JP6191079B2 - Mobile station apparatus, base station apparatus, and communication system - Google Patents

Description

  The present invention relates to a mobile station device, a base station device, and a communication system.

  A scalability function related to a single uplink function has been proposed by dual connection of a macro cell base station apparatus, a small cell base station apparatus, and a mobile station apparatus. This is because the mobile station device transmits HARQ (Hybrid Automatic Repeat Request) feedback to the macro cell base station device and the small cell base station device in a time division multiplexing manner, and the mobile station device is connected in uplink connection for only one cell. And transferring information between cells (see Non-Patent Document 1). Also, in the single uplink connection method of HARQ feedback, when the dual downlink connection between the macro cell base station apparatus and the small cell base station apparatus, the uplink is a single uplink connection using a time division multiplexing system, and the macro cell base station The data rate of the macro cell base station device and the small cell base station device is increased by performing HARQ feedback for a plurality of frames alternately between the station device and the small cell base station device (see Non-Patent Document 2).

Intel Corporation, “Dual connectivity for UEs supporting one UL CC”, 3GPP TSG RAN WG2 Meeting # 81bis R2-113110 AUSTeK, “Discussion on dual connectivity for single UL CC capable UEs”, 3GPP TSG-RAN WG2 Meeting # 82 R2-131848

  However, in the single uplink connection, if no error occurs in communication, the peak data rate of communication in the downlink direction (from the base station device to the mobile station device) can be maximized, but the propagation state (wireless state) However, if communication errors occur in a poor environment, HARQ feedback is not performed for each frame, and therefore the data rate is reduced due to delays in starting retransmission processing and complicated retransmission control. There was a problem. Further, when dual uplink connection is performed without using a single uplink connection in order to prevent a decrease in data rate, there is a problem that power consumption increases. As described above, there is a problem that user convenience is not sufficient.

  This invention is made | formed in view of said point, and makes it a subject to provide the mobile station apparatus, base station apparatus, and communication system which can improve a user's convenience.

  The present invention has been made to solve the above problems, and a first aspect of the present invention is a mobile station apparatus that communicates with the first base station apparatus and the second base station apparatus. A switching inquiry unit that transmits an inquiry as to whether or not switching from the communication mode to the second communication mode is possible to the first base station apparatus, and whether or not switching is possible as an answer to the inquiry from the first base station apparatus A receiving unit that receives a response, and a request unit that transmits a request to switch from the first communication mode to the second communication mode to the first base station apparatus based on the switching availability response received by the receiving unit. And a mobile station apparatus comprising:

  According to the mobile station apparatus, base station apparatus, and communication system of the present invention, user convenience can be improved.

It is the schematic which shows an example of the communication condition of the communication system which concerns on the 1st Embodiment of this invention. It is the schematic which shows another example of the communication condition of the communication system which concerns on the 1st Embodiment of this invention. It is the schematic which shows an example of the structure of the sub-frame in the uplink multiple communication mode which concerns on the 1st Embodiment of this invention. It is the schematic which shows another example of the structure of the sub-frame in the uplink single communication mode which concerns on the 1st Embodiment of this invention. It is a schematic block diagram which shows an example of a structure of the macrocell base station apparatus which concerns on the 1st Embodiment of this invention. It is a schematic block diagram which shows an example of a structure of the small cell base station apparatus which concerns on the 1st Embodiment of this invention. It is a schematic block diagram which shows an example of a structure of the mobile station apparatus which concerns on the 1st Embodiment of this invention. It is a flowchart which shows an example of the process at the time of the start of the data communication of the mobile station apparatus which concerns on the 1st Embodiment of this invention. It is a flowchart which shows an example of the process at the time of the data communication of the mobile station apparatus which concerns on the 1st Embodiment of this invention. It is a sequence diagram which shows an example of the uplink switching process which concerns on the 1st Embodiment of this invention. It is a flowchart which shows an example of the process in the mobile station apparatus which concerns on the 1st Embodiment of this invention. It is a flowchart which shows an example of the process in the macrocell base station apparatus which concerns on the 1st Embodiment of this invention. It is a flowchart which shows an example of the process in the small cell base station apparatus which concerns on the 1st Embodiment of this invention.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic diagram illustrating an example of a communication status S1 of the communication system S according to the first embodiment of the present invention.
The communication system S includes a first base station device, a second base station device, and a mobile station device 3. The first base station device is, for example, the macro cell base station device 1. The second base station device is, for example, the small cell base station device 2.

  The macro cell base station apparatus 1 uses the cell CM as a communication range, and communicates with the mobile station apparatus 3 in the cell CM. Further, the small cell base station device 2 uses the cell CS as a communication range, and communicates with the mobile station device 3 in the cell CS. In the illustrated example, the cell CS overlaps with a part of the cell CM, and the mobile station device 3 exists in the overlapping portion. Therefore, the mobile station device 3 includes the macro cell base station device 1, the small cell base station device 2, Communicate.

Here, DL in the figure represents the downlink, that is, the direction of communication from each base station apparatus to the mobile station apparatus 3, and UL represents the uplink, that is, communication from the mobile station apparatus 3 to each base station apparatus. Indicates the direction.
In this example, the mobile station apparatus 3 is connected to the macrocell base station apparatus 1 and the small cell base station apparatus 2 by a plurality of links in the downlink DL, for example, two links (hereinafter also referred to as dual links), and performs dual communication. The mode communicates with the two base station apparatuses. Similarly, in the uplink UL, the mobile station device 3 is connected to the macro cell base station device 1 and the small cell base station device 2 by a dual link, and the 2 in the multiple communication mode (hereinafter also referred to as dual communication mode). It communicates with two base station devices.

FIG. 2 is a schematic diagram illustrating another example of the communication status S2 of the communication system S according to the first embodiment of the present invention.
The configuration of the communication system S is the same as that shown in FIG. In the illustrated example, the mobile station device 3 is connected to the macro cell base station device 1 and the small cell base station device 2 in the downlink DL in the same way as in FIG. 1, and is connected to the two base station devices in the dual communication mode. Communicate with. On the other hand, the mobile station apparatus 3 adopts a time division multiplexing method in the uplink UL, and is alternately connected to the macro cell base station apparatus 1 or the small cell base station apparatus 2 through a single link (hereinafter also referred to as a single link). Then, communication is performed with one of the macrocell base station apparatus 1 or the small cell base station apparatus 2 in a single communication mode (hereinafter also referred to as a single communication mode).

FIG. 3 is a schematic diagram illustrating an example of a subframe configuration in the uplink multiple communication mode according to the first embodiment of the present invention.
In the illustrated example, the table T1 includes subframe numbers, a macro cell HARQ process (DL) representing the downlink HARQ process of the macro cell base station device 1, and a small HARQ process representing the downlink HARQ process of the small cell base station device 2. HARQ process (DL) of the cell, HARQ ACK (UL) to the macro cell indicating uplink HARQ ACK from the mobile station device 3 to the macro cell base station device 1, and from the mobile station device 3 to the small cell base station device 2 Small cell HARQ ACK (UL) representing uplink HARQ ACK, and a row and a column having each item row of subframe numbers n, n + 1, n + 2,..., N + 15 corresponding to each item row Is a two-dimensional table format table.

  In the illustrated example, the uplink is in the dual communication mode, that is, the mobile station device 3 and the macrocell base station device 1, and the mobile station device 3 and the small cell base station device 2 are connected to perform communication. That is, the HARQ ACK corresponding to each subframe number indicated in the macro cell HARQ process (DL) or the small cell HARQ process (DL) is the HARQ ACK (UL) to the macro cell or the HARQ ACK (UL) to the small cell. This indicates that transmission is performed with each subframe number indicated in (). For example, the HARQ ACK corresponding to the HARQ process (DL) 0 of the macro cell of the subframe number n indicates that the HARQ ACK (UL) 0 is transmitted to the macro cell of the subframe number n + 4.

FIG. 4 is a schematic diagram illustrating another example of a subframe configuration in the uplink single communication mode according to the first embodiment of the present invention.
In the illustrated example, the table T2 includes subframe numbers, a macro cell HARQ process (DL) representing the downlink HARQ process of the macro cell base station device 1, and a small HARQ process representing the downlink HARQ process of the small cell base station device 2. HARQ process (DL) of the cell, HARQ ACK (UL) to the macro cell indicating uplink HARQ ACK from the mobile station device 3 to the macro cell base station device 1, and from the mobile station device 3 to the small cell base station device 2 Small cell HARQ ACK (UL) representing uplink HARQ ACK, and a row and a column having each item row of subframe numbers n, n + 1, n + 2,..., N + 15 corresponding to each item row Is a two-dimensional table format table.

  In the illustrated example, the uplink is in a single communication mode, that is, either the mobile station apparatus 3 and the macro cell base station apparatus 1 or the mobile station apparatus 3 and the small cell base station apparatus 2 are alternately connected to perform communication. ing. That is, the HARQ ACK corresponding to each subframe number indicated in the HARQ process (DL) of the macro cell is collectively transmitted with each subframe number indicated in the HARQ ACK (UL) to the macro cell. Yes. For example, HARQ ACK corresponding to HARQ process (DL) 0, 1, 2, 3 of the macro cell of subframe number n to n + 4 is transmitted by HARQ ACK (UL) 0123 to the macro cell of subframe number n + 4. Represents. Similarly, HARQ ACKs corresponding to HARQ processes (DL) 0, 1, 2, and 3 of the small cells of subframe numbers n to n + 4 are transmitted by HARQ ACK (UL) 0123 to the macro cell of subframe number n + 6. Represents that.

FIG. 5 is a schematic block diagram showing an example of the configuration of the macro cell base station apparatus 1 according to the first embodiment of the present invention.
The macrocell base station apparatus 1 includes a communication unit 101, an inquiry reception unit 102, a confirmation unit 103, a network communication unit 104, a response reception unit 105, a response transmission unit 106, a request reception unit 107, and a request transmission unit. 108, a response reception unit 109, a response transmission unit 110, and a switching execution unit 111.

The communication unit 101 communicates with the mobile station device 3 via the network N1. The communication unit 101 performs communication processing such as data encoding / decoding, modulation / demodulation, AD (Analog to Digital) / DA (Digital to Analog) conversion, frequency conversion, and transmission / reception of data signals by radio waves.
The inquiry receiving unit 102 receives an inquiry from the mobile station apparatus 3 via the communication unit 101 as to whether or not the uplink communication mode can be switched from the single communication mode to the dual communication mode and from the dual communication mode to the single communication mode. To do. The inquiry receiving unit 102 outputs the received inquiry to the confirmation unit 103.

  When the inquiry is input from the inquiry receiving unit 102, the confirmation unit 103 determines whether the communication mode of the own apparatus can be switched. When the communication mode of the own device can be switched, the confirmation unit 103 transmits the inquiry input from the inquiry reception unit 102 to the small cell base station device 2 via the network communication unit 104, and the small cell base station It is confirmed whether or not the apparatus 2 can switch from the single communication mode to the dual communication mode, or from the dual communication mode to the single communication mode. On the other hand, when it is impossible to switch the communication mode of the own device, the confirmation unit 103 generates a notification indicating that the communication mode of the own device cannot be switched as a switchability answer. Then, the generated switchability response is transmitted to the mobile station device 3 via the communication unit 101 and the network N1.

The network communication unit 104 is connected to the network N1, and communicates with the small cell base station apparatus 2 via the network N1.
As a response to the inquiry by the confirmation unit 103, the answer receiving unit 105 sends the small cell base station device 2 from the single communication mode to the dual communication mode and from the dual communication mode to the single communication mode via the network N1 and the network communication unit 104. An answer indicating whether switching is possible is received. The answer receiving unit 105 outputs the received answer to the answer sending unit 106.

The reply transmission unit 106 transmits the reply input from the reply reception unit 105 to the mobile station device 3 via the communication unit 101 and the network N1.
The request receiving unit 107 receives a communication mode switching request from the mobile station device 3 via the network N1 and the communication unit 101 as a response to the response transmitted by the response transmitting unit 106. The request reception unit 107 outputs the received communication mode switching request to the request transmission unit 108.
The request transmission unit 108 transmits the communication mode switching request input from the request reception unit 107 to the small cell base station apparatus 2 via the network communication unit 104 and the network N1.

As a response to the communication mode switching request transmitted by the request transmitting unit 108, the response receiving unit 109 executes a communication mode switching by the small cell base station device 2 and indicates that the communication mode switching has been completed. Is received via the network N1 and the network communication unit 104. The response reception unit 109 outputs the received completion response to the switching execution unit 111.
When the completion response is input from the response reception unit 109, the switching execution unit 111 performs switching of the communication mode of the own device. Then, the switching execution unit 111 outputs to the response transmission unit 110 a completion response indicating that the communication mode of the own device has been switched and that the communication mode of the small base station device 2 has been switched.
The response transmission unit 110 transmits the completion response input from the switching execution unit 111 to the mobile station device 3 via the communication unit 101 and the network N1.

FIG. 6 is a schematic block diagram showing an example of the configuration of the small cell base station apparatus 2 according to the first embodiment of the present invention.
The small cell base station apparatus 2 includes a network communication unit 201, an inquiry reception unit 202, an answer transmission unit 203, a request reception unit 204, a switching execution unit 205, and a notification unit 206. The small cell base station device 2 includes a communication unit that communicates with the mobile station device 3 in addition, but illustration and description thereof are omitted.
The network communication unit 201 is connected to the network N1 and communicates with the macrocell base station apparatus 1 via the network N1.
The inquiry reception unit 202 inquires from the macro cell base station apparatus 1 via the network communication unit 201 whether the uplink communication mode can be switched from the single communication mode to the dual communication mode or from the dual communication mode to the single communication mode. Receive. The inquiry reception unit 202 outputs the received inquiry to the response transmission unit 203.

  When the inquiry is input from the inquiry reception unit 202, the answer transmission unit 203 determines whether or not switching from the single communication mode to the dual communication mode and from the dual communication mode to the single communication mode is possible. In this case, a changeable notification is generated, and when switching is impossible, a changeable notification is generated. The response transmission unit 203 transmits the generated changeable notification or non-changeable notification as a response to the inquiry received by the inquiry reception unit 202 to the macrocell base station apparatus 1 via the network communication unit 201 and the network N1.

The request reception unit 204 receives a communication mode switching request from the macrocell base station apparatus 1 via the network N1 and the network communication unit 201. The request reception unit 204 outputs the received switching request to the switching execution unit 205.
When a communication mode switching request is input from the request receiving unit 204, the switching execution unit 205 refers to the type of communication mode included in the switching request and executes the communication mode switching. When executing the switching of the communication mode, the switching execution unit 205 outputs a switching completion notification to the notification unit 206.
When the switching completion notification is input from the switching execution unit 205, the notification unit 206 generates a completion response indicating that the switching of the communication mode is completed. The notification unit 206 transmits the generated completion response to the macro cell base station apparatus 1 via the network communication unit 201 and the network N1.

FIG. 7 is a schematic block diagram illustrating an example of the configuration of the mobile station apparatus 3 according to the first embodiment of the present invention.
The mobile station apparatus 3 includes receiving antennas 301-1,..., 301-N, a first receiving unit 302-1,..., An Nth receiving unit 302-N, a control unit 303, and a first transmission. , 308-N, and transmitting antennas 309-1,..., 309-N. The control unit 303 includes a HARQ processing unit 3031. The HARQ processing unit 3031 includes a single HARQ feedback processing unit 304, a multiple HARQ feedback processing unit 305, a retransmission frequency determination unit 306, a switching trigger determination unit 307, a user setting storage unit 310, and a battery state detection unit 311. The battery state determination unit 312 and the threshold storage unit 313 are included. The single HARQ feedback processing unit 304 includes a switching inquiry unit 3041, a reception unit 3042, and a request unit 3043. The multiple HARQ feedback processing unit 305 includes a switching inquiry unit 3051, a reception unit 3052, and a request unit 3053.
In the following description, the receiving antennas 301-1,..., 301-N are referred to as the receiving antenna 301, and the first receiving unit 302-1,. The first transmission unit 308-1,..., The Nth transmission unit 308-N are referred to as a transmission unit 308, and the transmission antennas 309-1,.

The threshold value storage unit 313 stores various threshold values such as a threshold value related to a battery and a threshold value related to retransmission frequency, which will be described later.
The user setting storage unit 310 stores user settings as to whether to prioritize the data rate set by the user or whether to prioritize the remaining battery level.
The receiving unit 302 communicates with the macro cell base station apparatus 1 and the small cell base station apparatus 2 via the network N1 and the receiving antenna 301. The receiving unit 302 performs communication processing such as data encoding / decoding, modulation / demodulation, AD / DA conversion, frequency conversion, and transmission / reception of data signals by radio waves. Then, the reception unit 302 outputs the signal subjected to communication processing to the control unit 303.

The single HARQ feedback processing unit 304 performs various processes such as error detection, retransmission processing, and HARQ feedback in the single communication mode. Further, the single HARQ feedback processing unit 304 executes processing related to switching of communication modes. Processing related to switching of the communication mode will be described in detail below.
When switching from the communication in the dual communication mode to the communication in the single communication mode, the switching inquiry unit 3041 sends an inquiry about whether switching from the dual communication mode to the single communication mode is possible, the transmission unit 308, the transmission antenna 309, and It transmits to the macrocell base station apparatus 1 via the network N1.

The receiving unit 3042 receives, as an answer to the inquiry transmitted by the switching inquiry unit 3041, an answer indicating whether or not switching from the dual communication mode to the single communication mode is possible via the network N1, the receiving antenna 301, and the receiving unit 302.
When the request unit 3043 indicates that the communication mode switching response received by the receiving unit 3042 can be switched, the request unit 3043 transmits a communication mode switching request instructing switching to the single communication mode to the transmission unit 308 and the transmission antenna. 309 and the macro cell base station apparatus 1 via the network N1. The request unit 3043 receives a communication mode switching completion response via the network N1, the receiving antenna 301, and the receiving unit 302 as a response to the transmitted communication mode switching request.

The multiple HARQ feedback processing unit 305 performs various processes such as error detection, retransmission processing, and HARQ feedback in the dual communication mode. In addition, the multiple HARQ feedback processing unit 305 executes processing related to switching of communication modes. Processing related to switching of the communication mode will be described in detail below.
When switching from the communication in the single communication mode to the communication in the dual communication mode, the switching inquiry unit 3051 sends an inquiry as to whether switching from the single communication mode to the dual communication mode is possible, the transmission unit 308, the transmission antenna 309, and It transmits to the macrocell base station apparatus 1 via the network N1.

The receiving unit 3052 receives, as an answer to the inquiry transmitted by the switching inquiry unit 3051, an answer indicating whether switching from the single communication mode to the dual communication mode is possible via the network N 1, the receiving antenna 301, and the receiving unit 302.
The request unit 3053 indicates that the communication mode switching response received by the receiving unit 3042 is switchable, and transmits a communication mode switching request for instructing switching to the dual communication mode to the transmission unit 308 and the transmission antenna. 309 and the macro cell base station apparatus 1 via the network N1. The request unit 3043 receives a communication mode switching completion response via the network N1, the receiving antenna 301, and the receiving unit 302 as a response to the transmitted communication mode switching request.

  The retransmission frequency determination unit 306 measures the retransmission processing frequency in each communication mode of the single communication mode and the dual communication mode. In addition, the retransmission frequency determination unit 306 reads a threshold related to the retransmission frequency from the threshold storage unit 313. When performing communication in the single communication mode, the retransmission frequency determination unit 306 determines whether or not the measured retransmission frequency is equal to or higher than a threshold value. When the retransmission frequency is equal to or higher than the threshold value, it is determined to switch to the dual communication mode. To do. In addition, when performing communication in the dual communication mode, the retransmission frequency determination unit 306 determines whether or not the measured retransmission frequency is equal to or less than a threshold value, and switches to the single communication mode when the retransmission frequency is equal to or less than the threshold value. Is determined.

The battery state detection unit 311 detects the amount of battery power provided in the mobile station device 3.
The battery state determination unit 312 compares the detected amount of battery power and a threshold value related to the battery to calculate the remaining battery level. For example, the threshold value regarding the battery stored in the threshold value storage unit 313 is a stepwise threshold value, for example, a threshold value of 10 steps. The battery state determination unit 312 determines that the remaining battery power is higher than the highest threshold value. If the amount is 100% and is equal to or greater than the first threshold and less than the highest threshold, the remaining battery level is determined to be 90%.
The switching trigger determination unit 307 is configured to switch from the dual communication mode to the single communication mode and from the single communication mode to the dual based on the determination result of the battery state determination unit 312 and the retransmission frequency determination unit 306 and the user setting stored in the user setting storage unit 310. Whether or not to switch the communication mode, such as the communication mode, is determined, and the single HARQ feedback processing unit 304 or the multiple HARQ feedback processing unit 305 is caused to execute processing related to switching of the communication mode according to the determination result.

FIG. 8 is a flowchart showing an example of processing at the start of data communication of the mobile station device 3 according to the first embodiment of the present invention.
In step ST101, the switching trigger determination unit 307 determines whether or not the user setting stored in the user setting storage unit 310 is stored. When the user setting is stored, the process proceeds to step ST102. On the other hand, when the user setting is not stored, the process proceeds to step ST103.
In step ST102, when the user setting stored in the user setting storage unit 310 is a user setting giving priority to the data rate, the switching trigger determination unit 307 selects the uplink dual communication mode (dual UL selection) and starts communication. To do. On the other hand, if the user setting is not a user setting giving priority to the data rate, the uplink single communication mode is selected (single UL selection), and communication is started.

In step ST103, the switching trigger determination unit 307 determines whether or not the battery state is good, that is, whether or not the remaining battery level is equal to or greater than a predetermined threshold (for example, 50% or greater). When the remaining battery level is equal to or higher than a predetermined threshold, the uplink dual communication mode is selected (dual UL selection), and communication is started. On the other hand, if the remaining battery level is less than the predetermined threshold, the process proceeds to step ST104.
In step ST104, the switching trigger determination unit 307 determines whether or not the transmission power is small, that is, whether or not the transmission power when the mobile station apparatus 3 transmits a signal is equal to or less than a predetermined value. When the transmission power is equal to or lower than a predetermined value, the uplink dual communication mode is selected (dual UL selection) and communication is performed. On the other hand, when the transmission power is not less than or equal to the predetermined value, the uplink single communication mode is selected (single UL selection), and communication is started.

FIG. 9 is a flowchart showing an example of processing during data communication of the mobile station apparatus 3 according to the first embodiment of the present invention.
In step ST201, the switching trigger determination unit 307 determines whether or not the HARQ retransmission frequency has changed from the previous HARQ retransmission frequency. When the HARQ retransmission frequency changes from the HARQ retransmission frequency immediately before, the process proceeds to step ST202. On the other hand, if the HARQ retransmission frequency has not changed from the previous HARQ retransmission frequency, that is, if the previous HARQ retransmission frequency and the HARQ retransmission frequency are substantially the same, step ST201 is repeated.

In step ST202, the switching trigger determination unit 307 determines whether or not the user setting storage unit 310 stores user settings. If user settings are stored, the process returns to step ST201. On the other hand, when the user setting is not stored, the process proceeds to step ST203.
In step ST203, the switching trigger determination unit 307 determines whether or not the HARQ retransmission frequency is lower than the previous HARQ retransmission frequency. If the HARQ retransmission frequency is lower than the HARQ retransmission frequency immediately before, the process proceeds to step ST204. On the other hand, if the HARQ retransmission frequency is not lower than the previous HARQ retransmission frequency, the process proceeds to step ST206.

In step ST204, the switching trigger determination unit 307 determines whether or not the current communication mode is a dual communication mode (during dual UL). When the current communication mode is the dual communication mode, the process returns to step ST201. On the other hand, when the current communication mode is not the dual communication mode, switching to the uplink single communication mode (switching to the single UL) is determined, and the process returns to step ST201.
In step ST205, the switching trigger determination unit 307 determines whether or not the current communication mode is the single communication mode. When the current communication mode is the single communication mode, the process returns to step ST201. On the other hand, when the current communication mode is not the single communication mode, switching to the uplink dual communication mode (switching to dual UL) is determined, and the process returns to step ST201.

FIG. 10 is a sequence diagram showing an example of the uplink switching process according to the first embodiment of the present invention.
In Step ST301, the mobile station apparatus 3 transmits to the macro cell base station apparatus 1 a switchability inquiry as to whether or not the communication mode can be switched.
In Step ST302, the macro cell base station apparatus 1 transmits to the small cell base station apparatus 2 an inquiry about whether or not the communication mode received from the mobile station apparatus 3 can be switched.
In step ST303, the small cell base station apparatus 2 determines whether or not the communication mode can be switched, and a macro cell base station apparatus sends a switchability response indicating whether or not the communication mode can be switched according to the determination result. 1 to send.

In Step ST304, the macro cell base station apparatus 1 transmits to the mobile station apparatus 3 a switchability response indicating whether or not the communication mode received from the small cell base station apparatus 2 can be switched.
In Step ST305, the mobile station apparatus 3 transmits to the macrocell base station apparatus 1 a switching request for instructing switching of the communication mode based on a switchability answer indicating whether the communication mode can be switched.
In Step ST306, the macro cell base station apparatus 1 transmits to the small cell base station apparatus 2 a switching request instructing switching of the communication mode received from the mobile station apparatus 3.

In Step ST307, the small cell base station device 2 executes switching of the communication mode based on the switching request received from the macro cell base station device 1, and sends a switching completion response indicating that the switching is completed to the macro cell base station device. 1 to send.
In Step ST308, the macro cell base station apparatus 1 transmits the switching completion response received from the small cell base station apparatus 2 to the mobile station apparatus 3, and completes the communication mode switching process.

FIG. 11 is a flowchart showing an example of processing in the mobile station apparatus 3 according to the first embodiment of the present invention.
In step ST401, the switching inquiry units 3041 and 3051 transmit to the macrocell base station apparatus 1 an inquiry about whether or not the communication mode can be switched.
In Step ST402, the reception units 3042 and 3052 receive a switchability response from the macro cell base station apparatus 1 as a response to the switchability query.
In step ST403, the switching trigger determination unit 307 determines whether or not the communication mode can be switched based on the switching availability answer. If the communication mode can be switched, the process proceeds to step ST404. On the other hand, if the communication mode cannot be switched, the communication mode switching process ends.

In step ST404, request sections 3043 and 3053 transmit a switching request for instructing switching of the communication mode to macro cell base station apparatus 1.
In Step ST405, the request units 3043 and 3053 receive from the macro cell base station apparatus 1 a switching completion response indicating that the communication mode switching process of the small cell base station apparatus 2 has been completed.
In step ST406, the request units 3043 and 3053 perform switching of the communication mode of the own device based on the received switching completion response, and terminate the switching process.

FIG. 12 is a flowchart showing an example of processing in the macro cell base station apparatus 1 according to the first embodiment of the present invention.
In step ST501, the inquiry receiving unit 102 receives from the mobile station apparatus 3 an inquiry about whether or not the communication mode can be switched.
In step ST502, the confirmation unit 103 determines whether the communication mode of the own device can be switched. If the communication mode of the own device can be switched, the process proceeds to step ST504. On the other hand, if the communication mode of the own apparatus cannot be switched, the process proceeds to step ST503.
In step ST503, the confirmation unit 103 generates a communication mode switching impossibility notification indicating that the communication mode of the own device cannot be switched as a switchable / unsuccessful reply, and transmits the generated switchable / unsuccessful reply to the mobile station apparatus 3. To do.
In Step ST504, the confirmation unit 103 transmits to the small cell base station device 2 the inquiry about whether or not to switch the communication mode received from the mobile station device 3.

In step ST505, the answer receiving unit 105 receives a switchability answer from the small cell base station apparatus 2.
In step ST506, the reply transmission unit 106 determines whether or not the communication mode of the small cell base station apparatus 2 can be switched based on the switchability answer input from the reply reception unit 105. When switching of the communication mode of the small cell base station apparatus 2 is possible, it progresses to step ST507. On the other hand, when switching of the communication mode of the small cell base station device 2 is impossible, the process returns to step ST503, and the response transmission unit 106 generates a switchability response indicating that switching of the communication mode is impossible, The generated switchability response is transmitted to the mobile station device 3.

In step ST507, the response transmission unit 106 generates a switchability response indicating that the communication mode can be switched, and transmits the generated switchability response to the mobile station apparatus 3.
In Step ST508, the request receiving unit 107 receives a switching request for instructing switching of the communication mode from the mobile station apparatus 3.
In Step ST509, the request transmission unit 108 transmits to the small cell base station apparatus 2 a switching request instructing switching of the communication mode received from the mobile station apparatus 3.

In Step ST510, the response reception unit 109 receives from the small cell base station device 2 a switching completion response indicating that the switching of the communication mode is completed in the small cell base station device 2.
In step ST511, the switching execution unit 111 switches the communication mode of the own device to the communication mode instructed by the switching request. The switching execution unit 111 generates a switching completion response indicating that the switching of the communication mode between the small cell base station device 2 and the own device has been completed.
In step ST512, the response transmission unit 110 transmits a switching completion response indicating that the communication mode of the own device and the small cell base station device 2 has been completed to the mobile station device 3, and ends the communication mode switching processing. To do.

FIG. 13 is a flowchart showing an example of processing in the small cell base station apparatus 2 according to the first embodiment of the present invention.
In step ST601, the inquiry reception unit 202 receives, from the macro cell base station apparatus 1, an inquiry about whether or not the communication mode can be switched.
In step ST602, the answer transmission unit 203 determines whether or not the communication mode of the own apparatus can be switched. If the communication mode of the own apparatus can be switched, the process proceeds to step ST604. On the other hand, if the communication mode of the own device cannot be switched, the process proceeds to step ST603.
In step ST603, the response transmission unit 203 generates a communication mode switching impossible notification indicating that the communication mode of the own device cannot be switched as a switchable response, and the generated switchability response is generated by the macro cell base station device 1. Send to.

In step ST604, the response transmission unit 203 generates a switchability response indicating that the communication mode can be switched, and transmits the generated switchability response to the macro cell base station apparatus 1.
In Step ST605, the request reception unit 204 receives a switching request for instructing switching of the communication mode from the macro cell base station apparatus 1.
In step ST606, the switching execution unit 205 switches the communication mode of the own device to the communication mode instructed by the switching request.
In step ST607, the notification unit 206 generates a switching completion response indicating that switching of the communication mode of the own device is completed, transmits the generated switching completion response to the macro cell base station device 1, and performs communication mode switching processing. Exit.

  Thus, according to this embodiment, in the mobile station apparatus 3 that communicates with the first base station apparatus (macrocell base station apparatus 1) and the second base station apparatus (small cell base station apparatus 2), The station apparatus 3 transmits an inquiry as to whether or not switching from the first communication mode to the second communication mode is possible to the first base station apparatus (macrocell base station apparatus 1). And receiving units 3042 and 3052 for receiving a switchability response as a response to the inquiry from the first base station device (macrocell base station device 1), and based on the switchability response received by the receiving units 3042 and 3052 Request units 3043 and 3053 for transmitting a request for switching from the first communication mode to the second communication mode to the first base station apparatus (macrocell base station apparatus 1). , Comprising a.

  Thereby, the mobile station apparatus 3 can appropriately switch between a plurality of communication modes, for example, the dual communication mode and the single communication mode, according to the battery state of the mobile station apparatus, the distance to the cell, the HARQ retransmission frequency, and the like. it can. In addition, the mobile station device 3 can appropriately switch between a single communication mode capable of reducing transmission power compared to the dual communication mode and a dual communication mode capable of obtaining a stable data rate compared to the single communication mode. Can be reduced, and power consumption can be reduced, so that convenience for the user can be improved.

  In addition, you may make it implement | achieve a part or all of the macrocell base station apparatus 1, the small cell base station apparatus 2, and the mobile station apparatus 3 in each embodiment mentioned above with a computer. In that case, the program for realizing the control function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by a computer system and executed. Here, the “computer system” is a computer system built in the macro cell base station device 1, the small cell base station device 2 and the mobile station device 3, and includes hardware such as an OS and peripheral devices.

The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line, In such a case, a volatile memory inside a computer system serving as a server or a client may be included and a program that holds a program for a certain period of time.
The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  Moreover, you may implement | achieve part or all of the macrocell base station apparatus 1, the small cell base station apparatus 2, and the mobile station apparatus 3 in each embodiment mentioned above as integrated circuits, such as LSI (Large Scale Integration). Each functional block of the macro cell base station apparatus 1, the small cell base station apparatus 2 and the mobile station apparatus 3 may be individually processed as a processor, or a part or all of them may be integrated into a processor. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor. Further, in the case where an integrated circuit technology that replaces LSI appears due to progress in semiconductor technology, an integrated circuit based on the technology may be used.

  As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to that described above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to

  (Supplementary note 1) In the mobile station apparatus that communicates with the first base station apparatus and the second base station apparatus, an inquiry is made as to whether or not switching from the first communication mode to the second communication mode is possible. A switching inquiry unit to be transmitted to one base station device, a receiving unit for receiving a switchability response as a response to the inquiry from the first base station device, and the switchability response received by the receiving unit A mobile station apparatus comprising: a request unit that transmits a request for switching from the first communication mode to the second communication mode to the first base station apparatus.

  (Supplementary Note 2) Whether the switching inquiry unit can switch from the first communication mode to the second communication mode based on the amount of power of the mobile station device or the frequency of data retransmission by the mobile station device. The mobile station apparatus according to claim 1, wherein the inquiry is transmitted to the first base station apparatus.

  (Supplementary Note 3) An inquiry receiving unit that receives an inquiry as to whether or not switching from the first communication mode to the second communication mode is possible, and a second base based on the inquiry received by the inquiry receiving unit A confirmation unit that makes an inquiry to the station device as to whether or not switching from the first communication mode to the second communication mode is possible, and a switchability response from the second base station device as a response to the inquiry by the confirmation unit A base station apparatus comprising: an answer receiving unit for receiving; and an answer transmitting unit for transmitting a switchability answer to the mobile station apparatus based on the switchability answer received by the answer receiver.

  (Supplementary Note 4) A request receiving unit that receives a request for switching from the first communication mode to the second communication mode, and the second communication mode is changed from the first communication mode to the second based on the request received by the request receiving unit. A switching execution unit that switches to the communication mode; and a notification unit that notifies the mobile station device of the completion of the switching from the first communication mode to the second communication mode by the switching execution unit. A base station apparatus characterized by the above.

  (Supplementary Note 5) In a communication system including a first base station apparatus, a second base station apparatus, and a mobile station apparatus that communicates with the first base station apparatus and the second base station apparatus, the mobile station An apparatus transmits a query to the first base station apparatus as to whether or not switching from the first communication mode to the second communication mode is possible, and the query from the first base station apparatus. A switching unit that receives a switchability response as a response to the switch, and a switch from the first communication mode to the second communication mode for the second base station device based on the switchability response received by the receiving unit The first base station apparatus based on an inquiry about whether or not switching from the first communication mode to the second communication mode received from the mobile station apparatus is possible. Z A confirmation unit that inquires to the second base station apparatus whether or not switching from the first communication mode to the second communication mode is possible, and a second base station as a response to the inquiry by the confirmation unit A reception unit that receives a switchability response from the device; and a response transmission unit that transmits a switchability response to the mobile station device based on the switchability response received by the reception unit, the second base The station device, based on the request received from the mobile station device, switches from the first communication mode to the second communication mode, and the switching execution unit from the first communication mode by the switching execution unit. A communication unit comprising: a notification unit that notifies the mobile station device of the completion of switching to the second communication mode.

  (Supplementary Note 6) A communication method in a communication system including a first base station device, a second base station device, and a mobile station device that communicates with the first base station device and the second base station device. A switching inquiry process in which the mobile station apparatus transmits an inquiry to the first base station apparatus as to whether or not the switching from the first communication mode to the second communication mode is possible; and the first base station A reception process for receiving a switchability response as an answer to the inquiry from the station apparatus, and a second communication station that performs the second communication from the first communication mode to the second base station apparatus based on the switchability response received by the reception process. A request process for requesting switching to a communication mode, wherein the first base station device can switch from the first communication mode received from the mobile station device to the second communication mode. A confirmation process for inquiring the second base station apparatus whether or not switching from the first communication mode to the second communication mode is possible based on the inquiry about whether or not, and a response to the inquiry by the confirmation process A reception process for receiving a switchability response from the second base station apparatus, and a response transmission process for transmitting a switchability response to the mobile station apparatus based on the switchability response received in the reception process. And a switching execution process in which the second base station apparatus performs switching from the first communication mode to the second communication mode based on the request received from the mobile station apparatus, and the switching execution process. And a notification process for notifying the mobile station device of completion when the switching from the first communication mode to the second communication mode is completed. Communication method for.

DESCRIPTION OF SYMBOLS S ... Communication system, 1 ... Macrocell base station apparatus, 101 ... Communication part, 102 ... Inquiry reception part, 103 ... Confirmation part, 104 ... Network communication part, 105 ... Reply receiving unit 106 ... Reply sending unit 107 ... Request receiving unit 108 ... Request sending unit 109 ... Response receiving unit 110 ... Response sending unit 111 ... Switching execution , 2 ... small cell base station device, 201 ... network communication unit, 202 ... inquiry reception unit, 203 ... answer transmission unit, 204 ... request reception unit, 205 ... switching execution , 206... Notifying unit, 3... Mobile station apparatus, 301, 301-1, 301-2, 301 -N... Receiving antenna, 302, 302-1, 302-2, 302 -N ..Receiving unit, 303 Control unit, 304 ... single HARQ feedback processing unit, 3041, 3051 ... switching inquiry unit, 3042, 3052 ... receiving unit, 3043, 3053 ... request unit, 305 ... multiple HARQ feedback processing , 306... Retransmission frequency determination unit, 307... Switching trigger determination unit, 308, 308-1, 308-2, 308-N... Transmission unit, 309, 309-1, 309-2, 309 -N ... transmitting antenna, 310 ... user setting storage unit, 311 ... battery state detection unit, 312 ... battery state determination unit, 313 ... threshold storage unit, CS, CM ... cell

Claims (5)

In the mobile station apparatus that communicates with the first base station apparatus and the second base station apparatus,
From the first communication mode in which communication is performed simultaneously with the first base station apparatus and the second base station apparatus, communication is performed by alternately connecting to the first base station apparatus and the second base station apparatus . A switching inquiry unit that transmits an inquiry as to whether or not switching to the communication mode of 2 is possible to the first base station device;
A receiving unit that receives a switchability response as a response to the inquiry from the first base station device;
A request unit that transmits the switching request from the based on the received the switching permission reply by receiving unit first communication mode to the second communication mode to the first base station apparatus,
A mobile station apparatus comprising: The switching inquiry unit, based on the retransmission processing frequency of the data in the amount of power or the mobile station device of the mobile station device, from the first communication mode whether or not it is possible to switch to the second communication mode The mobile station apparatus according to claim 1, wherein the inquiry is transmitted to the first base station apparatus. A first base station device,
From the first communication mode in which the mobile station device communicates with the first base station device and the second base station device at the same time, the mobile station device switches from the first base station device to the second base station device. An inquiry receiving unit for receiving an inquiry as to whether or not it is possible to switch to the second communication mode for alternately connecting and communicating ;
And the inquiry receiving section based on the received the inquiry, the second confirmation unit switching performing possible whether inquiry to the base station apparatus from the first communication mode to the second communication mode,
A response reception unit that receives a switchability response from the second base station device as a response to the inquiry by the confirmation unit;
On the basis of the answer switch whether answers have been received by the receiving unit, and the reply transmission section that transmits switching whether answers to the mobile station apparatus,
A base station apparatus comprising: A second base station device,
From the first communication mode in which the mobile station apparatus communicates simultaneously with the first base station apparatus and the second base station apparatus, the mobile station apparatus switches from the first base station apparatus to the second base station apparatus. A request receiving unit for receiving a request for switching to the second communication mode for alternately connecting and communicating ;
Wherein based on said request receiving unit receives the request, and switching execution section for switching from the first communication mode to the second communication mode,
When switching from the switching execution unit the first communication mode according to the second communication mode is completed, a notification unit that notifies of the said completion to said first base station apparatus,
A base station apparatus comprising: In a communication system comprising a first base station device, a second base station device, and a mobile station device that communicates with the first base station device and the second base station device,
The mobile station device
From the first communication mode in which communication is performed simultaneously with the first base station apparatus and the second base station apparatus, communication is performed by alternately connecting to the first base station apparatus and the second base station apparatus . A switching inquiry unit that transmits an inquiry as to whether or not switching to the communication mode of 2 is possible to the first base station device;
A receiving unit for receiving a switchability response as a response to the inquiry from the first base station device;
A request unit that transmits the switching request from the based on the received the switching permission reply by receiving unit first communication mode to the second communication mode to the first base station apparatus,
With
The first base station apparatus
On the basis of the first communication mode received from the mobile station apparatus to the inquiry whether or not it is possible to switch to the second communication mode, said from the first communication mode to the second base station apparatus A confirmation unit for inquiring whether or not switching to the second communication mode is possible;
A receiver for receiving a switching permission response from the second base station apparatus as a response to the inquiry by the confirmation unit,
Based on the switchability response received by the reception unit, a response transmission unit that transmits a switchability response to the mobile station device;
A request transmitter that transmits the switching request received from the mobile station device to the second base station device;
With
The second base station apparatus is
Based on said switching request received from the first base station apparatus, and a switching execution unit for executing the switching from the first communication mode to the second communication mode,
When switching from the switching execution unit the first communication mode according to the second communication mode is completed, a notification unit that notifies of the said completion to said first base station apparatus,
A communication system comprising:

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