JP2007208722A - Dtm communication apparatus and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow simultaneous communication (DTM communication) of packet data communication and voice communication in GSM method using a smooth connection procedure. <P>SOLUTION: At DTM communication, a DL layer 17 notifies a voice communication state representing whether it is in voice call with a test object terminal 5 or not to a GRR layer 13. A memory 13a stores a massage process information for DTM communication received from a scenario executer 18. The GRR layer 13 confirms a voice communication state notified from the DL layer 17 if packet data communication are requested from the test object terminal 5 or the scenario executer 18. If it is during voice communication, a wireless resource is allocated according to the massage process information for DTM communication stored in the memory 13a. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention functions as, for example, a pseudo base station of a terminal under test such as a mobile phone or a terminal device, and particularly performs voice communication and packet data communication with respect to a test terminal that performs communication using a GSM (Global System for Mobile communications) communication method The present invention relates to a DTM communication apparatus and method capable of performing DTM (Dual Transfer Mode) communication, which is simultaneous communication with.

  As a technique for performing DTM communication, which is simultaneous communication of voice communication and packet data communication, with a test terminal that performs communication using the GSM communication method, for example, techniques disclosed in Patent Document 1 and Patent Document 2 are known. ing.

  Patent Document 1 discloses a technique for transmitting a circuit-switched paging message so that a message can be received to set up a circuit-switched voice connection to a mobile station during packet data communication. DTM communication is realized at the initiative.

Further, Patent Document 2 discloses a technique for transmitting a packet-switched paging message so that a mobile station can receive during circuit-switched voice communication. This technique realizes DTM communication led by a network. .
Special table 2003-530018 gazette Special table 2003-530043 gazette

  By the way, the above-mentioned DTM communication standard is defined in 3GPP TS 03.55 version 8.1.1 Release 1999 of the European Telecommunications Standards Institute (ETSI) GSM specification.

  However, in 3GPP TS 03.55 version 8.1.1 Release 1999, a procedure between specific layers (hereinafter also referred to as layers) for simultaneously performing voice communication and packet data communication in the GSM system. In particular, there has been a demand for a technique for realizing DTM communication in the GSM system by a smooth connection procedure and a technique for testing DTM communication using the same.

  Accordingly, the present invention has been made in view of the above problems, and a DTM communication apparatus capable of performing simultaneous communication (DTM communication) of voice communication and packet data communication in the GSM system with a smooth connection procedure, and The object is to provide a DTM communication method.

In order to achieve the above object, a DTM communication apparatus according to claim 1 of the present invention is a DTM communication which is a simultaneous communication of voice communication and packet data communication to a test target terminal 5 which performs communication by the GSM communication method. To do
A PHY layer 11 that performs the voice communication and the packet data communication with the test target terminal by a radio frequency signal and outputs the voice communication data, the packet data, and a communication control message to an upper layer of a hierarchical structure;
In response to the packet data output from the PHY layer and the communication control message, performs allocation management of radio resources for the GPRS system which is a data communication system in the GSM communication system, and includes an L3 layer 18b and the test target terminal. GRR that sends the packet data and the communication control message to the scenario execution unit 18 that inputs / outputs the communication control message to / from the corresponding layer of the hierarchical structure according to the analysis result of the scenario 18a describing the operation procedure of the communication Layer 13;
A TE layer 16 that receives the voice communication data and the packet data and interfaces with an external connection device;
A DTM communication apparatus 2 having a DL layer 17 for controlling a link of the voice communication by a circuit switching method,
A storage unit 13a for storing message processing information for DTM communication received from the scenario execution unit;
The DL layer notifies the GRR layer of a voice communication state indicating whether or not a voice call with the test target terminal is in progress,
The GRR layer checks the voice communication state notified from the DL layer when a request for packet data communication is received from the test target terminal or the scenario execution unit, and the voice communication state is in voice communication. In some cases, radio resource allocation processing is performed according to the message processing information for DTM communication stored in the storage unit.

The DTM communication device according to claim 2 is the DTM communication device according to claim 1,
The GRR layer 13 stores packet data received before DTM communication in the storage unit 13a when there is a request for packet data communication from the scenario execution unit 18.

The DTM communication device according to claim 3 is the DTM communication device according to claim 1 or 2,
When the request for packet data communication is from the test target terminal 5, the request is a DTM Request message for requesting DTM communication from the test target terminal.

The DTM communication device according to claim 4 is the DTM communication device according to claim 1 or 2,
When the request for packet data communication is from the scenario execution unit 18, the request is a Request PDP context activation message that is a request for starting a protocol for performing packet data communication to be transmitted to the test target terminal 5. And

The DTM communication apparatus according to claim 5 is the DTM communication apparatus according to any one of claims 1 to 4,
The message processing information includes a Packet Assignment message.

The DTM communication apparatus according to claim 6 is the DTM communication apparatus according to any one of claims 1 to 5,
The SNDCP layer 15 is located between the GRR layer 13 and the TE layer 16 and can switch the input / output destination of the packet data to the TE layer or the scenario execution unit according to an instruction from the scenario execution unit 18. It is provided with.

The DTM communication method according to claim 7 is for performing DTM communication, which is simultaneous communication of voice communication and packet data communication, to the test target terminal 5 that performs communication by the GSM communication method.
A PHY layer 11 that performs the voice communication and the packet data communication with the test target terminal by a radio frequency signal and outputs the voice communication data, the packet data, and a communication control message to an upper layer of a hierarchical structure;
In response to the packet data output from the PHY layer and the communication control message, performs allocation management of radio resources for the GPRS system which is a data communication system in the GSM communication system, and includes an L3 layer 18b and the test target terminal. GRR that sends the packet data and the communication control message to the scenario execution unit 18 that inputs / outputs the communication control message to / from the corresponding layer of the hierarchical structure according to the analysis result of the scenario 18a describing the operation procedure of the communication Layer 13;
A TE layer 16 that receives the voice communication data and the packet data and interfaces with an external connection device;
A DTM communication method using a DTM communication device 2 having a DL layer 17 that controls a link of the voice communication by a circuit switching method,
Storing message processing information for DTM communication received from the scenario execution unit in the storage unit 13a;
The DL layer notifying the GRR layer of a voice communication state indicating whether or not a voice call with the test target terminal is in progress;
When the GRR layer confirms the voice communication state notified from the DL layer when there is a request for packet data communication from the test target terminal or the scenario execution unit;
A step of performing radio resource allocation processing in accordance with the message processing information for DTM communication stored in the storage unit when the voice communication state is voice communication.

  According to the present invention, by managing the voice communication state in the GRR layer 13, it is possible to cope with both the DTM led by the test target terminal (mobile device) and the DTM led by the network. Simultaneous communication with data communication (DTM communication) can be executed with a smooth connection procedure.

  Further, by having the SNDCP layer 15 that can switch the input / output destination of the packet data to the TE layer 16 or the scenario execution unit 18, a communication test using fixed packet data or an abnormal packet is performed on the test target terminal during DTM communication. Tests can be performed when communication is abnormal.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. FIG. 1 is a functional block diagram of a communication system including a DTM communication apparatus according to the present invention, FIGS. 2 to 5 are flowcharts showing various operation examples by the apparatus, and FIG. 6 is a message header including SAPI (Service Access Point Identifier). It is the schematic of a format.

  A communication system 1 shown in FIG. 1 is constructed by a DTM communication apparatus 2 according to the present invention, a handset 3 as a voice communication handset, a server 4 for transmitting / receiving packet data, and a test target terminal 5 such as a mobile terminal to be tested. Has been.

  As shown in FIG. 1, the DTM communication apparatus 2 of this example functions as a pseudo base station of a terminal under test such as a mobile phone or a terminal device, and performs each operation shown in FIGS. PHY (Physical) layer 11, RLC (Radio Link Control) / MAC (Medium Access Control) layer 12, GRR (GPRS (General Packet Radio Service) Radio Resource) layer 13, storage unit 13a, LLC (Logical Link Control) layer 14, an SNDCP (SubNetwork Dependent Convergence Protocol) layer 15, a TE (Terminal Equipment) layer 16, a DL (Data Link) layer 17, a storage unit 17a, and a scenario execution unit 18.

  In the DTM communication apparatus 2 of this example, the voice communication state is managed by the GRR layer 13, and the operations shown in FIGS. Both DTM communications are supported.

  The PHY layer 11 functions as a physical layer control block that controls the physical layer (the lowest layer of the OSI reference model) that defines the data representation format and interface shape on the transmission path. In the PHY layer 11, voice communication and packet data communication are performed with the test target terminal 5 by using radio frequency signals, and voice communication data, packet data, and communication control messages are output to the upper layer of the hierarchical structure.

  The RLC / MAC layer 12 is a radio link that performs link control related to radio, such as data division, combination, and retransmission control for reliably and efficiently delivering data to the other party, and conversion of each communication channel for delivering data to the other party. / Functions as a medium access control block.

  The GRR layer 13 functions as a GPRS (General Packet Radio Service) radio resource management block including resource allocation, and includes a message registration processing function, a received message identification processing function, a voice communication state check processing function, a message transmission processing function, and a packet state. It has a management processing function and a packet data storage processing function.

  Further, each function will be described. In the message registration processing function, message processing information including message processing information for DTM communication for realizing DTM communication set from a scenario 18a described later is stored in the storage unit 13a. The received message identification processing function analyzes the received message based on message processing information. The voice communication status check processing function confirms the current voice communication status. The message transmission processing function transmits a message in accordance with the message analysis result of the received message identification processing function and the confirmed voice communication state. The packet status management processing function manages the packet status. In the packet data storage processing function, packet data received before the start of packet communication is temporarily stored in the storage unit 13a.

  The storage unit 13a stores message processing information including message processing information for DTM communication for realizing DTM communication received from the L3 layer 18b of the scenario execution unit 18. This message processing information includes a Packet Assignment message. Specifically, the storage unit 13a registers and stores a “packet channel assignment” message template, which is a radio resource management message, in a message set table. Further, the packet data received by the GRR 13 layer before the DTM communication when the packet data communication is requested from the L3 layer 18 b of the scenario execution unit 18 is stored in the storage unit 13 a by the GRR layer 13. In the example of FIG. 1, the storage unit 13 a is described as a separate configuration from the GRR layer 13, but the storage unit 13 a may be included in the GRR layer 13.

  The GRR layer 13 having the above-described functions receives packet data and a communication control message output from the PHY layer 11 via the RLC / MAC layer 12 and is used for the GPRS system which is a data communication system in the GSM communication system. In addition to performing radio resource allocation management, a communication control message is sent to the scenario execution unit 18 including the L3 layer 18b described later. The packet data is sent to the LLC layer 14 which is an upper layer. Further, the GRR layer 13 confirms the voice communication state from the DL layer 17 when there is a request for packet data communication from the test target terminal 5 or the L3 layer 18b of the scenario execution unit 18, and the voice communication state is voice. When a call is in progress, radio resource allocation processing is performed in order to perform DTM communication in accordance with message processing information stored in the storage unit 13a.

  In this example, in the case of a request for packet data communication from the test target terminal 5, the request becomes a DTM Request message for requesting DTM communication from the test target terminal 5. Further, in the case of a request for packet data communication from the L3 layer 18b of the scenario execution unit 18, the request becomes a Request PDP context activation message that is a request for starting a protocol for performing packet data communication with the test target terminal 5. . PDP (Packet Data Protocol) indicates a protocol for performing packet data communication.

  The LLC layer 14 functions as a logical link control block that performs link control for establishing a packet communication path when packet data is transmitted and received.

  The SNDCP layer 15 functions as a network integrated protocol control block that controls protocol matching related to packet data communication between the DTM communication apparatus 2 and the network. Further, the SNDCP layer 15 transmits / receives packet data to / from the TE layer 16 in order to transmit / receive packet data to / from the server 4 (including an external network), or controls the packet data in the scenario 18a. Whether to transmit or receive packet data to or from the scenario execution unit 18 for testing the terminal 15 can be selectively switched by an instruction from the scenario execution unit 18. As a result, the DTM communication device 2 of this example can be used as a DTM communication test device, and a communication test using fixed packet data or a test at the time of communication failure due to an abnormal packet can be performed on the test target terminal 15 during DTM communication. .

  The TE layer 16 functions as an interface with externally connected devices such as another DTM communication device 2, a server 4, and a handset 3, for example.

  The DL layer 17 functions as a circuit switching link control block, and has a message identification processing function, a received message notification processing function to the GRR layer 13, and a received message transmission processing function to the PHY layer 11.

  Further, each function will be described. The message identification processing function analyzes a received message. The received message notification processing function to the GRR layer 13 notifies the received message to the GRR layer 13 including a voice communication state indicating whether or not a voice call with the test target terminal 5 is in progress. In the received message transmission processing function to the PHY layer 11, the received message is transmitted to the PHY layer 11.

  The storage unit 17a stores voice communication related messages and DTM communication related messages exchanged with the PHY layer 11, DTM communication related messages exchanged with the GRR layer 13, analysis results of these received messages, and the like. ing. In the example of FIG. 1, the storage unit 17 a is described as being configured separately from the DL layer 17, but the storage unit 17 a may be included in the DL layer 17.

  The scenario execution unit 18 analyzes the scenario 18a and controls each block (each layer) according to the procedure of the analysis result. The scenario 18a includes an L3 (Layer 3) layer 18b, and exchanges between the DTM communication apparatus 2 and the test target terminal 5, such as a message setting relationship and a relationship between a frequency and a signal output to the test target terminal 5, for example. Various communication procedures are defined.

  Next, a specific operation example of the DTM communication apparatus 2 configured as described above will be described with reference to FIGS.

First Example First, a specific operation example at the time of outgoing call when there is a packet request (UpLink direction) during circuit switching on condition that there is no reallocation will be described with reference to FIG. Note that reallocation means resetting the slot position of the voice communication channel.

(1) In the flow shown in FIG. 2, it is assumed that the test target terminal 5 has already completed the location registration sequence in voice communication and packet data communication.
(2) A message set on the storage unit 13a of the GRR layer 13 by using a template of a “Packet Channel Assignment” message, which is a radio resource management message (RR), as message processing information for DTM communication Registered in the table (message registration process).
(3) Voice communication status notification indicating that voice communication (CS established mode) by circuit switching (CS: Circuit Switched) is established by a procedure according to a well-known sequence (establishment of a circuit-switched call) and a voice call is in progress Is transmitted from the DL layer 17 to the GRR layer 13.
The voice status includes “ldle”, “line connection start”, “line connection complete”, “line disconnection start”, and the like. Although not shown, in actual operation, the notification of the voice communication state from the DL layer 17 to the GRR layer 13 is notified every time the state changes.
(4) The test target terminal 5 sends a DTM request (DTM Request) to the DTM communication device 2 using a user operation on the test target terminal 5 side (for example, Web browsing operation or data transfer by dial-up) as a trigger. . This DTM request is sent from the test target terminal 5 to the PHY layer 11 and from the PHY layer 11 to the DL layer 17.
(5) When the DL layer 17 identifies the DTM request as the message type (Message Type) in the control message received from the test target terminal 5 (SAPI in the SAPI format in FIG. 6 is set to 0), the DL layer 17 The data is transmitted to the GRR layer 13 and the L3 layer 18b of the scenario execution unit 18 (reception message identification processing, reception message notification processing to the GRR layer 13 (request for channel allocation)).
In the case of a DTM request, in the format shown in FIG. 6, SAPI is set in the Address field, and a message is input in the Information field.
(6) The L3 layer 18b does not require any special action in communication control for the DTM request. This indicates that the DTM processing need not be managed by the L3 layer 18b.
(7) When the message type is identified as a DTM request, the GRR layer 13 checks the voice communication state notified in the above (3) (received message identification process, voice communication state check process). If the voice communication state is “line connection complete” indicating that voice communication is in progress, the necessary parameters are embedded in the “packet channel assignment” message registered in (2) above, and the DL layer 17 Send (registration message sending process).
(8) The DL layer 17 transmits the received “packet channel assignment” message to the PHY layer 11 (reception message transmission processing to the PHY layer 11).
(9) The test target terminal 5 assigns a packet to the channel designated by the “packet channel assignment” received from the PHY layer 11 and assigns an uplink packet channel.
(10) The PHY layer 11 transmits a “packet channel allocation” transmission completion notification indicating that transmission of “packet channel allocation” to the test target terminal 5 has been completed to the GRR layer 13 (notification processing to the GRR layer 13).
(11) Upon receiving the “packet channel allocation” transmission completion notification, the GRR layer 13 transitions to a state where packet data communication is possible (packet state management processing).
(12) DTM communication is established between the test target terminal 5 and the DTM communication device 2 (uplink channel only)
(13) Although not shown in the drawing, “packet channel allocation” in the downlink direction is realized by performing a packet channel allocation sequence in normal packet data communication.

  By the way, the PHY layer 11 in FIG. 2 transmits a “packet channel allocation” transmission completion notification to the GRR layer 13 after transmitting “packet channel allocation” to the test target terminal 5, but is limited to this processing. is not. For example, the PHY layer 11 may transmit a “packet channel allocation” transmission completion notification to the GRR layer 13 simultaneously with transmission of “packet channel allocation” to the test target terminal 5. As another method, the test target terminal 5 transmits a “packet channel allocation” transmission completion notification to the GRR layer 13 after the test target terminal 5 allocates a packet to the channel specified by “packet channel allocation”. It can also be.

  Further, FIG. 2 shows the operation under the condition of “no reallocation”. However, the following points are different in the processing of FIG. Note that “with reallocation” means that the voice communication channel is also reallocated along with the packet channel assignment.

  When “relocation” is a condition, “DTM allocation” is transmitted instead of “packet channel allocation” between (7) to (11) in FIG. In FIG. 2, the message set relating to “DTM assignment” is also included in the “packet channel assignment” message set in (2).

Second Embodiment Next, a specific operation example at the time of arrival when there is a packet request (DownLink direction) during circuit switching on the condition that there is no reallocation will be described with reference to FIG. Note that reallocation means resetting the slot position of the voice communication channel.

(1) In the flow shown in FIG. 3, it is assumed that the test target terminal 5 has already completed the position registration sequence in voice communication and packet data communication.
(2) A message set on the storage unit 13a of the GRR layer 13 by using a template of a “Packet Channel Assignment” message, which is a radio resource management message (RR), as message processing information for DTM communication Registered in the table (message registration process).
(3) Voice communication status notification indicating that voice communication (CS established mode) by circuit switching (CS: Circuit Switched) is established by a procedure according to a well-known sequence (establishment of a circuit-switched call) and a voice call is in progress Is transmitted from the DL layer 17 to the GRR layer 13.
The voice status includes “ldle”, “line connection start”, “line connection complete”, “line disconnection start”, and the like. Although not shown, in actual operation, the notification of the voice communication state from the DL layer 17 to the GRR layer 13 is notified every time the state changes.
(4) The DTM communication apparatus 2 starts data transmission according to the operation described in the scenario 18a. Then, data (for example, Request PDP context activation or actual data) is transmitted from the L3 layer 18b to the LLC layer 14.
Note that PDP (Packet Data Protocol) is a protocol for performing packet data communication, and in GPRS, it is used in association with NSAPI (Network Service Access Point Identifier) as an interface provided to an upper link by SNDP.
(5) The LLC layer 14 transmits the received message to the GRR layer 13 (reception message transmission processing to the GRR layer 13).
(6) When the message type (Message Type) is identified as a packet data communication request (Request PDP context activation), the GRR layer 13 checks the voice communication state notified in (3) above (voice communication state) Check processing). If the voice communication state is “line connection complete” indicating that voice communication is in progress, the necessary parameters are embedded in the “packet channel assignment” message registered in (2) above, and the DL layer 17 Send (registration message sending process).
At this time, the GRR layer 13 temporarily stores the received packet data communication request until the packet data communication is enabled (packet data storage process).
(7) The DL layer 17 transmits the received “packet channel assignment” message to the PHY layer 11 (reception message transmission processing to the PHY layer 11).
(8) The test target terminal 5 assigns a packet to the channel designated by the “packet channel assignment” received from the PHY layer 11 and assigns a packet channel in the downlink direction.
(9) The PHY layer 11 transmits a “packet channel allocation” transmission completion notification indicating that “packet channel allocation” has been transmitted to the test target terminal 5 to the GRR layer 13 (notification processing to the GRR layer 13).
(10) Upon receiving the “packet channel assignment” transmission completion notification, the GRR layer 13 transitions to a state where packet data communication is possible (packet state management processing). Further, the temporarily transmitted data transmission (for example, Request PDP context activation or actual data) is transmitted to the test target terminal 5 through the PHY layer 11 (saved packet data transmission process).
(11) DTM communication is established between the test target terminal 5 and the DTM communication device 2 (downlink channel only).
(12) Although not shown, “uplink” direction “packet channel allocation” is realized by performing a packet channel allocation sequence in normal packet data communication.

  By the way, the PHY layer 11 in FIG. 3 transmits a “packet channel allocation” transmission completion notification to the GRR layer 13 after transmitting a “packet channel allocation” to the test target terminal 5, but is limited to this process. is not. For example, the PHY layer 11 may transmit a “packet channel allocation” transmission completion notification to the GRR layer 13 simultaneously with transmission of “packet channel allocation” to the test target terminal 5. As another method, the test target terminal 5 transmits a “packet channel allocation” transmission completion notification to the GRR layer 13 after the test target terminal 5 allocates a packet to the channel specified by “packet channel allocation”. It can also be.

  Further, FIG. 3 shows the operation under the condition of “no reallocation”. However, the following points are different in the processing of FIG. Note that “with reallocation” means that the voice communication channel is also reallocated along with the packet channel assignment.

  When “relocation” is a condition, “DTM allocation” is transmitted instead of “packet channel allocation” between (6) to (10) in FIG. In FIG. 3, the message set relating to “DTM assignment” is also included in the “packet channel assignment” message set in (2) above.

Third Example Next, a specific operation example at the time of outgoing call or incoming call when there is a line request during packet data communication will be described with reference to FIGS.

(1) In the flow shown in FIG. 4 and FIG. 5, it is assumed that the test target terminal 5 has already completed the position registration sequence in voice communication and packet data communication.
(2) A message set on the storage unit 13a of the GRR layer 13 by using a template of a “Packet Channel Assignment” message, which is a radio resource management message (RR), as message processing information for DTM communication Registered in the table (message registration process).
(3) Establish packet data communication by a known sequence procedure (packet communication state).
(4) The test target terminal 5 makes a voice communication channel allocation request (Channel Request) to the DTM communication apparatus 2 using a user operation (for example, a destination number dial) on the test target terminal 5 side as a trigger (a line connection trigger occurs). ) Is sent (if outgoing).
Even when the test target terminal 5 receives a voice incoming call (Packet Paging Request) from the L3 layer 18b of the DTM communication apparatus 2, the test target terminal 5 sends a voice communication channel allocation request to the DTM communication apparatus 2 (in the case of an incoming call). ).
(5) When the information received from the test target terminal 5 is identified as the voice communication channel allocation request, the DL layer 17 transmits the content to the GRR layer 13 and the L3 layer 18b (message identification process, GRR layer (Received message notification processing to 13)
(6) When the message type (Message Type) is identified as a voice communication channel allocation request, the GRR layer 13 recognizes that the voice communication state is “line connection start” (message identification process, voice communication state check process). Thereafter, until DTM communication is started, the packet transmission data received by the GRR layer 13 is in a don't care state (packet communication interruption). In addition, you may memorize | store in the memory | storage part 13a of the GRR layer 13, and may transmit at the time of DTM communication start.
(7) In response to the voice communication channel assignment request, the L3 layer 18b transmits voice communication channel immediate assignment (Immediate Assignment) to the DL layer 17 according to the operation procedure described in the scenario 18a.
(8) The DL layer 17 transmits the received voice communication channel immediate allocation to the test target terminal 5 via the PHY layer 11 (reception message transmission processing to the PHY layer 11).
(9) The L3 layer 18b transmits a voice communication channel assignment instruction (Assignment Command) to the DL layer 17 in order to designate a voice communication channel to be used in accordance with the operation procedure described in the scenario 18a.
(10) The DL layer 17 transmits the received voice communication channel assignment instruction to the test target terminal 5 via the PHY layer 11 (reception message transmission processing to the PHY layer 11).
(11) The test target terminal 5 assigns a voice communication channel according to the voice communication channel assignment instruction, and transmits a voice communication channel assignment completion (Assignment Complete) indicating the completion of the process to the DTM communication apparatus 2.
(12) When the DL layer 17 identifies that the information received from the test target terminal 5 is voice communication channel assignment completion, the DL layer 17 transmits the contents to the GRR layer 13 and the L3 layer 18b (message identification process, to the GRR layer 13). Received message notification process).
(13) When the message received from the DL layer 17 identifies the voice communication channel assignment completion, the GRR layer 13 recognizes that the voice state is “line connection complete” (message identification process, voice communication state check process).
(14) Although not shown, the subsequent sequence starts from the test target terminal 5 in (4) of “Specific operation example at the time of transmission when there is a packet request (UpLink) during circuit switching” shown in FIG. Shift to DTM request transmission.

  As described above, in the DTM communication apparatus 2 of this example, when performing DTM communication, which is simultaneous communication of voice communication and packet data communication, to the test terminal 5 that performs communication by the GSM communication method, When the need for data communication occurs, the voice communication state is managed by the GRR layer 13 and the operations shown in FIGS. 2 to 5 are executed. This makes it possible to support both DTM led by the test target terminal (mobile device) and DTM led by the network, and enables simultaneous communication (DTM communication) of voice communication and packet data communication in the GSM system with a smooth connection procedure. Can be executed.

  In the example of FIG. 1, the scenario execution unit 18 has been described as performing the operations illustrated in FIGS. 2 to 5 as a configuration included in the DTM communication device 2, but only the scenario execution unit 18 is connected to the DTM communication device 2. Can be operated in the same manner as in the above-described embodiment, even if included in a separate device (for example, an external terminal device connectable to the DTM communication device 2).

  Moreover, in the said embodiment, although the structure at the time of connecting the handset 3, the server 4, and the test object terminal 5 to DTM communication apparatus 2 (2A) was demonstrated, as shown with the broken line in the parenthesis of FIG. Another DTM communication device 2 (2B) to which an opposite test terminal (mobile device or terminal device) 25 that has been tested or becomes a reference is further connected to the DTM communication device 2 (2A) to which the target terminal 5 is connected. If connected, the opposing test can be performed between the test target terminal 5 and the opposing test terminal 25 by relaying the two DTM communication apparatuses 2A and 2B.

It is a functional block diagram of the communication system containing the DTM communication apparatus which concerns on this invention which concerns on this invention. It is a processing operation example of the DTM communication apparatus which concerns on this invention, Comprising: It is a flowchart which shows the specific operation example at the time of transmission when there is a packet request (U / L) without reallocation during circuit switching. It is a processing operation example of the DTM communication apparatus which concerns on this invention, Comprising: It is a flowchart which shows the specific operation example at the time of an incoming call when there is a packet request (U / L) without reallocation during circuit switching. It is a processing operation example of the DTM communication apparatus which concerns on this invention, Comprising: It is a flowchart which shows the specific operation example at the time of the transmission at the time of a line request | requirement during packet data communication, or an incoming call. 5 is a flowchart showing a continuation of the processing operation of FIG. It is the schematic of the format of the message header containing SAPI.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication system 2 (2A, 2B) DTM communication apparatus 3 Handset 4 Server 5 Test object terminal 11 PHY layer 12 RLC / MAC layer 13 GRR layer 13a Storage unit 14 LLC layer 15 SNDCP layer 16 TE layer 17 DL layer 17a Storage unit 18 Scenario execution unit 18a Scenario 18b L3 layer 25 Opposite test terminal

Claims (7)

In order to perform DTM communication, which is simultaneous communication of voice communication and packet data communication, to the test target terminal (5) that performs communication by the GSM communication method,
A PHY layer (11) that performs the voice communication and the packet data communication with the test target terminal by a radio frequency signal and outputs the voice communication data, the packet data, and the communication control message to an upper layer of a hierarchical structure;
In response to receiving the packet data output from the PHY layer and the communication control message, performs allocation management of radio resources for the GPRS system which is a data communication system in the GSM communication system, and includes the L3 layer (18b) and the test object The packet data and the communication are sent to the scenario execution unit (18) that inputs / outputs the communication control message to / from the corresponding layer of the hierarchical structure according to the analysis result of the scenario (18a) describing the operation procedure of communication with the terminal. A GRR layer (13) for sending control messages;
A TE layer (16) that receives the voice communication data and the packet data and interfaces with an external connection device;
A DTM communication device (2) having a DL layer (17) for controlling a link of the voice communication by a circuit switching method,
A storage unit (13a) for storing message processing information for DTM communication received from the scenario execution unit;
The DL layer notifies the GRR layer of a voice communication state indicating whether or not a voice call with the test target terminal is in progress,
The GRR layer checks the voice communication state notified from the DL layer when a request for packet data communication is received from the test target terminal or the scenario execution unit, and the voice communication state is in voice communication. If there is, the DTM communication apparatus performs radio resource allocation processing according to the message processing information for DTM communication stored in the storage unit. The GRR layer (13) stores packet data received before DTM communication in the storage unit (13a) when a request for packet data communication is received from the scenario execution unit (18). The DTM communication apparatus according to claim 1. 3. When the request for packet data communication is from the test target terminal (5), the request is a DTM Request message for requesting DTM communication from the test target terminal. DTM communication equipment. When the request for packet data communication is from the scenario execution unit (18), a Request PDP context activation message that is a request for starting a protocol for performing packet data communication to be transmitted to the test target terminal (5). The DTM communication apparatus according to claim 1, wherein the DTM communication apparatus is provided. The DTM communication apparatus according to claim 1, wherein the message processing information includes a Packet Assignment message. Between the GRR layer (13) and the TE layer (16), and according to an instruction from the scenario execution unit (18), the input / output destination of the packet data is transferred to the TE layer or the scenario execution unit. 6. The DTM communication device according to claim 1, further comprising a switchable SNDCP layer (15). In order to perform DTM communication, which is simultaneous communication of voice communication and packet data communication, to the test target terminal (5) that performs communication by the GSM communication method,
A PHY layer (11) that performs the voice communication and the packet data communication with the test target terminal by a radio frequency signal and outputs the voice communication data, the packet data, and the communication control message to an upper layer of a hierarchical structure;
In response to receiving the packet data output from the PHY layer and the communication control message, performs allocation management of radio resources for the GPRS system which is a data communication system in the GSM communication system, and includes the L3 layer (18b) and the test object The packet data and the communication are sent to the scenario execution unit (18) that inputs / outputs the communication control message to / from the corresponding layer of the hierarchical structure according to the analysis result of the scenario (18a) describing the operation procedure of communication with the terminal. A GRR layer (13) for sending control messages;
A TE layer (16) that receives the voice communication data and the packet data and interfaces with an external connection device;
A DTM communication method using a DTM communication device (2) having a DL layer (17) for controlling the voice communication link by a circuit switching method,
Storing message processing information for DTM communication received from the scenario execution unit in a storage unit (13a);
The DL layer notifying the GRR layer of a voice communication state indicating whether or not a voice call with the test target terminal is in progress;
When the GRR layer confirms the voice communication state notified from the DL layer when there is a request for packet data communication from the test target terminal or the scenario execution unit;
A step of performing radio resource allocation processing in accordance with the message processing information for DTM communication stored in the storage unit when the voice communication state is voice communication. Communication method.

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