, which is retransmitted by the transmission source terminal and received by the packet reception unit, in response to the retransmission request, to the destination terminal.

The relay device may include a communication quality report generating section that generates a communication quality report regarding the communication quality of the mobile communication based on the determination result of the lack determination section. The relay device may include a communication quality report transmitting section that transmits the communication quality report generated by the communication quality report generating section to the destination terminal. The communication quality report generation unit may generate the communication quality report in response to the loss determination unit determining that the missing packet exists.

The relay device may include an anomaly determination unit that determines an anomaly in the mobile communication. The abnormality determining unit may determine that an abnormality has occurred in the mobile communication when the ratio of the missing packets to the packets received by the packet receiving unit exceeds a predetermined first threshold. The abnormality determination unit may determine that an abnormality has occurred in the mobile communication when the number of missing packets within a predetermined first period exceeds a predetermined second threshold.

The relay device may include an address storage unit that associates and stores the source address of the source terminal and the destination address of the destination terminal. The packet transmission unit may transmit the packet to the transmission destination address stored in the address storage unit in association with the transmission source address included in the packet received by the packet reception unit. The relay device may include an address receiving unit that receives the source address and the destination address from a relay service reception device that receives an application from a user for a relay service that relays the transmission data. The relay device may include a relay service reception unit that receives from a user an application for a relay service for relaying the transmission data. The relay device may include a user information acquisition unit that acquires the source address and the destination address included in the application. The relay device may include an address notification unit that notifies the user of the address of the relay device in response to the reception of the application from the user by the relay service reception unit.

The relay device may include a packet identification unit that identifies a predetermined number of packets that are stored in the packet storage unit and are not used for determination by the loss determination unit. The loss determining unit may determine whether or not the missing packet exists using the predetermined number of packets specified by the packet specifying unit. The packet transmission unit transmits the predetermined number of packets when the loss determination unit determines that the missing packets do not exist, and when the loss determination unit determines that the missing packets exist. After the retransmission request is transmitted by the retransmission request transmitting unit, the missing packet and the predetermined number of packets received by the packet receiving unit may be transmitted to the destination terminal. The packet transmission unit suspends transmission of the packet stored in the packet storage unit to the destination terminal when the loss determination unit determines that the missing packet exists, and the packet reception unit may transmit the packet whose transmission was suspended and the missing packet to the destination terminal in response to receiving the missing packet. If the packet receiving unit does not receive the missing packet even after a timeout period has passed since the retransmission request transmitting unit transmitted the retransmission request, the packet transmitting unit transmits the packet whose transmission has been suspended. It may be sent to the destination terminal.

The relay device may include a timeout period management unit that sets the timeout period. When the ratio of the missing packets to the packets received by the packet receiving unit exceeds a predetermined third threshold, the timeout period management unit sets the timeout period to a first timeout period, and sets the ratio does not exceed the third threshold, the timeout period may be set to a second timeout period shorter than the first timeout period. When the number of missing packets within a predetermined second period exceeds a predetermined fourth threshold, the timeout period management unit sets the timeout period to a third timeout period, and sets the timeout period to a third timeout period. If the number of missing packets within the period does not exceed the fourth threshold, the timeout period may be set to a fourth timeout period shorter than the third timeout period.

The packet storage unit may store a packet received by the packet reception unit, which is wirelessly transmitted by a transmission source terminal different from the transmission source terminal through mobile communication in accordance with an instruction from the transmission source terminal. . The missing determination unit uses the plurality of packets stored in the packet storage unit to determine missing packets transmitted by the transmission source terminal and not received by the relay device, and the other transmission. It may be determined whether there are at least some missing packets that have been sent by the source terminal and not received by the relay device. The retransmission request transmission unit may transmit the retransmission request to the other transmission source terminal in response to the loss determination unit determining that the missing packet exists.

The relay device comprises a request destination selection unit that selects a transmission destination to which the retransmission request is transmitted from the transmission source terminal and the other transmission source terminal when the loss determination unit determines that the missing packet exists. you can The retransmission request transmission unit transmits the retransmission request to the transmission source terminal when the transmission source terminal is selected by the request destination selection unit, and transmits the retransmission request to the transmission source terminal when the other transmission source terminal is selected. A retransmission request may be sent to the other source terminal. When the packet receiving unit receives the missing packet retransmitted by the other transmission source terminal in response to the retransmission request, the packet transmission unit transmits the missing packet retransmitted by the other transmission source terminal to the transmission destination. You can send it to your terminal. The relay device may be the MEC server.

According to one embodiment of the present invention, there is provided a program for causing a computer to function as the relay device.

According to one embodiment of the invention, a system is provided. The system may comprise a relay service reception device. The system may comprise a relay device. The relay service receiving apparatus receives from a user an application for a relay service for relaying the transmission data so as to transmit the transmission data from the transmission source terminal to the transmission destination terminal, and the transmission source terminal obtained from the user. and the destination address of the destination terminal may be transmitted to the relay device. The relay device may have an address receiving unit that receives the source address and the destination address from the relay service reception device. The relay device may have an address storage unit that stores the transmission source address and the transmission destination address received by the address reception unit in association with each other. The relay device may have a packet receiving unit that receives a packet generated from the transmission data by the transmission source terminal and wirelessly transmitted by mobile communication. The relay device may have a packet storage unit that stores the packet received by the packet reception unit. The relay device transmits the packet received by the packet receiving unit to the destination address stored in the address storage unit in association with the source address included in the packet via the Internet. It may have a packet transmitter for The relay device uses the plurality of packets stored in the packet storage unit to determine whether or not there is a missing packet that has been transmitted by the transmission source terminal and has not been received by the packet reception unit. It may have a missing determination unit for determination. The relay device transmits a retransmission request requesting retransmission of the missing packet included in the packet received by the packet receiving unit in response to the missing packet being determined by the missing packet determining unit. It may have a retransmission request transmission unit that transmits to the original address. The packet transmission unit may transmit, to the destination address, the missing packet retransmitted by the transmission source terminal in response to the retransmission request and received by the packet reception unit.

According to one embodiment of the present invention, a communication terminal is provided. The communication terminal may include a packet generator that generates packets from transmission data. The communication terminal wirelessly transmits the packet generated by the packet generator to the relay device by mobile communication in order to transmit the transmission data to the destination terminal of the transmission data via the Internet. A transmitter may be provided. The communication terminal instructs another communication terminal to transmit, to another communication terminal, transmission instruction information instructing wireless transmission of a packet to the relay device by mobile communication so as to transmit the transmission data to the destination terminal via the Internet. An information transmitter may be provided. The communication terminal determines whether the relay device detects missing packets transmitted by the packet transmission unit and not received by the relay device, and packets transmitted by the other communication terminal and received by the relay device. A retransmission request receiving unit may be provided for receiving a retransmission request requesting retransmission of the missing packet, which has been transmitted after determining that at least one of the missing packets exists. The packet transmission unit may retransmit the missing packet to the relay device in response to the retransmission request reception unit receiving the retransmission request.

The instruction information transmitting unit transmits retransmission instruction information instructing retransmission of the missing packet to the relay device to the other communication terminal in response to the retransmission request receiving unit receiving the retransmission request. You can The communication terminal may include a communication quality report receiving section that receives a communication quality report indicating communication quality between the communication terminal and the relay device from the relay device. In response to the retransmission request receiving unit receiving the retransmission request, the communication terminal transmits the retransmission instruction information to the other communication terminal based on the communication quality between the communication terminal and the relay device. An instruction determination unit that determines whether or not to transmit may be provided. The instruction information transmitting section may transmit the retransmission instruction information to the other communication terminal when the instruction determination section determines to transmit the retransmission instruction information to the other communication terminal. The communication quality report receiving unit may further receive a communication quality report indicating communication quality between the other communication terminal and the relay device from the relay device. The instruction determination unit may determine whether or not to transmit the retransmission instruction information to the other communication terminal, further based on the communication quality between the other communication terminal and the relay device.

The communication terminal receives from the relay device a communication quality report indicating communication quality between the communication terminal and the relay device, and a communication quality report indicating communication quality between the other communication terminal and the relay device. and a communication quality report receiver that receives the In response to the retransmission request receiving unit receiving the retransmission request, the communication terminal determines the communication quality between the communication terminal and the relay device and the communication quality between the other communication terminal and the relay device. A retransmission determination unit may be provided for determining whether the packet transmission unit retransmits the missing packet to the relay device based on the communication quality. When the retransmission determination unit determines that the packet transmission unit retransmits the missing packet to the relay device, the packet transmission unit may retransmit the missing packet to the relay device. When the retransmission determination unit determines that the packet transmission unit does not retransmit the missing packet to the relay device, the instruction information transmission unit provides retransmission instruction information for instructing retransmission of the missing packet to the relay device. may be transmitted to the other communication terminal.

According to one aspect of the present invention, there is provided a program for causing a computer to function as the communication terminal.

According to one embodiment of the invention, a computer-implemented method is provided. The method may comprise a step of receiving, by a packet receiver, a packet generated from transmission data by a source terminal and wirelessly transmitted by mobile communication. The method may comprise a packet store storing said packet received by said packet receiver. The method may comprise a step of a packet transmitter transmitting the packet received by the packet receiver to a destination terminal to which the data transmitted by the source terminal is to be transmitted via the Internet. The method determines whether there is a missing packet transmitted by the source terminal and not received by the packet receiving unit, using the plurality of packets stored in the packet storage unit. A step of determining whether or not may be provided. The method comprises a step of a retransmission request transmitting unit transmitting a retransmission request requesting retransmission of the missing packet to the transmission source terminal in response to determination by the loss determination unit that the missing packet exists. good. The method may comprise the packet receiver receiving the missing packet retransmitted by the source terminal in response to the retransmission request. The method may comprise the step of said packet transmitter transmitting said missing packets received by said packet receiver to said destination terminal.

According to one embodiment of the invention, a computer-implemented method is provided. The method may comprise a packet generator generating packets from the transmitted data. In the method, the packet transmission unit transmits the packet generated by the packet generation unit to a relay device via mobile communication in order to transmit the transmission data to a destination terminal, which is the destination of the transmission data, via the Internet. It may comprise the step of wirelessly transmitting. In the method, an instruction information transmitting unit transmits transmission instruction information instructing wireless transmission of a packet to the relay device by mobile communication so as to transmit the transmission data to the destination terminal via the Internet through another communication. sending to the terminal. The method is characterized in that the relay device detects missing packets transmitted by the packet transmission unit and not received by the relay device and missing packets transmitted by the other communication terminal and not received by the relay device. The retransmission request receiving unit may receive a retransmission request requesting retransmission of the missing packet, which is transmitted after determining that at least one of the missing packets exists. The method may comprise the step of the packet transmitter retransmitting the missing packet to the relay device in response to the retransmission request receiver receiving the retransmission request.

It should be noted that the above summary of the invention does not list all the necessary features of the invention. Subcombinations of these feature groups can also be inventions.

An example system 10 is shown schematically. An example of the flow of processing by the relay device 100 is schematically shown. An example of the flow of processing by the relay device 100 is schematically shown. An example of the flow of processing by the relay device 100 is schematically shown. An example of the functional configuration of the relay device 100 is shown schematically. 2 schematically shows another example of the functional configuration of the relay device 100. FIG. An example of the functional configuration of a relay service reception device 500 is shown schematically. An example of the flow of processing by the relay device 100 is schematically shown. An example of the operation of the communication terminal 200 and the relay service reception device 500 is shown schematically. Another example of system 10 is shown schematically. 2 schematically shows another example of the functional configuration of the relay device 100. FIG. An example of the functional configuration of communication terminal 200 is shown schematically. An example of the functional configuration of the communication terminal 250 is shown schematically. An example of operations of relay device 100, communication terminal 200, and communication terminal 250 is schematically shown. Another example of the operation of relay device 100, communication terminal 200, and communication terminal 250 is schematically shown. 1 schematically shows an example of a hardware configuration of a computer 1200 functioning as a relay device 100. FIG.

Since most of the quality deterioration factors of data communication by mobile phones are in the wireless communication section, the transmission data is once received by MEC (Multi-access Edge Computing) of the 5G mobile network, and the communication quality is measured and fed back. Communication quality can be improved in a shorter period of time than when packet control is performed at the terminal. The transmission data received by the MEC is transferred to the receiving terminal after changing the settings of the destination address and port. At the same time, by sending a mobile quality report from MEC, it becomes possible to distinguish whether the faulty section is a mobile section or other sections, and it becomes possible to quickly proceed with fault recovery. This communication quality improvement method works by implementing corresponding software in 5G terminals and MECs in the 5G network.

Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. Also, not all combinations of features described in the embodiments are essential for the solution of the invention.

FIG. 1 schematically illustrates an example system 10 . A system 10 according to one embodiment may include a relay device 100 and a relay service reception device 500 . The system 10 may have a base station device 50 . System 10 may comprise communication terminal 200 . System 10 may include camera 300 . System 10 may comprise communication terminal 400 .

Relay device 100 may relay transmission data to be transmitted from communication terminal 200 to communication terminal 400 . Communication terminal 200 may be an example of a source terminal. Communication terminal 400 may be an example of a destination terminal. For example, the relay device 100 may store the address of the source terminal and the address of the destination terminal in association with each other in advance, and relay the transmission data according to the association.

The relay device 100 may receive transmission data from the communication terminal 200 via the base station device 50 and the core network 20 . The relay device 100 may transmit the transmission data to the address of the communication terminal 400 stored in association with the address of the communication terminal 200, for example. The relay device 100 may transmit transmission data to the communication terminal 400 via the core network 20 and the Internet 40 .

The relay device 100 may determine whether or not there is data missing in the transmission data received from the communication terminal 200 . When relay device 100 determines that data is missing, relay device 100 may request communication terminal 200 to resend the missing data. Communication terminal 200 may resend missing data in response to a request from relay device 100 .

The relay device 100 may function as an MEC, for example. That is, the relay device 100 may be an MEC server. For example, one relay device 100 may be arranged for a plurality of base station devices 50 . The relay device 100 may be arranged for each district, and may correspond to a plurality of base station devices 50 within the district. Examples of districts include municipalities, prefectures, and the like. A plurality of relay devices 100 may be arranged for one district.

Core network 20 may be provided by a carrier. Core network 20 may conform to any mobile communication system. The core network may conform to, for example, a 5G (5th Generation) communication system. The core network may conform to mobile communication systems after the 6G (6th Generation) communication system. The core network may conform to a 3G (3rd Generation) communication system. The core network may comply with the LTE (Long Term Evolution) communication system.

Communication terminal 200 may receive transmission data to be transmitted to communication terminal 400 from another device. Communication terminal 200 may receive transmission data from a data generation device that generates data. In FIG. 1, a camera 300 is shown as an example of the data generation device. Communication terminal 200 may itself generate transmission data to be transmitted to communication terminal 400 .

Communication between the communication terminal 200 and the data generation device may be wireless communication, for example. Examples of wireless communication systems include Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), and the like. Communication between the communication terminal 200 and the data generation device may be wired communication.

The transmission data may be image data. The transmission data may be, for example, video data. The transmission data may be still image data, for example. The transmitted data may be input data entered by a user. The transmitted data may be detected data detected by a sensor.

Communication terminal 200 may generate a packet from transmission data and transmit the generated packet to relay device 100 . Communication terminal 200 may generate, for example, a UDP (User Datagram Protocol) packet.

A packet may include a header and a payload. The header may contain the source address. The header may contain the destination address. The header may include a Sequence Number (SN) to identify the packet. The header may include a header checksum to detect errors in the header. The header may contain other information such as header length and packet length.

Communication terminal 200 may be a terminal carried by a user. Communication terminal 200 may be, for example, a mobile phone such as a smart phone. Communication terminal 200 may be a tablet terminal. Communication terminal 200 may be a wearable terminal.

A data generation device may be any device that can generate and transmit data. The data generator may be a so-called IoT (Internet Of Things) device. The data generator may be a robot used for telesurgery and the like. A data generator may be, for example, an automobile. The data generation device may be, for example, a game machine.

Communication terminal 400 may be any terminal as long as it is capable of receiving data via Internet 40 . Communication terminal 400 may be, for example, a PC (Personal Computer). Communication terminal 400 may be a smartphone, a tablet terminal, or the like.

Communication terminal 400 may determine whether or not the transmission data received from relay device 100 has data missing. When the communication terminal 400 determines that data is missing, the communication terminal 400 may request the relay device 100 to resend the missing data. When relay device 100 stores data requested to be retransmitted by communication terminal 400 in the buffer, relay device 100 may retransmit the data to communication terminal 400 . If the data requested to be retransmitted by communication terminal 400 is not stored in the buffer, relay device 100 may request communication terminal 200 to retransmit the data.

Relay service accepting apparatus 500 may accept an application for a relay service for transmission data from a user of communication terminal 200 . Relay service accepting apparatus 500 may transmit the address of communication terminal 200 and the address of communication terminal 400 included in the application to relay apparatus 100 in response to accepting the application from the user. The relay service receiving device 500 may notify the user of the address of the relay device 100 in response to receiving the application from the user. Note that the relay device 100 and the relay service reception device 500 may be integrated. That is, the relay device 100 may have the function of the relay service reception device 500 .

In a conventional communication system, when a transmission source terminal using mobile communication transmits transmission data to a transmission destination terminal connected to the Internet, if data loss occurs, the transmission destination terminal cannot A resend request was sent to the source terminal via physical communication. Assuming that the Internet transmission delay is 40 ms and the mobile communication transmission delay is 1 ms, the time required for a retransmission request is approximately 82 ms, and the delay time in the entire network between end terminals is approximately 123 ms.

On the other hand, according to the system 10 , the relay device 100 can transmit a retransmission request to the communication terminal 200 when data loss occurs in mobile communication. Therefore, it is possible to reduce the delay time in the entire network between end terminals. For example, in the above example, the time required for a retransmission request is approximately 2 ms, and the delay time over the entire network between end terminals can be suppressed to approximately 43 ms. Data loss in mobile communication can occur very frequently compared to data loss in the Internet. Depending on the environment, almost all data loss that occurs between a source terminal and a destination terminal occurs in mobile communications. Therefore, according to the system 10 according to the present embodiment, communication quality can be improved compared to conventional communication systems. As a result, it is possible to contribute to the realization and popularization of applications such as telesurgery that require strict communication quality.

In addition, in conventional communication systems, when data loss occurs between a source terminal and a destination terminal, it has not been possible to specify in which section it occurred. On the other hand, according to the system 10, it is possible to identify the segment where the missing occurs. As a result, it is possible to distinguish whether the faulty section is the mobile communication section or the rest, and it is possible to quickly proceed with the fault recovery.

FIG. 2 schematically shows an example of the flow of processing by the relay device 100. As shown in FIG. FIG. 2 shows a state in which relay device 100 is in the process of relaying transmission data from communication terminal 200 to communication terminal 400 . It is assumed that the buffer of the relay device 100 does not store any packets in the start state of FIG.

In step (the step may be abbreviated as S) 102, the relay device 100 buffers three packets having sequence numbers 79, 80, and 81, respectively, received from the communication terminal 200. Store.

In S104, the relay apparatus 100 may use the three packets with sequence numbers 79, 80, and 81 stored in the buffer to determine whether or not there is a missing packet. A missing packet is a packet that has not been received by the relay device 100 among the packets transmitted by the communication terminal 200 .

Since the sequence numbers are 79, 80, and 81, relay device 100 may determine that there is no missing packet. At S<b>106 , the relay device 100 transmits the three packets with sequence numbers 79 , 80 and 81 stored in the buffer to the communication terminal 400 .

In S108, the relay device 100 stores the three packets having the sequence numbers 82, 84, and 85 received from the communication terminal 200 in the buffer.

In S110, the relay device 100 may use the three packets with sequence numbers 82, 84, and 85 stored in the buffer to determine whether or not there is a missing packet. The relay device 100 may determine that there is a missing packet because the sequence numbers are not continuous with 82, 84, and 85. FIG. The relay device 100 may identify the packet with the sequence number 83 as the missing packet.

In S<b>112 , the relay device 100 transmits the three packets with sequence numbers 82 , 84 and 85 stored in the buffer to the communication terminal 400 . In S<b>114 , relay device 100 transmits a retransmission request requesting retransmission of the packet with sequence number 83 to communication terminal 200 .

In S116, the relay device 100 stores the three packets having the sequence numbers 86, 87, and 88 received from the communication terminal 200 in the buffer.

In S118, the relay device 100 may use the three packets with sequence numbers 86, 87, and 88 stored in the buffer to determine whether or not there is a missing packet. Since the sequence numbers are 86, 87, and 88, relay device 100 may determine that there is no missing packet. At S<b>120 , the relay device 100 transmits the three packets with sequence numbers 86 , 87 and 88 stored in the buffer to the communication terminal 400 .

In S<b>122 , relay device 100 stores the packet with sequence number 83 received from communication terminal 200 in the buffer. In S<b>124 , relay device 100 transmits the packet with sequence number 83 stored in the buffer to communication terminal 400 .

As exemplified in the process shown in FIG. 2, the relay device 100 may transmit the packet used for determining the missing packet to the communication terminal 400 regardless of the determination result of whether or not the missing packet exists.

FIG. 3 schematically shows an example of the flow of processing by the relay device 100. As shown in FIG. FIG. 3 shows a state in which relay device 100 is in the process of relaying transmission data from communication terminal 200 to communication terminal 400 . In the start state of FIG. 3, the buffer of the relay device 100 does not store any packets.

In S202, the relay device 100 stores the three packets with sequence numbers 79, 80, and 81, which are received from the communication terminal 200, in the buffer.

In S204, the relay device 100 may use the three packets with sequence numbers 79, 80, and 81 stored in the buffer to determine whether or not there is a missing packet. Since the sequence numbers are 79, 80, and 81, relay device 100 may determine that there is no missing packet. In S<b>206 , the relay device 100 transmits the three packets with sequence numbers 79 , 80 and 81 stored in the buffer to the communication terminal 400 .

In S208, the relay device 100 stores the three packets having sequence numbers 82, 84, and 85 received from the communication terminal 200 in the buffer.

In S210, the relay device 100 may determine whether or not there is a missing packet using the three packets with sequence numbers 82, 84, and 85 stored in the buffer. The relay device 100 may determine that there is a missing packet because the sequence numbers are not continuous with 82, 84, and 85. FIG. The relay device 100 may identify the packet with the sequence number 83 as the missing packet. The relay device 100 may suspend transmission of the three packets with sequence numbers 82, 84, and 85. FIG.

In S<b>212 , relay device 100 transmits a retransmission request requesting retransmission of the packet with sequence number 83 to communication terminal 200 . In S214, the relay device 100 stores the three packets having the sequence numbers 86, 87, and 88 received from the communication terminal 200 in the buffer.

In S216, the relay apparatus 100 is not used to determine whether or not there is a missing packet among the six packets with sequence numbers 82, 84, 85, 86, 87, and 88 stored in the buffer. Three packets with sequence numbers 86, 87, and 88 may be identified. The relay device 100 may use the identified three packets with sequence numbers 86, 87, and 88 to determine whether or not there is a missing packet.

Since the sequence numbers are 86, 87, and 88, relay device 100 may determine that there is no missing packet. In S<b>218 , the relay device 100 transmits the three packets with sequence numbers 86 , 87 and 88 stored in the buffer to the communication terminal 400 .

In S220, relay device 100 stores the packet with sequence number 83 received from communication terminal 200 in the buffer. In S<b>222 , the relay device 100 transmits the four packets with sequence numbers 82 , 83 , 84 and 85 stored in the buffer to the communication terminal 400 .

As illustrated in the process illustrated in FIG. 3 , when relay device 100 determines that there is a missing packet, relay device 100 may suspend transmission of the packet used for the determination to communication terminal 400 . After that, relay device 100 may transmit the transmission pending packet and the missing packet to communication terminal 400 in response to receiving the missing packet retransmitted by communication terminal 200 . As a result, the relay device 100 can transmit packets to the communication terminal 400 without missing packets.

FIG. 4 schematically shows an example of the flow of processing by the relay device 100. As shown in FIG. FIG. 4 shows a state in which relay device 100 is in the process of relaying transmission data from communication terminal 200 to communication terminal 400 . In the start state of FIG. 4, it is assumed that the buffer of the relay device 100 does not store any packets.

In S302, the relay apparatus 100 stores the three packets having sequence numbers 79, 80, and 81 received from the communication terminal 200 in the buffer.

In S304, the relay apparatus 100 may use the three packets with sequence numbers 79, 80, and 81 stored in the buffer to determine whether or not there is a missing packet. Since the sequence numbers are 79, 80, and 81, relay device 100 may determine that there is no missing packet. In S<b>306 , the relay device 100 transmits the three packets with sequence numbers 79 , 80 and 81 stored in the buffer to the communication terminal 400 .

In S308, the relay device 100 stores the three packets having sequence numbers 82, 84, and 85 received from the communication terminal 200 in the buffer.

In S310, the relay device 100 may determine whether or not there is a missing packet using the three packets with sequence numbers 82, 84, and 85 stored in the buffer. The relay device 100 may determine that there is a missing packet because the sequence numbers are not continuous with 82, 84, and 85. FIG. The relay device 100 may identify the packet with the sequence number 83 as the missing packet. The relay device 100 may suspend transmission of the three packets with sequence numbers 82, 84, and 85. FIG.

In S<b>312 , relay device 100 transmits a retransmission request requesting retransmission of the packet with sequence number 83 to communication terminal 200 . In S314, the relay device 100 stores the three packets having the sequence numbers 86, 87, and 88 received from the communication terminal 200 in the buffer.

In S316, the relay device 100 is not used to determine whether or not there is a missing packet among the six packets with sequence numbers 82, 84, 85, 86, 87, and 88 stored in the buffer. Three packets with sequence numbers 86, 87, and 88 may be identified. The relay device 100 may use the identified three packets with sequence numbers 86, 87, and 88 to determine whether or not there is a missing packet.

Since the sequence numbers are 86, 87, and 88, relay device 100 may determine that there is no missing packet. Relay device 100 may suspend the transmission of the three packets with sequence numbers 86, 87, and 88. FIG.

In S<b>318 , relay device 100 stores the packet with sequence number 83 received from communication terminal 200 in the buffer. At S<b>320 , relay device 100 transmits seven packets with sequence numbers 82 , 83 , 84 , 85 , 86 , 87 , and 88 stored in the buffer to communication terminal 400 .

As illustrated in the processing illustrated in FIG. 4, when determining that there is a missing packet, the relay device 100 may suspend transmission of the packet stored in the buffer until the missing packet is received. As a result, the relay device 100 can transmit packets in sequence number order even when there are missing packets.

FIG. 5 schematically shows an example of the functional configuration of the relay device 100. As shown in FIG. Relay device 100 includes address storage unit 102, address reception unit 104, packet storage unit 106, packet reception unit 108, packet identification unit 110, missing determination unit 112, retransmission request transmission unit 114, packet transmission unit 116, and communication quality report generation. 118 , communication quality report transmission section 120 , abnormality determination section 122 , and timeout period management section 124 may be provided. It should be noted that it is not essential that the relay device 100 has all of these configurations.

The address storage unit 102 may store addresses. The address storage unit 102 may store, for example, the address of the communication terminal 200 and the addresses of one or more communication terminals 400 in association with each other. The address storage unit 102 may store the address of the relay device 100 .

The address receiver 104 may receive an address. The address receiving unit 104 may receive the address of the communication terminal 200, for example. The address reception unit 104 may receive the address of the communication terminal 400, for example. The address reception section 104 may store the received address in the address storage section 102 .

The address reception unit 104 may receive an address from the communication terminal 200, for example. The address reception unit 104 may receive an address from the communication terminal 400, for example. The address receiving unit 104 may receive an address from the relay service accepting device 500, for example.

The packet storage unit 106 may store packets. Packet storage unit 106 may be, for example, a buffer. Packet storage unit 106 may be, for example, a memory. The packet storage unit 106 may be, for example, an SSD (Solid State Drive). The packet storage unit 106 may be an HDD (Hard Disk Drive).

Packet receiving section 108 may receive packets from communication terminal 200 . Packet receiving section 108 may receive packets from communication terminal 200 via base station device 50 and core network 20 . The packet receiver 108 may store the received packet in the packet storage 106 .

The packet identification unit 110 may identify a predetermined number of packets used for determining whether or not missing packets exist. The packet identification unit 110 may identify, for example, a predetermined number of packets that are stored in the packet storage unit 106 and that are not used for determining whether or not missing packets exist.

The predetermined number of packets may be, for example, three packets. The predetermined number of packets may be two packets or more than three packets.

The missing determination unit 112 may determine whether or not there is a missing packet. The missing determination unit 112 may determine whether or not there is a missing packet by using a plurality of packets stored in the packet storage unit 106, for example. The missing determination unit 112 may determine whether or not there is a missing packet using a predetermined number of packets specified by the packet specifying unit 110, for example.

The missing determination unit 112 may determine the presence of missing packets, for example, based on the sequence numbers included in the headers of the multiple packets. The missing determination unit 112 may determine that there is no missing packet when the sequence numbers of a plurality of packets are consecutive. On the other hand, the missing determination unit 112 may determine that there is a missing packet when at least some of the sequence numbers of the plurality of packets are not continuous.

Retransmission request transmitting section 114 may transmit to communication terminal 200 a retransmission request requesting retransmission of the missing packet. Retransmission request transmission section 114 may transmit a retransmission request to communication terminal 200 in response to determination by loss determination section 112 that there is a missing packet. Packet receiving section 108 may receive missing packets retransmitted by communication terminal 200 in response to a retransmission request. According to this, the amount of data communication of communication terminal 200 can be reduced compared to the case of requesting retransmission of the entire packet.

Packet transmitter 116 may transmit packets to communication terminal 400 . The packet transmitter 116 may transmit packets to the communication terminal 400 via the core network 20 and the Internet 40 .

Packet transmitting section 116 may transmit the packet to the address of communication terminal 400 stored in packet storage section 106 in association with the address of communication terminal 200 included in the packet received by packet receiving section 108, for example. . In this case, the destination address set by the source is uniformly the address of the relay device, making it difficult for a malicious third party to filter the target packet from the destination address. That is, the system 10 according to one embodiment may improve security. When the packet received by packet receiver 108 includes the address of communication terminal 400 , packet transmitter 116 may transmit the packet to the address of communication terminal 400 . In this case, the source communication terminal 200 generates a packet in which the original destination address is set and encapsulates it with a packet for the relay device 100, thereby simplifying the address replacement processing in the relay device 100. . That is, according to the system 10 according to one embodiment, by simplifying the equipment of the relay device 100, the cost related to introduction, management, and the like can be reduced.

The packet transmitter 116 may transmit the packet received by the packet receiver 108 . The packet transmitter 116 may transmit packets stored in the packet storage 106 .

The packet transmission section 116 may transmit the packet according to the determination result by the loss determination section 112 . For example, when the loss determining unit 112 determines that there are no missing packets, the packet transmitting unit 116 may transmit the predetermined number of packets specified by the packet specifying unit 110 . For example, when the loss determination unit 112 determines that there is a missing packet, the packet transmission unit 116 receives the missing packet and the packet identification unit 108 after the retransmission request is transmitted by the retransmission request transmission unit 114. A predetermined number of packets identified by 110 may be transmitted.

Packet transmission section 116 may suspend transmission of packets stored in packet storage section 106 to communication terminal 400 when loss determination section 112 determines that there is a missing packet. Packet transmitting section 116 may transmit the packet whose transmission was suspended and the missing packet to communication terminal 400 in response to packet receiving section 108 receiving the missing packet. According to this, the packets stored in the packet storage unit 106 can be transmitted to the communication terminal 400 without missing. Further, if the packet receiving unit 108 does not receive the missing packet even after the timeout period has passed since the retransmission request transmitting unit 114 transmitted the retransmission request, the packet transmitting unit 116 transmits the packet whose transmission has been suspended to the communication terminal. 400. For example, in the case of data that does not require real-time performance, such as temperature recording, the receiving side can complement the packet by reconstructing the order as appropriate.

Communication quality report generator 118 may generate a communication quality report. The communication quality report generation unit 118 may generate a communication quality report, for example, in response to the fact that the loss determination unit 112 has determined that there is a missing packet.

The communication quality report generation unit 118 may generate a communication quality report based on the determination result by the missing determination unit 112, for example. The communication quality report may include, for example, the ratio of missing packets to packets received by relay device 100 .

Communication quality report transmitting section 120 may transmit the communication quality report generated by communication quality report generating section 118 . Communication quality report transmitting section 120 may transmit a communication quality report to communication terminal 200, for example. Communication quality report transmitting section 120 may transmit a communication quality report to communication terminal 400, for example. Communication quality report transmitting section 120 may transmit the communication quality report to a management device that manages base station device 50 . According to this, for example, a provider or the like can take measures such as reporting a communication failure and dealing with it based on the communication quality report. That is, according to the system 10 according to this embodiment, communication quality can be improved.

Based on the communication quality report received from relay device 100 , communication terminal 200 may change transmission settings for wirelessly transmitting packets to relay device 100 . Further, communication terminal 400 may determine whether or not a communication failure has occurred in mobile communication between communication terminal 200 and base station apparatus 50, based on the communication quality report received from relay apparatus 100. . When the communication terminal 400 determines that a communication failure has occurred in the mobile communication, the communication terminal 400 may transmit a recovery request requesting recovery work for the communication failure to the management device that manages the base station device 50 .

The anomaly determination unit 122 may determine an anomaly in mobile communication between the communication terminal 200 and the base station device 50 . For example, the abnormality determination unit 122 may determine an abnormality in mobile communication in response to the loss determination unit 112 determining that there is a missing packet. The communication quality report generation unit 118 may generate a communication quality report including the judgment result by the abnormality judgment unit 122 . According to this, the relay device 100 can easily identify the location where an abnormality such as a communication failure occurs in mobile communication. Therefore, it becomes easier to respond quickly to communication failures and the like in mobile communication, and the system 10 according to the present embodiment can improve communication quality.

The anomaly determination unit 122 may determine an anomaly in mobile communication based on the determination result of the lack determination unit 112, for example. For example, when the ratio of missing packets to packets received by the packet storage unit 106 exceeds a predetermined first threshold value, the abnormality determination unit 122 may determine that an abnormality has occurred in mobile communication. The abnormality determination unit 122 may determine that an abnormality has occurred in mobile communication when the number of missing packets within a predetermined first period exceeds a predetermined second threshold.

The timeout period management unit 124 may manage the timeout period. The timeout period management unit 124 may set a timeout period, for example. The timeout period management unit 124 may set the timeout period, for example, in response to the fact that the missing packet is determined by the loss determination unit 112 . According to this, the relay device 100 can reduce wasteful consumption of computational resources such as memory resources. Note that the length of the timeout period may be set arbitrarily or may be a fixed length.

The timeout period management unit 124 may set the timeout period based on the determination result of the missing determination unit 112, for example. For example, the timeout period management unit 124 may set the timeout period to the first timeout period when the ratio of missing packets to the packets received by the packet receiving unit 108 exceeds a predetermined third threshold. On the other hand, if the ratio of missing packets to the packets received by the packet receiving unit 108 does not exceed the predetermined third threshold, the timeout period management unit 124 sets the timeout period to a second timeout period that is shorter than the first timeout period. can be set.

For example, the timeout period management unit 124 may set the timeout period to the third timeout period when the number of missing packets within the predetermined second period exceeds the predetermined fourth threshold. On the other hand, if the number of missing packets within the predetermined second period does not exceed the predetermined fourth threshold, the timeout period management unit 124 sets the timeout period to a fourth timeout period shorter than the third timeout period. can be set.

The timeout period management section 124 may, for example, determine whether or not the timeout period has elapsed since the retransmission request transmission section 114 transmitted the retransmission request. Packet transmission section 116 may transmit the packet whose transmission has been suspended to communication terminal 400 based on the determination result by timeout period management section 124 .

FIG. 6 schematically shows another example of the functional configuration of the relay device 100. As shown in FIG. Relay device 100 includes packet storage unit 106, packet reception unit 108, packet identification unit 110, loss determination unit 112, retransmission request transmission unit 114, packet transmission unit 116, communication quality report generation unit 118, communication quality report transmission unit 120, An abnormality determination unit 122 , a timeout period management unit 124 , an information storage unit 126 , a relay service reception unit 128 , a user information acquisition unit 130 and an address notification unit 132 may be provided. It should be noted that it is not essential that the relay device 100 has all of these configurations. 6 mainly describes a functional configuration that is different from the functional configuration of the relay device 100 of FIG.

The information storage unit 126 may store various information. The information storage unit 126 may store, for example, user information regarding users of the relay service. The information storage unit 126 may store the address of the relay device 100 .

User information may include the address of communication terminal 200 . User information may include the address of communication terminal 400 . User information may include information indicating the location of communication terminal 200 . User information may include the user's personal information. The user's personal information may include the user's address, telephone number of communication terminal 200, account number, and the like.

The relay service accepting unit 128 may accept an application for a relay service from a user. The relay service accepting unit 128 may accept an application for the relay service from the user, for example, by receiving the application from a user terminal owned by the user. The relay service accepting unit 128 may accept an application for the relay service from the user by accepting an input for the application for the relay service through an input device (not shown) included in the relay device 100 .

The user terminal may be, for example, communication terminal 200 . The user terminal may be, for example, communication terminal 400 . A user terminal may be any other terminal.

The subscription may contain user information. The application may include serving base station information about base station device 50 in which communication terminal 200 is serving.

The user information acquisition unit 130 may acquire user information included in the application received by the relay service reception unit 128 . The user information acquisition section 130 may store the acquired user information in the information storage section 126 .

The address notification unit 132 may notify the user of the address of the relay device 100 . For example, the address notification unit 132 may notify the user of the address of the relay device 100 stored in the information storage unit 126 when the relay service reception unit 128 receives an application from the user. The address notification unit 132 may notify the user of the address of the relay device 100 by, for example, transmitting the address of the relay device 100 to the user terminal.

FIG. 7 schematically shows an example of the functional configuration of the relay service reception device 500. As shown in FIG. Relay service reception device 500 may include information storage unit 502 , relay service reception unit 504 , user information acquisition unit 506 , relay device determination unit 508 , address transmission unit 510 and address notification unit 512 . It should be noted that it is not essential that the relay service receiving apparatus 500 have all of these configurations.

The information storage unit 502 may store various information. The information storage unit 502 may store, for example, user information regarding users of the relay service. The information storage unit 502 may store addresses of a plurality of relay devices 100 .

The relay service accepting unit 504 may accept an application for a relay service from a user. The relay service accepting unit 504 may accept an application for the relay service from the user, for example, by receiving the application from a user terminal owned by the user. The relay service accepting unit 504 may accept the application for the relay service from the user by accepting the input of the application for the relay service through an input device (not shown) included in the relay service accepting apparatus 500 .

The user information acquisition unit 506 may acquire user information included in the application received by the relay service reception unit 504 . The user information acquisition section 506 may store the acquired user information in the information storage section 502 .

Relay device determination section 508 may determine relay device 100 that relays transmission data from communication terminal 200 . The relay device determination unit 508 may determine the relay device 100 in response to, for example, the relay service reception unit 128 receiving an application from a user.

Relay device determination section 508 may determine relay device 100 that relays transmission data of communication terminal 200 based on user information included in the application, for example. The relay device determination unit 508 may determine, for example, the relay device 100 closest to the position of the communication terminal 200 as the relay device 100 that relays the data of the communication terminal 200 .

Relay device determination section 508 may determine relay device 100 that relays transmission data of communication terminal 200 based on serving base station information included in the application. The relay device determination unit 508 may determine, for example, the relay device 100 closest to the base station device 50 in which the communication terminal 200 is located as the relay device 100 that relays the data of the communication terminal 200 .

The address transmission section 510 may transmit the address stored in the information storage section 502 . For example, when the relay device determination unit 508 has determined the relay device 100 , the address transmission unit 510 may transmit the address of the communication terminal 200 and the address of the communication terminal 400 to the relay device 100 .

The address notification unit 512 may notify the address stored in the information storage unit 502 . For example, when the relay device determination unit 508 has determined the relay device 100, the address notification unit 512 may notify the user of the address of the relay device 100. FIG. For example, the address notification unit 512 may notify the user of the address of the relay device 100 by transmitting the address of the relay device 100 determined by the relay device determination unit 508 to the user terminal.

FIG. 8 schematically shows an example of the flow of processing by the relay device 100. As shown in FIG. FIG. 8 will be described using a state in which the packet storage unit 106 stores packets and the loss determination unit 112 determines that there are missing packets based on the stored packets as a start state.

In S<b>402 , retransmission request transmitting section 114 transmits a retransmission request for the missing packet to communication terminal 200 . Packet transmission section 116 may suspend transmission of packets stored in packet storage section 106 to communication terminal 400 .

In S404, the relay device 100 determines whether or not the packet receiving unit 108 has received a missing packet. When the packet receiving unit 108 receives the missing packet, the process proceeds to S406. If the packet receiving unit 108 has not received the first packet, the process proceeds to S408.

In S<b>406 , packet transmission section 116 transmits the pending packet and the missing packet to communication terminal 400 . Then, the process of transmitting the packet stored in the packet storage unit 106 to the communication terminal 400 ends.

In S408, timeout period management section 124 may determine whether or not the timeout period has elapsed since retransmission request transmission section 114 transmitted the retransmission request in S402. If the timeout period management unit 124 determines that the timeout period has elapsed, the process proceeds to S412. If the timeout period management unit 124 determines that the timeout period has not elapsed, the process returns to S406.

In S<b>410 , packet transmission section 116 transmits the pending packet to communication terminal 400 . Then, the process of transmitting the packet stored in the packet storage unit 106 to the communication terminal 400 ends. Note that when the packet receiving unit 108 receives the missing packet after the timeout time has elapsed, the packet transmitting unit 116 transmits the missing packet to the communication terminal 400 .

FIG. 9 schematically shows an example of the operation of communication terminal 200 and relay service reception device 500 . Here, an example of operations of communication terminal 200 and relay service reception apparatus 500 when a user uses communication terminal 200 to apply for relay service to relay service reception apparatus 500 will be described.

In S<b>502 , communication terminal 200 transmits an application for relay service to relay service accepting apparatus 500 . In S504, in response to relay service reception section 504 receiving an application for relay service from communication terminal 200, user information acquisition section 506 acquires user information included in the application.

In S506, the relay device determination unit 508 may determine the relay device 100 that relays the transmission data of the communication terminal 200 based on the user information acquired by the user information acquisition unit 506 in S504. Address transmission section 510 transmits the address of communication terminal 200 and the address of communication terminal 400 to relay device 100 determined by relay device determination section 508 .

In S<b>508 , address notification section 512 notifies communication terminal 200 of the address of relay device 100 determined by relay device determination section 508 . In S510, the communication terminal 200 sets the address of the relay device 100 notified by the relay service reception device 500 as the destination of the transmission data.

FIG. 10 schematically shows another example of system 10 . A system 10 according to one embodiment may include a relay device 100 and a relay service reception device 500 . The system 10 may have a base station device 50 . System 10 may comprise communication terminal 200 . System 10 may include one or more communication terminals 250 . In FIG. 10, an example in which the system 10 includes two communication terminals 250 is shown. System 10 may include camera 300 . System 10 may comprise communication terminal 400 . FIG. 10 mainly describes a configuration different from that of the system 10 of FIG.

The communication terminal 200 may generate a packet from transmission data and wirelessly transmit the generated packet to the relay device 100 via the base station device 50 and the core network 20 . Communication terminal 200 may transmit transmission instruction information to communication terminal 250 to instruct wireless transmission of packets of transmission data to relay device 100 by mobile communication. Upon receiving the transmission instruction information from communication terminal 200 , communication terminal 250 may wirelessly transmit a packet of transmission data to relay device 100 via base station device 50 and core network 20 . Communication terminal 250 may be an example of a source terminal.

Communication between communication terminal 200 and communication terminal 250 may be, for example, wireless communication. Examples of wireless communication systems include Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), and the like. Communication between communication terminal 200 and communication terminal 250 may be wired communication.

Communication terminal 250 may be a terminal carried by a user. Communication terminal 200 may be, for example, a mobile phone such as a smart phone. Communication terminal 200 may be a tablet terminal. Communication terminal 200 may be a wearable terminal.

The relay device 100 may relay transmission data to be transmitted from the communication terminals 200 and 250 to the communication terminal 400 . The relay device 100 may receive transmission data from the communication terminals 200 and 250 via the base station device 50 and the core network 20 .

Based on the packet received from communication terminal 200 and the packet received from communication terminal 250, relay device 100 may determine whether or not there is data loss in the transmission data. The relay device 100 may transmit a retransmission request when determining that data is missing.

Relay device 100 may transmit a retransmission request to communication terminal 200, for example. Communication terminal 200 may retransmit the missing packet to relay device 100 in response to receiving a retransmission request from relay device 100, for example. Upon receiving the retransmission request from relay device 100 , communication terminal 200 may transmit retransmission instruction information to communication terminal 250 to instruct relay device 100 to retransmit the missing packet. Communication terminal 250 may resend the missing packet to relay device 100 in response to receiving the resend instruction information from communication terminal 200 .

The relay device 100 may transmit a retransmission request to the communication terminal 250, for example. Communication terminal 250 may retransmit the missing packet to relay device 100 in response to receiving the retransmission request from relay device 100 . Relay device 100 may transmit a retransmission request to communication terminal 200 and communication terminal 250 .

In a conventional communication system, when transmitting business-use transmission data that requires high communication quality to a destination terminal using a plurality of source terminals, mobile communication between a plurality of source terminals and destination terminals Expensive dedicated equipment for line control was required on both the source terminal side and the destination terminal side. Further, when data is missing, the dedicated device on the side of the destination terminal transmits a retransmission request to the dedicated device on the side of the source terminal via the Internet and mobile communication. Therefore, when data is lost, a relatively long delay time occurs.

In contrast, according to the system 10 according to the present embodiment, the relay device 100 relays data to be transmitted from the communication terminals 200 and 250 to the communication terminal 400 . Furthermore, communication terminal 200 transmits transmission instruction information and retransmission instruction information to communication terminal 250 , and communication terminal 250 transmits and retransmits packets of transmission data according to instructions from communication terminal 200 . Thus, according to the system 10 of the present embodiment, it is possible to transmit business transmission data to the communication terminal 400 using the communication terminals 200 and 250 without introducing expensive dedicated equipment. Furthermore, according to the system 10 according to the present embodiment, the relay device 100 transmits a retransmission request to the communication terminals 200 and 250 when data is lost in mobile communication. As a result, the system 10 according to the present embodiment can shorten the delay time compared to the conventional communication system even when data is missing.

FIG. 11 schematically shows another example of the functional configuration of the relay device 100. As shown in FIG. Relay device 100 includes address storage unit 102, address reception unit 104, packet storage unit 106, packet reception unit 108, packet identification unit 110, transmission mode information reception unit 111, loss determination unit 112, retransmission request transmission unit 114, packet transmission A communication quality report generation unit 118, a request destination selection unit 119, a communication quality report transmission unit 120, an abnormality determination unit 122, and a timeout time management unit 124 may be provided. It should be noted that it is not essential that the relay device 100 has all of these configurations. 11 mainly describes a functional configuration different from the functional configuration of the relay device 100 of FIG.

The address storage unit 102 may store, for example, the address of the communication terminal 200 and the address of one or more communication terminals 250 in association with each other. The address storage unit 102 may store, for example, the address of the communication terminal 200, the address of one or more communication terminals 250, and the address of one or more communication terminals 400 in association with each other.

The address receiving unit 104 may receive the address of the communication terminal 250, for example. The address receiving unit 104 may receive the address of the communication terminal 250 from the communication terminal 200, for example. Address receiving section 104 may receive the address of communication terminal 250 from communication terminal 250 .

The packet receiving unit 108 may receive, for example, a packet wirelessly transmitted by the communication terminal 250 according to an instruction from the communication terminal 200 via the base station device 50 and the core network 20 . Packet receiving section 108 may store packets received from communication terminal 250 in packet storage section 106 .

Transmission mode information receiving section 111 may receive transmission mode information indicating a transmission mode in which communication terminal 200 and communication terminal 250 wirelessly transmit packets to relay device 100 . Transmission mode information receiving section 111 may receive transmission mode information from communication terminal 200, for example.

The transmission mode may be, for example, a transmission mode in which communication terminal 200 and communication terminal 250 wirelessly transmit the same packet to relay device 100 . The transmission mode may be a transmission mode in which communication terminal 200 and communication terminal 250 wirelessly transmit different packets to relay device 100 . When the communication terminal 200 and the communication terminal 250 are in a transmission mode in which different packets are wirelessly transmitted to the relay device 100, the transmission mode information includes correspondence relationship information indicating a correspondence relationship between the communication terminal that wirelessly transmits the packet and the packet. good.

For example, the loss determination unit 112 receives a plurality of packets received from the communication terminal 200 by the packet reception unit 108 and stored in the packet storage unit 106, and a plurality of packets received by the packet reception unit 108 from the communication terminal 250 and stored in the packet storage unit A plurality of packets stored in 106 may be used to determine the presence of missing packets. The missing determination unit 112, for example, detects missing packets transmitted by the communication terminal 200 and not received by the relay device 100 and missing packets transmitted by the communication terminal 250 and not received by the relay device 100. It may be determined whether at least one is present.

When the communication terminal 200 and the communication terminal 250 wirelessly transmit the same packet to the relay device 100, the loss determination unit 112 determines whether the missing packet transmitted by the communication terminal 200 and not received by the relay device 100 and the communication It may be determined whether there are any missing packets that have been sent by terminal 250 and not received by relay device 100 . On the other hand, when the communication terminal 200 and the communication terminal 250 wirelessly transmit different packets to the relay device 100, the missing determination unit 112 determines that the missing packets transmitted by the communication terminal 200 and not received by the relay device 100, or , whether or not there are any missing packets that have been transmitted by the communication terminal 250 and not received by the relay device 100 .

For example, retransmission request transmission section 114 may transmit a retransmission request to communication terminal 250 in response to determination by loss determination section 112 that there is a missing packet. The packet receiving section 108 may receive the missing packet retransmitted by the communication terminal 250 in response to the retransmission request. Retransmission request transmission section 114 may transmit a retransmission request to communication terminal 200 and communication terminal 250 in response to determination by loss determination section 112 that there is a missing packet.

Communication quality report generation section 118 may generate a communication quality report indicating the communication quality between relay device 100 and communication terminals. The communication quality report is, for example, the ratio of missing packets transmitted by the communication terminal and not received by the packet receiving unit 108 to packets transmitted by the communication terminal and received by the packet receiving unit 108. May include packet rate.

Communication quality report generation section 118 may generate, for example, a communication quality report indicating communication quality between relay device 100 and communication terminal 200 . Communication quality report generation section 118 may generate a communication quality report indicating the communication quality between relay device 100 and communication terminal 250 .

Communication quality report generation section 118 generates forward error correction (FEC) error correction codes for packets wirelessly transmitted from communication terminals to relay device 100 based on the communication quality between relay device 100 and communication terminals. may determine the length of The communication quality report generator 118 may generate a communication quality report including information indicating the length of the FEC error correction code.

Request destination selection section 119 may select a transmission destination to which a retransmission request is transmitted from communication terminal 200 and communication terminal 250 when loss determination section 112 determines that there is a missing packet. Request destination selection section 119 may select, for example, communication terminal 200 as a transmission destination to which a retransmission request is transmitted. Request destination selection section 119 may select, for example, communication terminal 250 as the destination to which the retransmission request is transmitted. Request destination selection section 119 may select communication terminal 200 and communication terminal 250 as destinations to which the retransmission request is transmitted.

Request destination selection section 119 may select a transmission destination to which a retransmission request is transmitted based on the communication quality report generated by communication quality report generation section 118, for example. The request destination selection unit 119 may select, for example, a communication terminal whose missing packet ratio is lower than a predetermined ratio as a transmission destination for transmitting a retransmission request. Request destination selection section 119 may select a predetermined number of communication terminals with a low percentage of missing packets as destinations to which retransmission requests are transmitted.

Retransmission request transmitting section 114 may transmit a retransmission request to communication terminal 200 when communication terminal 200 is selected by request destination selecting section 119 . Packet transmitting section 116 may transmit the missing packet retransmitted by communication terminal 200 to communication terminal 400 when packet receiving section 108 receives the missing packet retransmitted by communication terminal 200 in response to a retransmission request.

On the other hand, retransmission request transmitting section 114 may transmit a retransmission request to communication terminal 250 when communication terminal 250 is selected by request destination selecting section 119 . Packet transmitting section 116 may transmit the missing packet retransmitted by communication terminal 250 to communication terminal 400 when packet receiving section 108 receives the missing packet retransmitted by communication terminal 250 in response to a retransmission request.

For example, when packet receiving section 108 receives different packets from communication terminal 200 and communication terminal 250, request destination selecting section 119 determines the sequence number of the missing packet and the transmission mode information received by transmission mode information receiving section 111. The communication terminal that transmitted the missing packet may be identified based on the correspondence information. Request destination selection section 119 may select the specified communication terminal as a transmission destination to which the retransmission request is transmitted.

If the communication terminal that transmitted the missing packet is identified by request destination selection section 119, retransmission request transmission section 114 may transmit to the communication terminal. Packet transmitting section 116 may transmit the missing packet retransmitted by the communication terminal to communication terminal 400 when packet receiving section 108 receives the missing packet retransmitted by the communication terminal in response to the retransmission request.

FIG. 12 schematically shows an example of the functional configuration of communication terminal 200. As shown in FIG. Communication terminal 200 includes address storage section 202, address acquisition section 204, transmission data acquisition section 206, packet generation section 208, packet storage section 210, packet transmission section 212, communication terminal determination section 214, transmission mode determination section 216, transmission mode An information transmission section 218 , an instruction determination section 220 , an instruction information transmission section 222 , a retransmission request reception section 224 , a communication quality report reception section 226 , a retransmission determination section 228 and a communication quality report display section 230 may be provided. It should be noted that it is not essential that communication terminal 200 have all of these configurations.

The address storage unit 202 may store addresses. The address storage unit 202 may store the address of the relay device 100, for example. The address storage unit 202 may store the address of the communication terminal 250, for example. Address storage section 202 may store the address of communication terminal 400 .

The address acquisition unit 204 may acquire an address. The address acquisition unit 204 may acquire an address by receiving an address from an external device. The address acquisition unit 204 may acquire an address by accepting an address input using an input device included in the communication terminal 200 . The address acquisition unit 204 may store the acquired address in the address storage unit 202 .

The address acquisition unit 204 may acquire the address of the relay device 100, for example. The address acquisition unit 204 may acquire the address of the communication terminal 250, for example. Address acquisition section 204 may acquire the address of communication terminal 400 .

The transmission data acquisition unit 206 may acquire transmission data. The transmission data acquisition unit 206 may acquire transmission data by, for example, receiving transmission data from a data generation device. The transmission data acquisition unit 206 may acquire the transmission data by generating the transmission data.

The packet generation section 208 may generate packets from the transmission data acquired by the transmission data acquisition section 206 . The packet generator 208 may store the generated packet in the packet storage 210 .

The packet storage unit 210 may store packets. Packet storage unit 210 may be, for example, a buffer. Packet storage unit 210 may be, for example, a memory. Packet storage unit 210 may be, for example, an SSD. Packet storage unit 210 may be an HDD.

The packet transmission unit 212 may wirelessly transmit the packet generated by the packet generation unit 208 to the relay device 100 so as to transmit the transmission data acquired by the transmission data acquisition unit 206 to the communication terminal 400 via the Internet 40. . The packet transmission unit 212 may wirelessly transmit packets to the relay device 100 via the base station device 50 and the core network 20, for example.

The communication terminal determination unit 214 may determine the communication terminal 250 that wirelessly transmits the transmission data packet to the relay device 100 by mobile communication. Communication terminal determination section 214 may determine communication terminal 250 by, for example, receiving an input for selecting communication terminal 250 using an input device included in communication terminal 200 .

Transmission mode determination section 216 may determine a transmission mode in which communication terminal 200 and communication terminal 250 determined by communication terminal determination section 214 wirelessly transmit packets to relay device 100 . The transmission mode determination unit 216 may determine the transmission mode by receiving an input of the transmission mode using an input device provided in the communication terminal 200, for example.

When communication terminal 200 and communication terminal 250 wirelessly transmit different packets to relay device 100, transmission mode determination section 216 may determine the correspondence relationship between the communication terminal that wirelessly transmits the packet and the packet. Transmission mode determining section 216 wirelessly transmits the packet based on, for example, the sequence number of the packet, the number of communication terminals that is the sum of the number of communication terminals 200 that wirelessly transmit the packet to relay apparatus 100, and the number of communication terminals 250. A correspondence relationship between the transmitting communication terminal and the packet may be determined. For example, when one communication terminal 200 and two communication terminals 250 wirelessly transmit packets to the relay device 100, the number of communication terminals is three.

The transmission mode determination unit 216 may determine the correspondence relationship between the packet and the communication terminal that wirelessly transmits the packet, for example, based on the remainder obtained by dividing the sequence number of the packet by the number of communication terminals. For example, when one communication terminal 200 and two communication terminals 250 wirelessly transmit a packet to the relay device 100, the transmission mode determining unit 216 relays the packet with the sequence number of which the remainder when the communication terminal 200 divides by 3 is 0. The two communication terminals 250 determine to wirelessly transmit to the relay device 100 a packet with a sequence number with a remainder of 1 when divided by 3 and a packet with a sequence number with a remainder of 2 when divided by 3. you can

Transmission mode information transmitting section 218 may transmit the transmission mode determined by transmission mode determination section 216 to relay apparatus 100 as transmission mode information. When communication terminal 200 and communication terminal 250 wirelessly transmit different packets to relay device 100, the transmission mode information may include correspondence relationship information.

The packet transmission section 212 may wirelessly transmit the packet to the relay device 100 based on the transmission mode determined by the transmission mode determination section 216 . When communication terminal 200 and communication terminal 250 wirelessly transmit the same packet to relay device 100 , packet transmission section 212 may wirelessly transmit packets with all sequence numbers to relay device 100 .

On the other hand, when communication terminal 200 and communication terminal 250 wirelessly transmit different packets to relay device 100, packet transmission section 212 may wirelessly transmit the packet to relay device 100 according to the correspondence information. For example, when the correspondence information indicates that the communication terminal 200 wirelessly transmits a packet having a sequence number with a remainder of 0 when divided by 3 to the relay device 100, the packet transmission unit 212 sends the sequence number to the relay device 100. Packets with sequence numbers with a remainder of 0 may be wirelessly transmitted.

Instruction determining section 220 may determine an instruction for communication terminal 250 determined by communication terminal determining section 214 . The instruction determination unit 220 may determine, for example, to transmit transmission instruction information to the communication terminal 200 so as to transmit transmission data to the communication terminal 400 via the Internet 40 . Instruction information transmitting section 222 may transmit the transmission instruction information determined by instruction determining section 220 to communication terminal 250 determined by communication terminal determining section 214 .

The transmission instruction information may include, for example, transmission mode information. The transmission instruction information may include transmission data, for example. The transmission instruction information may include, for example, a transmission data packet generated by communication terminal 200 . The transmission instruction information may include the address of the relay device 100, for example. The transmission instruction information may include the address of communication terminal 400 .

The retransmission request receiving section 224 may receive the retransmission request from the relay device 100 . The packet transmitter 212 may retransmit the missing packet to the relay device 100 in response to the retransmission request received by the retransmission request receiver 224 . For example, when missing packets are stored in the packet storage unit 210, the packet transmission unit 212 may resend the missing packets stored in the packet storage unit 210. FIG. The packet transmitter 212 may resend the missing packet generated by the packet generator 208 if the missing packet is not stored in the packet storage 210 .

The instruction determining section 220 may determine to transmit the retransmission instruction information to the communication terminal 250 in response to the retransmission request receiving section 224 receiving the retransmission request, for example. The instruction information transmitting section 222 may transmit the retransmission instruction information to the communication terminal 250 .

The retransmission instruction information includes, for example, missing packets. The retransmission indication information may include the sequence number of the missing packet.

The communication quality report receiving section 226 may receive the communication quality report from the relay device 100 . Communication quality report receiving section 226 may receive, for example, a communication quality report indicating communication quality between relay device 100 and communication terminal 200 . Communication quality report receiving section 226 may receive a communication quality report indicating communication quality between relay device 100 and communication terminal 250 .

The instruction determining section 220 may determine whether or not to transmit the retransmission instruction information to the communication terminal 250 in response to the retransmission request receiving section 224 receiving the retransmission request, for example. The instruction information transmitting section 222 may transmit the retransmission instruction information to the communication terminal 250 when the instruction determination section 220 determines to transmit the retransmission instruction information to the communication terminal 250 .

Instruction determining section 220 determines whether or not to transmit retransmission instruction information to communication terminal 250 based on the communication quality between communication terminal 200 and relay apparatus 100 indicated in the communication quality report received by communication quality report receiving section 226. You may decide whether Instruction determining section 220 may determine to transmit retransmission instruction information to communication terminal 250, for example, when the percentage of missing packets in communication terminal 200 is higher than a predetermined percentage.

Instruction determining section 220 further based on the communication quality between communication terminal 250 and relay device 100 indicated in the communication quality report received by communication quality report receiving section 226, whether to transmit retransmission instruction information to communication terminal 250. You may decide whether or not For example, when the missing packet ratio of communication terminal 250 is lower than the missing packet ratio of communication terminal 200 , instruction determining section 220 may determine to transmit retransmission instruction information to communication terminal 250 .

The retransmission determination unit 228 may determine whether the packet transmission unit 212 retransmits the missing packet to the relay device 100 in response to the retransmission request reception unit 224 receiving the retransmission request. When the retransmission determination unit 228 determines that the packet transmission unit 212 retransmits the missing packet to the relay device 100 , the packet transmission unit 212 may retransmit the missing packet to the relay device 100 .

On the other hand, when the retransmission determination unit 228 determines that the packet transmission unit 212 does not retransmit the missing packet to the relay device 100, the instruction determination unit 220 may determine to transmit the retransmission instruction information to the communication terminal 250. . The instruction information transmitting section 222 may transmit the retransmission instruction information to the communication terminal 250 in response to the instruction determination section 220 determining to transmit the retransmission instruction information to the communication terminal 250 .

The retransmission determining unit 228 determines, for example, the communication quality between the communication terminal 200 and the relay device 100 and the communication quality between the communication terminal 250 and the relay device 100 indicated in the communication quality report received by the communication quality report receiving unit 226. , the packet transmitter 212 may determine whether to retransmit the missing packet to the relay device 100 or not. For example, when the number of communication terminals 250 whose missing packet ratio is lower than the missing packet ratio of communication terminals 200 is less than a predetermined number, retransmission determining unit 228 determines that packet transmitting unit 212 retransmits missing packets to relay apparatus 100. You can decide.

For example, when the communication terminal 200 and the communication terminal 250 wirelessly transmit different packets to the relay device 100, the retransmission determination unit 228 determines the sequence number and correspondence information of the missing packet included in the retransmission request received by the retransmission request reception unit 224. , the communication terminal that transmitted the missing packet may be identified. If the identified communication terminal is communication terminal 200 , retransmission determination section 228 may determine that packet transmission section 212 retransmits the missing packet to relay device 100 .

On the other hand, if the specified communication terminal is communication terminal 250, retransmission determining section 228 determines the communication quality between communication terminal 200 and relay device 100 indicated in the communication quality report received by communication quality report receiving section 226 and Based on the communication quality between communication terminal 250 and relay device 100 , packet transmission section 212 may determine whether to retransmit the missing packet to relay device 100 . For example, when the missing packet ratio of the identified communication terminal 250 is lower than the missing packet ratio of the communication terminal 200 , the retransmission determining unit 228 may determine that the packet transmitting unit 212 retransmits the missing packets to the relay device 100 .

The communication quality report display section 230 may display the communication quality report received by the communication quality report reception section 226 . After confirming the communication report displayed on the communication quality report display unit 230, the user of the communication terminal 200 uses an input device included in the communication terminal 200 to wirelessly transmit a packet of transmission data to the relay apparatus 100, the relay The transmission mode for wirelessly transmitting packets to the device 100 may be changed.

FIG. 13 schematically shows an example of the functional configuration of communication terminal 250. As shown in FIG. Communication terminal 250 may include address storage section 252 , address reception section 254 , instruction information reception section 256 , packet generation section 258 , packet storage section 260 , packet transmission section 262 , and retransmission request reception section 264 . It should be noted that it is not essential that the communication terminal 250 have all of these configurations.

The address storage unit 252 may store addresses. The address storage unit 252 may store the address of the relay device 100, for example. The address storage unit 252 may store the address of the communication terminal 200, for example. Address storage unit 252 may store the address of communication terminal 400 .

The address receiver 254 may receive an address. The address reception unit 254 may receive the address of the relay device 100, for example. The address receiving unit 254 may receive the address of the communication terminal 200, for example. Address receiving section 254 may receive the address of communication terminal 400 .

Instruction information receiving section 256 may receive instruction information from communication terminal 200 . The instruction information receiving section 256 may receive transmission instruction information from the communication terminal 200, for example. If the transmission instruction information includes a packet of transmission data generated by communication terminal 200 , instruction information receiving section 256 may store the received packet in packet storage section 260 .

The packet generator 258 may generate packets. For example, when the transmission instruction information received by the instruction information receiving section 256 includes transmission data, the packet generation section 258 may generate a packet of the received transmission data. The packet generator 258 may generate UDP packets, for example. The packet generator 258 may store the generated packet in the packet storage 260 .

The packet storage unit 260 may store packets. Packet storage unit 260 may be, for example, a buffer. Packet storage unit 260 may be, for example, a memory. Packet storage unit 260 may be, for example, an SSD. Packet storage unit 260 may be an HDD.

The packet transmitter 262 may wirelessly transmit the packet to the relay device 100 . The packet transmitter 262 may wirelessly transmit the packet generated by the packet generator 258 to the relay device 100, for example. The packet transmitter 262 may wirelessly transmit the packet included in the transmission instruction information received by the instruction information receiver 256 to the relay device 100 .

The packet transmitter 262 may transmit the packet to the relay device 100 based on the transmission mode information included in the transmission instruction information received by the instruction information receiver 256, for example. For example, when communication terminal 200 and communication terminal 250 wirelessly transmit the same packet to relay device 100 , packet transmission section 262 may wirelessly transmit packets with all sequence numbers to relay device 100 .

On the other hand, when communication terminal 200 and communication terminal 250 wirelessly transmit different packets to relay device 100, packet transmission section 262 may wirelessly transmit the packet to relay device 100 according to the correspondence information included in the transmission mode information. . For example, when the correspondence information indicates that the communication terminal 250 wirelessly transmits a packet having a sequence number with a remainder of 1 when divided by 3 to the relay device 100, the packet transmission unit 262 sends the packet to the relay device 100 after dividing by 3. Packets with sequence numbers with a remainder of 1 may be wirelessly transmitted.

The retransmission request receiving section 264 may receive a retransmission request from the relay device 100 . The packet transmitter 262 may retransmit the missing packet to the relay device 100 in response to the retransmission request received by the retransmission request receiver 264 . For example, when missing packets are stored in the packet storage unit 260, the packet transmission unit 262 may retransmit the missing packets stored in the packet storage unit 260. FIG. The packet storage unit 260 may resend the missing packet generated by the packet generation unit 258 if the missing packet is not stored in the packet storage unit 260 .

Instruction information receiving section 256 may receive retransmission instruction information from communication terminal 200 . The packet transmitter 262 may retransmit the missing packet to the relay device 100 in response to the retransmission instruction information received by the instruction information receiver 256 . If a missing packet is included in the retransmission instruction information, the packet transmitter 262 may resend the missing packet.

FIG. 14 schematically shows an example of operations of relay device 100, communication terminal 200, and communication terminal 250. FIG. Here, an example of operations of relay device 100, communication terminal 200, and communication terminal 250 when communication terminal 200 and communication terminal 250 wirelessly transmit the same packet to relay device 100 will be described.

In S<b>602 , the communication quality report receiving unit 226 receives the communication quality report from the relay device 100 . The communication quality report may indicate, for example, the communication quality between relay device 100 and communication terminal 200 and the communication quality between relay device 100 and communication terminal 250 .

In S<b>604 , retransmission request receiving section 224 receives a retransmission request from relay device 100 . In S606, instruction determining section 220 determines whether or not to transmit retransmission instruction information to communication terminal 250 in response to retransmission request receiving section 224 receiving a retransmission request from relay apparatus 100 in S604. The instruction determining unit 220 may determine whether or not to transmit the retransmission instruction information to the communication terminal 250 based on the communication quality report received by the communication quality report receiving unit 226 from the relay device 100 in S602, for example. Here, the explanation will be continued on the assumption that the instruction determination section 220 has determined to transmit the retransmission instruction information to at least one communication terminal 250 .

In S<b>608 , instruction information transmitting section 222 transmits retransmission instruction information to at least one communication terminal 250 . In S610, packet transmitting section 212 wirelessly transmits the missing packet to relay apparatus 100 in response to retransmission request receiving section 224 receiving a retransmission request from relay apparatus 100 in S604. In S612, the packet transmission unit 262 wirelessly transmits the missing packet to the relay device 100 in response to the instruction information reception unit 256 receiving the retransmission instruction information from the communication terminal 200 in S608.

FIG. 15 schematically shows another example of operations of relay device 100, communication terminal 200 and communication terminal 250. In FIG. Here, an example of operations of relay device 100, communication terminal 200, and communication terminal 250 when communication terminal 200 and communication terminal 250 wirelessly transmit the same packet to relay device 100 will be described.

In S<b>702 , the communication quality report receiving unit 226 receives the communication quality report from the relay device 100 . The communication quality report may indicate, for example, the communication quality between relay device 100 and communication terminal 200 and the communication quality between relay device 100 and communication terminal 250 .

In S<b>704 , retransmission request receiving section 224 receives a retransmission request from relay apparatus 100 . In S706, the retransmission determination unit 228 determines whether or not the packet transmission unit 212 retransmits the missing packet to the relay device 100 in response to the retransmission request reception unit 224 receiving the retransmission request from the relay device 100 in S604. do. For example, based on the communication quality report that the communication quality report receiving unit 226 received from the relay device 100 in S702, the retransmission determination unit 228 determines whether the packet transmission unit 212 retransmits the missing packet to the relay device 100. you can Here, the explanation is continued assuming that the retransmission determination unit 228 has determined that the packet transmission unit 212 will not retransmit the missing packet to the relay device 100 .

In S708, the instruction information transmission section 222 transmits retransmission instruction information to at least one communication terminal 250 in response to the retransmission determination section 228 determining that the packet transmission section 212 will not retransmit the missing packet to the relay device 100. you can In S710, the packet transmission unit 262 wirelessly transmits the missing packet to the relay device 100 in response to the instruction information reception unit 256 receiving the retransmission instruction information from the communication terminal 200 in S708.

FIG. 16 schematically shows an example of a hardware configuration of a computer 1200 functioning as the relay device 100 and the communication terminal 200. As shown in FIG. Programs installed on the computer 1200 cause the computer 1200 to act as one or more "parts" of the apparatus of the above embodiments, or cause the computer 1200 to operate or perform operations associated with the apparatus of the above embodiments. Multiple "units" can be executed and/or the computer 1200 can be caused to execute the processes or steps of the processes according to the above embodiments. Such programs may be executed by CPU 1212 to cause computer 1200 to perform certain operations associated with some or all of the blocks in the flowcharts and block diagrams described herein.

Computer 1200 according to this embodiment includes CPU 1212 , RAM 1214 , and graphics controller 1216 , which may be interconnected by host controller 1210 . Computer 1200 also includes input/output units such as communication interface 1222 , storage device 1224 , DVD drive 1226 , and IC card drive, which may be connected to host controller 1210 via input/output controller 1220 . DVD drive 1226 may be a DVD-ROM drive, a DVD-RAM drive, and the like. Storage devices 1224 may be hard disk drives, solid state drives, and the like. Computer 1200 also includes legacy input/output units such as ROM 1230 and keyboard 1242 , which may be connected to input/output controller 1220 via input/output chip 1240 .

The CPU 1212 operates according to programs stored in the ROM 1230 and RAM 1214, thereby controlling each unit. Graphics controller 1216 may retrieve image data generated by CPU 1212 into a frame buffer or the like provided in RAM 1214 or itself, and cause the image data to be displayed on display device 1218 .

Communication interface 1222 may communicate with other electronic devices over a network. Storage device 1224 may store programs and data used by CPU 1212 within computer 1200 . DVD drive 1226 may read programs or data from DVD-ROM 1227 or the like and provide them to storage device 1224 . The IC card drive may read programs and data from the IC card and/or write programs and data to the IC card.

ROM 1230 may have stored therein, such as a boot program that is executed by computer 1200 upon activation, and/or programs that depend on the hardware of computer 1200 . Input/output chip 1240 may also connect various input/output units to input/output controller 1220 via USB ports, parallel ports, serial ports, keyboard ports, mouse ports, and the like.

The program may be provided by a computer-readable storage medium such as DVD-ROM 1227 or IC card. The program may be read from a computer-readable storage medium, installed in storage device 1224 , RAM 1214 , or ROM 1230 , which are also examples of computer-readable storage media, and executed by CPU 1212 . The information processing described within these programs is read by computer 1200 to provide coordination between the programs and the various types of hardware resources described above. An apparatus or method may be configured by implementing information operations or processing according to the use of computer 1200 .

For example, when communication is performed between the computer 1200 and an external device, the CPU 1212 executes a communication program loaded into the RAM 1214 and sends communication processing to the communication interface 1222 based on the processing described in the communication program. you can command. Under the control of the CPU 1212, the communication interface 1222 reads transmission data stored in a transmission buffer area provided in a recording medium such as a RAM 1214, a storage device 1224, a DVD-ROM 1227, or an IC card, and transmits the read transmission data. Data may be sent to the network, or received data received from the network may be written to a receive buffer area or the like provided on the recording medium.

In addition, the CPU 1212 causes the RAM 1214 to read all or necessary portions of files or databases stored in external recording media such as the storage device 1224, DVD drive 1226 (DVD-ROM 1227), IC card, etc. Various types of processing may be performed on the data. CPU 1212 may then write back the processed data to an external recording medium.

Various types of information, such as various types of programs, data, tables, and databases, may be stored on recording media and subjected to information processing. CPU 1212 performs various types of operations on data read from RAM 1214, information processing, conditional decisions, conditional branching, unconditional branching, and information retrieval, which are described throughout this disclosure and are specified by instruction sequences of programs. Various types of processing may be performed, including /replace, etc., and the results may be written back to RAM 1214 . In addition, the CPU 1212 may search for information in a file in a recording medium, a database, or the like. For example, when a plurality of entries each having an attribute value of a first attribute associated with an attribute value of a second attribute are stored in the recording medium, the CPU 1212 selects the first attribute from among the plurality of entries. search for an entry that matches the specified condition of the attribute value of the attribute, read the attribute value of the second attribute stored in the entry, and thereby determine the first attribute that satisfies the predetermined condition An attribute value of the associated second attribute may be obtained.

The programs or software modules described above may be stored in a computer-readable storage medium on or near computer 1200 . Also, a recording medium such as a hard disk or RAM provided in a server system connected to a dedicated communication network or the Internet can be used as a computer-readable storage medium, whereby the program can be transferred to the computer 1200 via the network. may provide.

The blocks in the flowcharts and block diagrams in this embodiment may represent steps in the process in which the operations are performed or "parts" of the apparatus responsible for performing the operations. Certain steps and "sections" may be provided with dedicated circuitry, programmable circuitry provided with computer readable instructions stored on a computer readable storage medium, and/or computer readable instructions provided with computer readable instructions stored on a computer readable storage medium. It may be implemented by a processor. Dedicated circuitry may include digital and/or analog hardware circuitry, and may include integrated circuits (ICs) and/or discrete circuitry. Programmable circuits, such as Field Programmable Gate Arrays (FPGAs), Programmable Logic Arrays (PLAs), etc., perform AND, OR, EXCLUSIVE OR, NOT AND, NOT OR, and other logical operations. , flip-flops, registers, and memory elements.

A computer-readable storage medium may comprise any tangible device capable of storing instructions to be executed by a suitable device, such that a computer-readable storage medium having instructions stored thereon may be illustrated in flowchart or block diagram form. It will comprise an article of manufacture containing instructions that can be executed to create means for performing specified operations. Examples of computer-readable storage media may include electronic storage media, magnetic storage media, optical storage media, electromagnetic storage media, semiconductor storage media, and the like. More specific examples of computer readable storage media include floppy disks, diskettes, hard disks, random access memory (RAM), read only memory (ROM), erasable programmable read only memory (EPROM or flash memory) , electrically erasable programmable read only memory (EEPROM), static random access memory (SRAM), compact disc read only memory (CD-ROM), digital versatile disc (DVD), Blu-ray disc, memory stick , integrated circuit cards, and the like.

The computer readable instructions may be assembler instructions, Instruction Set Architecture (ISA) instructions, machine instructions, machine dependent instructions, microcode, firmware instructions, state configuration data, or instructions such as Smalltalk, JAVA, C++, etc. any source or object code written in any combination of one or more programming languages, including object-oriented programming languages, and conventional procedural programming languages such as the "C" programming language or similar programming languages; may include

Computer readable instructions are used to produce means for a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus, or programmable circuits to perform the operations specified in the flowchart or block diagrams. A general purpose computer, special purpose computer, or other programmable data processor, locally or over a wide area network (WAN) such as the Internet, etc., to execute such computer readable instructions. It may be provided in the processor of the device or in a programmable circuit. Examples of processors may include computer processors, processing units, microprocessors, digital signal processors, controllers, microcontrollers, and the like.

Although the present invention has been described above using the embodiments, the technical scope of the present invention is not limited to the scope described in the above embodiments. It is obvious to those skilled in the art that various modifications or improvements can be made to the above embodiments. It is clear from the description of the scope of claims that forms with such modifications or improvements can also be included in the technical scope of the present invention.

The execution order of each process such as actions, procedures, steps, and stages in the devices, systems, programs, and methods shown in the claims, the specification, and the drawings is etc., and it should be noted that they can be implemented in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the specification, and the drawings, even if the description is made using "first," "next," etc. for convenience, it means that it is essential to carry out in this order. not a thing

10 system, 20 core network, 40 Internet, 50 base station device, 100 relay device, 102 address storage unit, 104 address reception unit, 106 packet storage unit, 108 packet reception unit, 110 packet identification unit, 111 transmission mode information reception unit , 112 loss determination unit, 114 retransmission request transmission unit, 116 packet transmission unit, 118 communication quality report generation unit, 119 request destination selection unit, 120 communication quality report transmission unit, 122 abnormality determination unit, 124 timeout time management unit, 126 information storage unit, 128 relay service reception unit, 130 user information acquisition unit, 132 address notification unit, 200 communication terminal, 202 address storage unit, 204 address acquisition unit, 206 transmission data acquisition unit, 208 packet generation unit, 210 packet storage unit, 212 packet transmission unit, 214 communication terminal determination unit, 216 transmission mode determination unit, 218 transmission mode information transmission unit, 220 instruction determination unit, 222 instruction information transmission unit, 224 retransmission request reception unit, 226 communication quality report reception unit, 228 retransmission Determination unit 230 Communication quality report display unit 250 Communication terminal 252 Address storage unit 254 Address reception unit 256 Instruction information reception unit 258 Packet generation unit 260 Packet storage unit 262 Packet transmission unit 264 Retransmission request reception unit , 300 camera, 400 communication terminal, 500 relay service reception device, 502 information storage unit, 504 relay service reception unit, 506 user information acquisition unit, 508 relay device determination unit, 510 address transmission unit, 512 address notification unit, 1200 computer, 1210 host controller, 1212 CPU, 1214 RAM, 1216 graphic controller, 1218 display device, 1220 input/output controller, 1222 communication interface, 1224 storage device, 1226 DVD drive, 1227 DVD-ROM, 1230 ROM, 1240 input/output chip, 1242 keyboard

Claims (26)

A packet generated from transmission data by a source terminal and wirelessly transmitted by mobile communication, and a packet wirelessly transmitted by another source terminal different from the source terminal by mobile communication according to an instruction from the source terminal a packet receiving unit that receives the received packet ;
a packet storage unit that stores the packet received by the packet receiving unit;
a packet transmission unit configured to transmit, via the Internet, the packet received by the packet reception unit to a destination terminal to which the transmission data is transmitted by the source terminal;
Using the plurality of packets stored in the packet storage unit, missing packets transmitted by the transmission source terminal and not received by the packet reception unit , and by the other transmission source terminals a missing determination unit that determines whether or not there is at least one missing packet that has been transmitted and has not been received by the packet receiving unit ;
a retransmission request transmitting unit that transmits a retransmission request requesting retransmission of the missing packet to the transmission source terminal in response to the loss determination unit determining that the missing packet exists,
The packet transmission unit retransmits the missing packet received by the packet reception unit and retransmits the transmission source terminal in response to the retransmission request, and transmits the missing packet to the destination terminal.
Relay device. a communication quality report generation unit that generates a communication quality report regarding the communication quality of the mobile communication based on the determination result of the lack determination unit;
2. The relay device according to claim 1, further comprising a communication quality report transmitting section that transmits said communication quality report generated by said communication quality report generating section to said destination terminal. 3. The relay device according to claim 2, wherein said communication quality report generation unit generates said communication quality report in response to said loss determination unit determining that said missing packet exists. An abnormality determination unit that determines an abnormality in the mobile communication,
The abnormality determination unit determines that an abnormality has occurred in the mobile communication when a ratio of the missing packets to the packets received by the packet reception unit exceeds a predetermined first threshold. 4. The relay device according to any one of 1 to 3. An abnormality determination unit that determines an abnormality in the mobile communication,
2. The abnormality determination unit determines that an abnormality has occurred in the mobile communication when the number of missing packets within a predetermined first period exceeds a predetermined second threshold. 4. The relay device according to any one of 3. an address storage unit that stores the source address of the source terminal and the destination address of the destination terminal in association with each other;
2. The packet transmission unit transmits the packet to the transmission destination address stored in the address storage unit in association with the transmission source address included in the packet received by the packet reception unit. 6. The relay device according to any one of 1 to 5. 7. The relay device according to claim 6, further comprising an address receiving unit that receives said transmission source address and said transmission destination address from a relay service reception device that receives from a user an application for a relay service for relaying said transmission data. a relay service reception unit that receives an application from a user for a relay service that relays the transmission data;
a user information acquisition unit that acquires the source address and the destination address included in the application;
7. The relay device according to claim 6, further comprising an address notification unit that notifies said user of an address of said relay device in response to said relay service receiving unit receiving said application from said user. a packet identification unit that identifies a predetermined number of packets that are stored in the packet storage unit and are not used for determination by the missing determination unit;
The missing determination unit determines whether or not the missing packet exists using the predetermined number of packets specified by the packet specifying unit;
The packet transmission unit transmits the predetermined number of packets when the loss determination unit determines that the missing packets do not exist, and when the loss determination unit determines that the missing packets exist. , after the retransmission request is transmitted by the retransmission request transmission unit, the missing packet and the predetermined number of packets received by the packet reception unit are transmitted to the destination terminal;
The relay device according to any one of claims 1 to 8. The packet transmission unit suspends transmission of the packet stored in the packet storage unit to the destination terminal when the loss determination unit determines that the missing packet exists, and the packet reception unit 10. The relay device according to claim 9, wherein, in response to receiving said missing packet, said packet whose transmission has been suspended and said missing packet are transmitted to said destination terminal. If the packet receiving unit does not receive the missing packet even after a timeout period has passed since the retransmission request transmitting unit transmitted the retransmission request, the packet transmitting unit transmits the packet whose transmission has been suspended. 11. The relay device according to claim 10, which transmits to a destination terminal. A timeout time management unit that sets the timeout time,
When the ratio of the missing packets to the packets received by the packet receiving unit exceeds a predetermined third threshold, the timeout period management unit sets the timeout period to a first timeout period, and sets the ratio does not exceed the third threshold, the relay device according to claim 11, wherein the timeout period is set to a second timeout period shorter than the first timeout period. A timeout time management unit that sets the timeout time,
The timeout period management unit sets the timeout period to a third timeout period when the number of missing packets within a predetermined second period exceeds a predetermined fourth threshold, and sets the timeout period to a third timeout period. 12. The relay device according to claim 11, wherein when the number of missing packets within the period does not exceed the fourth threshold, the timeout period is set to a fourth timeout period shorter than the third timeout period. 14. The retransmission request transmission unit according to any one of claims 1 to 13, wherein the retransmission request transmission unit transmits the retransmission request to the other transmission source terminal in response to the loss determination unit determining that the missing packet exists. The relay device described in . a request destination selection unit that selects a transmission destination to which the retransmission request is transmitted from the transmission source terminal and the other transmission source terminal when the loss determination unit determines that the missing packet exists,
The retransmission request transmission unit transmits the retransmission request to the transmission source terminal when the transmission source terminal is selected by the request destination selection unit, and transmits the retransmission request to the transmission source terminal when the other transmission source terminal is selected. transmitting a retransmission request to the other source terminal;
When the packet receiving unit receives the missing packet retransmitted by the other transmission source terminal in response to the retransmission request, the packet transmission unit transmits the missing packet retransmitted by the other transmission source terminal to the transmission destination. send to terminal
A relay device according to any one of claims 1 to 13 . The relay device according to any one of claims 1 to 15 , wherein said relay device is an MEC server. A program for causing a computer to function as the relay device according to any one of claims 1 to 16 . a relay service reception device;
comprising a repeater and
The relay service receiving device receives from a user an application for a relay service for relaying the transmission data so as to transmit the transmission data from the transmission source terminal to the transmission destination terminal, and the transmission source terminal acquired from the user. transmitting the source address of and the destination address of the destination terminal to the relay device,
The relay device
an address receiving unit that receives the source address and the destination address from the relay service receiving device;
an address storage unit that associates and stores the transmission source address and the transmission destination address received by the address reception unit;
A packet generated from the transmission data by the transmission source terminal and wirelessly transmitted by mobile communication, and a transmission source terminal different from the transmission source terminal by mobile communication according to an instruction from the transmission source terminal a packet receiving unit for receiving wirelessly transmitted packets ;
a packet storage unit that stores the packet received by the packet receiving unit;
a packet transmitting unit configured to transmit the packet received by the packet receiving unit to the destination address stored in the address storage unit in association with the source address included in the packet via the Internet; ,
Using the plurality of packets stored in the packet storage unit, missing packets transmitted by the transmission source terminal and not received by the packet reception unit , and by the other transmission source terminals a missing determination unit that determines whether or not there is at least one missing packet that has been transmitted and not received by the packet receiving unit;
transmitting a retransmission request requesting retransmission of the missing packet to the source address included in the packet received by the packet receiving unit in response to the determination by the loss determining unit that the missing packet exists. and a resend request transmitter,
The packet transmission unit retransmits the missing packet received by the packet reception unit and retransmitted by the transmission source terminal in response to the retransmission request, and transmits the missing packet to the destination address.
system. a communication terminal,
a packet generator that generates packets from transmission data;
a packet transmission unit that wirelessly transmits the packet generated by the packet generation unit to a relay device by mobile communication in order to transmit the transmission data to a destination terminal that is a destination of the transmission data via the Internet;
an instruction information transmitting unit for transmitting, to another communication terminal, transmission instruction information instructing wireless transmission of a packet to the relay device by mobile communication so as to transmit the transmission data to the destination terminal via the Internet; ,
The relay device detects missing packets transmitted by the packet transmission unit and not received by the relay device, and missing packets transmitted by the other communication terminal and not received by the relay device. a retransmission request receiving unit that receives a retransmission request requesting retransmission of the missing packet, which is transmitted after determining that at least one of them exists,
The packet transmission unit retransmits the missing packet to the relay device in response to the retransmission request reception unit receiving the retransmission request.
communication terminal. The instruction information transmitting unit transmits retransmission instruction information instructing retransmission of the missing packet to the relay device to the other communication terminal in response to the retransmission request receiving unit receiving the retransmission request. 20. The communication terminal according to claim 19 , wherein a communication quality report receiving unit that receives a communication quality report indicating communication quality between the communication terminal and the relay device from the relay device;
Whether or not to transmit the retransmission instruction information to the other communication terminal based on the communication quality between the communication terminal and the relay device in response to the retransmission request receiving unit receiving the retransmission request and an instruction determination unit that determines whether
When the instruction determination unit determines to transmit the retransmission instruction information to the other communication terminal, the instruction information transmission unit transmits the retransmission instruction information to the other communication terminal.
A communication terminal according to claim 20 . The communication quality report receiving unit further receives a communication quality report indicating communication quality between the other communication terminal and the relay device from the relay device,
The instruction determination unit determines whether or not to transmit the retransmission instruction information to the other communication terminal, further based on the communication quality between the other communication terminal and the relay device.
A communication terminal according to claim 21 . receiving from the relay device a communication quality report indicating communication quality between the communication terminal and the relay device and a communication quality report indicating communication quality between the other communication terminal and the relay device a communication quality report receiver;
the communication quality between the communication terminal and the relay device and the communication quality between the other communication terminal and the relay device in response to the retransmission request receiving unit receiving the retransmission request; a retransmission determination unit that determines whether the packet transmission unit retransmits the missing packet to the relay device based on
when the retransmission determination unit determines that the packet transmission unit retransmits the missing packet to the relay device, the packet transmission unit retransmits the missing packet to the relay device;
When the retransmission determination unit determines that the packet transmission unit does not retransmit the missing packet to the relay device, the instruction information transmission unit provides a retransmission instruction instructing retransmission of the missing packet to the relay device. transmitting information to the other communication terminal;
A communication terminal according to claim 19 . A program for causing a computer to function as the communication terminal according to any one of claims 19 to 23 . A computer-implemented method comprising:
A packet receiving unit generates a packet generated from transmission data by a transmission source terminal and wirelessly transmitted by mobile communication, and a transmission source terminal different from the transmission source terminal moves according to an instruction from the transmission source terminal. a step of receiving a packet wirelessly transmitted by a physical communication ;
a step in which a packet storage unit stores the packet received by the packet reception unit;
a step in which the packet transmission unit transmits the packet received by the packet reception unit to a destination terminal to which the transmission data is transmitted by the transmission source terminal via the Internet;
A loss determination unit uses the plurality of packets stored in the packet storage unit to transmit missing packets that have been transmitted by the source terminal and that have not been received by the packet reception unit , and the other determining whether there are at least any missing packets that have been transmitted by the source terminal of and have not been received by the packet receiving unit;
a retransmission request transmitting unit transmitting a retransmission request requesting retransmission of the missing packet to the transmission source terminal in response to the loss determination unit determining that the missing packet exists;
a step in which the packet receiving unit receives the missing packet retransmitted by the source terminal in response to the retransmission request;
said packet transmitter transmitting said missing packets received by said packet receiver to said destination terminal. A computer-implemented method comprising:
a packet generator generating a packet from the transmission data;
A packet transmission unit wirelessly transmits the packet generated by the packet generation unit to a relay device by mobile communication in order to transmit the transmission data to a destination terminal, which is a destination of the transmission data, via the Internet. a step;
An instruction information transmission unit transmits to another communication terminal transmission instruction information instructing wireless transmission of a packet to the relay device by mobile communication so as to transmit the transmission data to the destination terminal via the Internet. and
The relay device detects missing packets transmitted by the packet transmission unit and not received by the relay device, and missing packets transmitted by the other communication terminal and not received by the relay device. a step of receiving, by a retransmission request receiving unit, a retransmission request requesting retransmission of the missing packet, which was transmitted after determining that at least one of them exists;
said packet transmitter retransmitting said missing packet to said relay device in response to said retransmission request receiver receiving said retransmission request.

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