JP2011091748A - Power supply control method of base station and base station apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power supply control method of a base station that reduces the number of base station apparatuses that uselessly operate and correspond to a small cell in the radio communication system, which includes small cells called micro-cells or pico-cells arranged in an overlapped manner in the cell. <P>SOLUTION: A second base station apparatus to be used for communication of radio signals for second cells arranged in the first cell in an overlapped manner stops at least part of reception or supply of the electrical power in accordance with disappearance of traffic in the second cell. A first base station apparatus corresponding to a first cell having accepted a connection request in accordance with the connection request from mobile terminals existing in the first cell identifies the second base station apparatus that can handle communications with the mobile terminals. The first base station apparatus selectively restarts reception and supply of electrical power of the identified second base station apparatus. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a base station power supply control method and a base station apparatus for controlling power supply of a base station apparatus in a wireless communication system in which small cells called microcells or picocells are overlapped in a cell.

  Telecommunications carriers that provide cellular network systems and wireless local network systems for mobile phone services are taking various measures to increase resources in high traffic areas. One of them is a method in which another small output base station device is installed within a range where the radio signal of the base station device reaches, and the small cells are overlapped in the cell corresponding to the base station device. is there. Such a low-power base station apparatus is called a micro base station apparatus or a pico base station apparatus with respect to a macro base station apparatus corresponding to a general cell.

  A small cell corresponding to such a micro (pico) base station device does not always have a mobile terminal device in the service area because of its small area. The power consumed by the micro (pico) base station apparatus when the mobile terminal apparatus is not located is wasted.

To achieve power saving of the wireless communication system, the ^{3GPP (3 rd Generation Partnership Project)} , Energy Saving function of SON (Self Organization Networks) have been studied. The function under investigation is based on the traffic estimated for each time zone by a statistical method, and the base station to be operated is determined in advance from among the overlapping micro base station apparatuses. It uses a method for power generation.

  There has also been proposed a technique for controlling the operating state of a micro base station arranged in a cell in accordance with an increase or decrease in the traffic volume in the cell (see Patent Documents 1 and 2).

JP 2000-261844 A Japanese Unexamined Patent Publication No. 7-038937

  By the way, in the technique disclosed in the above-mentioned prior art document and the power saving technique under examination by 3GPP, the operating state of the micro base station corresponding to the overlappingly arranged micro cell is a measured value of the traffic of the entire cell. And is controlled based on estimated values.

  However, when the area of the micro cell is very small compared to the cell, even if the traffic of the entire cell increases, the mobile terminal device is in the coverage area of the micro base station that has been shifted to the operating state. It may not be. In addition, the traffic estimated for each time zone cannot quickly cope with fluctuations due to factors that were not assumed when calculating the estimated value, such as holding an event. That is, in any of the techniques, the micro base station apparatus may be brought into an operating state uselessly even though there is no mobile terminal apparatus located in the micro cell.

  The method and apparatus disclosed in the present disclosure is a base station power supply control method capable of reducing small cell base station apparatuses that are unnecessarily operated among small cell base station apparatuses that are redundantly arranged in a cell. And it aims at providing a base station apparatus.

  The above-described object can be achieved by the base station power supply control method disclosed below.

  According to one aspect of the present invention, the base station power supply control method includes: a second base station device that performs radio signal communication processing for a second cell that is redundantly arranged in the first cell; A procedure for stopping at least part of power reception in response to loss of traffic in the second cell, and the connection request received in response to a connection request from a mobile terminal device located in the first cell. A procedure in which a first base station apparatus corresponding to one cell specifies a second base station apparatus capable of processing communication of the mobile terminal apparatus; and the first base station apparatus And a procedure for selectively resuming the power reception of the base station apparatus.

  The above-described object can be achieved by a base station apparatus disclosed below.

  A base station apparatus according to one aspect is a base station apparatus that performs a radio signal communication process on a second cell that is redundantly arranged in a first cell, and is located in the second cell When a continuous radio signal communication with the mobile terminal device stops, a stop control unit that stops power reception of at least a part of the base station device, and a radio signal communication process for the first cell And a resumption control unit that resumes power reception of the base station apparatus in response to a resumption instruction input from a first base station apparatus that is different from the base station apparatus that performs the operation.

  The above-described object can be achieved by a base station apparatus disclosed below.

  A base station apparatus according to another aspect is a base station apparatus that performs communication processing of radio signals for a second cell that is redundantly arranged in the first cell, and is located in the second cell A stop control unit for stopping power reception of at least a part of the base station device when continuous wireless signal communication with the mobile terminal device is stopped, and a movement within the second cell A restart control unit that restarts power reception of the base station device in response to random access from the terminal device.

  The above-described object can be achieved by a base station apparatus disclosed below.

  A base station apparatus according to another aspect is a base station apparatus that performs radio signal communication processing for a first cell in which at least one second cell is overlapped, and is present in the first cell. A second base capable of processing communication of the mobile terminal device from among the second base station devices provided corresponding to each of the second cells in response to a connection request from a mobile terminal device in service A cell specifying unit for specifying a station device; and a restart instruction unit for selectively sending a restart instruction for instructing resumption of power reception to the second base station device specified by the cell specifying unit.

  The above-described object can be achieved by a base station apparatus disclosed below.

  According to still another aspect, a base station apparatus is a base station apparatus that performs radio signal communication processing for a first cell in which at least one second cell is arranged in an overlapping manner, and the base station apparatus includes: In response to a connection request from a mobile terminal device located in the area, a second base station device capable of processing communication of the mobile terminal device from among second base station devices provided corresponding to the second cells. A cell specifying unit for specifying a base station device, and information required for random access destined for the second base station device specified by the cell specifying unit is transmitted to the requesting mobile terminal device, and the mobile terminal An access instruction unit that causes the apparatus to execute random access to the identified second base station apparatus.

  According to the method and apparatus of the present disclosure, it is possible to reduce the number of base station apparatuses that are unnecessarily activated among the base station apparatuses corresponding to the second cell that are redundantly arranged in the first cell. It is.

1 is a diagram illustrating an embodiment of a wireless communication system. It is a figure explaining operation | movement of a radio | wireless communications system. It is a figure which shows one Embodiment of a small cell base station apparatus. It is a figure which shows one Embodiment of a macro base station apparatus. It is a figure which shows the example of a small cell base station database. It is a sequence diagram explaining the electric power supply control operation of a small cell base station apparatus. It is a flowchart showing operation | movement of the accommodation cell determination part. It is a flowchart showing a restart determination operation. It is a figure which shows another embodiment of a macro base station. It is a figure which shows another embodiment of a small cell base station apparatus. It is a sequence diagram explaining the electric power supply control operation of a small cell base station apparatus. It is a figure explaining the example which delivers the restart instruction | indication to several small cell BS. It is a figure which shows an example of the radio | wireless communications system to which another embodiment of the electric power supply control method is applied. It is a figure which shows another embodiment of a macro base station apparatus. It is a figure which shows another embodiment of a small cell base station apparatus. It is a sequence diagram explaining the electric power supply control operation of a small cell base station apparatus.

  FIG. 1 shows an embodiment of a wireless communication system to which a power supply control method is applied. FIG. 2 is a diagram for explaining the operation of the wireless communication system.

  The small cell base station apparatus 110 shown in FIG. 1 is installed corresponding to each small cell (micro cell or pico cell) that is arranged in the cover area (macro cell) of the macro base station apparatus 120. . The macro cell that is the coverage area of the macro base station apparatus 120 corresponds to the first cell, and the macro base station apparatus corresponds to the first base station apparatus. Moreover, the small cell arrange | positioned overlappingly in the macro cell mentioned above corresponds to a 2nd cell, and a small cell base station apparatus is corresponded to a 2nd base station apparatus.

  The small cell base station apparatus 110 illustrated in FIG. 1 includes a signal processing unit 111, a transmission amplifier 112, and a reception amplifier 113 for performing wireless signal communication processing using the corresponding small cell as a communication processing range. In addition, the macro base station apparatus 120 includes a signal processing unit 121, a transmission amplifier 122, and a reception amplifier 123 for performing communication processing of radio signals using the macro cell as a communication processing range. Both the signal processing unit 111 of each small cell base station device 110 and the signal processing unit 121 of the macro base station device 120 described above are connected to a wired network via a backhaul line. In the FDD (Frequency Division Duplex) wireless communication system, each small cell base station device 110 arranged overlapping with the macro base station device 120 transmits radio signals having different uplink frequencies and downlink frequencies. We are using communication. Further, in a TDD (Time Division Duplex) wireless communication system, each small cell base station apparatus 110 arranged overlapping with the macro base station apparatus 120 allocates different time slots to the respective uplink and downlink. Are communicating.

  In addition, power is supplied from the power supply unit 114 to the signal processing unit 111, the transmission amplifier 112, and the reception amplifier 113 provided in the small cell base station apparatus 110 described above via the switch unit 115. Then, when the stop control unit 116 provided in the small cell base station apparatus 110 detects the loss of traffic in the small cell from the operation state of the signal processing unit 111, the stop control unit 116 passes through at least the transmission amplifier 112 via the switch unit 115. The power supply is stopped and a transition is made to a dormant state. For example, when the operation state of the signal processing unit 111 indicates that the state in which no radio signal processing is performed is continued for a predetermined time, the stop control unit 116 determines that the traffic in the corresponding small cell is It can be determined that it has disappeared.

  On the other hand, when receiving a restart instruction from the macro base station apparatus 120, the restart control unit 117 provided in the small cell base station apparatus 110 restarts the power supply that has been stopped via the switch unit 115.

  That is, the small cell base station device 110 enters a dormant state in response to the disappearance of traffic in the corresponding small cell, and thereafter, to each unit including the transmission amplifier 113 in response to a restart instruction from the macro base station device 120. Restart the power supply and resume operation.

  The signal processing unit 121 provided in the macro base station apparatus 120 illustrated in FIG. 1 performs signal processing on radio signals that the transmission amplifier 122 and the reception amplifier 123 perform communication processing with the mobile terminal apparatus staying in the macro cell. I do.

  The cell specifying unit 124 included in the macro base station device 120 is configured so that the requesting mobile terminal device is located on the basis of information obtained by the signal processing unit 121 when a connection request is received from the mobile terminal device. Identify small cells. Then, resumption instruction unit 125 sends a resumption instruction to instruct resumption of power supply to small cell base station apparatus 110 corresponding to the small cell identified by cell identification unit 124.

  That is, the macro base station apparatus 120 specifies the small cell base station apparatus 110 that covers the small cell where the mobile terminal apparatus that is the connection request source is located, and selectively resumes the power supply. Is sent out.

For example, in the example shown in FIG. 2 (a), when the mobile terminal apparatus MS moves into the cover area of the small cell base station apparatus (small cell BS ₁ ) in the dormant state, the macro base station apparatus ( A connection request is made to the macro BS). In this case, the macro base station apparatus 120 selectively sends a restart instruction to the small cell BS ₁ specified based on information exchanged with the mobile terminal apparatus MS in the connection request procedure (FIG. 2). (See (b)). In the example shown in FIG. 2B, the operation / pause state of other small cell base station devices (small cells BS ₂ and BS ₃ ) is maintained.

  Therefore, in the wireless communication system shown in FIG. 1, the power consumption of the small cell base station apparatus 110 is suppressed according to the loss of traffic in each small cell, and the small cell base of the small cell where the mobile terminal apparatus is located. The station apparatus 110 can be selectively restarted. The small cell base station apparatus that has resumed operation in this way is surely facing the mobile terminal apparatus that is the connection request source. That is, according to the above-described power supply control method, it is possible to reduce the small cell base station devices that are unnecessarily activated, and to shift only the small cell base station device that faces the mobile terminal device to the operational state.

Hereinafter, embodiments of a small cell base station apparatus and a macro base station apparatus applicable to the above-described wireless communication system will be described.
(Embodiment 1)
FIG. 3 shows an embodiment of a small cell base station apparatus. FIG. 4 shows an embodiment of the macro base station apparatus. 3 and 4 that are the same as those shown in FIG. 1 are denoted by the same reference numerals, and the description thereof is omitted.

  The small cell base station apparatus shown in FIG. 3 and the macro base station apparatus shown in FIG. 4 are examples of embodiments in which the base station power supply control method is applied to the FDD wireless communication system.

  The stop control unit 116 of the small cell base station apparatus 110 illustrated in FIG. 3 includes a BS signal reception amplifier 211 that receives a radio signal of the downlink frequency of the macro base station apparatus 120. Further, the signal measurement unit 212 provided in the stop control unit 116 measures the downlink signal strength of the macro base station apparatus 120 that has arrived at the BS signal reception amplifier 211. Then, the effective setting unit 213 determines that the small cell base station 110 completely overlaps the macro cell when the measured signal strength is greater than a predetermined threshold, and the function of the no-communication detection unit 214 Set to valid.

  The non-communication detection unit 214 measures the period during which the baseband signal processing by the signal processing unit 111 is suspended when it is set to be valid. When this suspension period exceeds a predetermined threshold, the no-communication detection unit 214 determines that the traffic in the corresponding small cell has disappeared, and notifies the switch unit 115 to that effect. In response to this notification, the switch unit 115 operates, for example, an internal switch so as to cut off a circuit that supplies power to the transmission amplifier 112, the reception amplifier 113, and the signal processing unit 111. Stop power supply.

  On the other hand, the BS signal processing unit 215 provided in the restart control unit 117 illustrated in FIG. 3 performs processing of a radio signal from the macro base station apparatus 120 received by the BS signal reception amplifier 211 described above. Then, when the resumption instruction detecting unit 216 detects a resumption instruction in a predetermined format from the signal processing result obtained by the BS signal processing unit 215, the resumption instruction detecting unit 216 determines that the resumption of power supply has been instructed, and the switch unit 115 is notified. In response to this notification, the switch unit 115 operates the internal switch described above to restart the supply of power to the transmission amplifier 112, the reception amplifier 113, and the signal processing unit 111.

  The location information collection unit 221 provided in the cell identification unit 124 of the macro base station apparatus 120 illustrated in FIG. 4 is a process in which the macro base station apparatus 120 exchanges a signal for starting communication with the mobile terminal apparatus. Thus, information indicating the position of the mobile terminal device is collected from the mobile terminal device. In addition, the small cell BS database (DB) 222 stores location information and management information corresponding to the small cell base station apparatuses of all the small cells that are redundantly arranged in the macro cell. .

  FIG. 5 shows an example of a small cell BS database. In the example shown in FIG. 5 (a), corresponding to the base station ID (μBS1, μBS1,...) Of each small cell base station apparatus, the small cell corresponding to the coordinates representing the position in latitude and longitude. Are stored as position information. The information stored as the position information may be any information as long as the information can represent the range of the small cell corresponding to each small cell base station apparatus so that it can be compared with the position of the mobile terminal apparatus. .

  The accommodated cell determination unit 223 provided in the cell specifying unit 124 illustrated in FIG. 4 is based on the location information of the mobile terminal device collected by the location information collection unit 221 and the location information stored in the small cell BS database 222. Then, the small cell where the mobile terminal device is staying is specified.

  Further, the restart determination unit 224 provided in the restart instruction unit 125 illustrated in FIG. 4 uses the power information based on the management information corresponding to the small cell base station apparatus corresponding to the small cell specified by the accommodated cell determination unit 223. It is determined whether or not the supply is resumed. When the resumption determination is performed, the resumption determination unit 224 creates a SIB (System Information Block) message that specifies the base station ID of the small cell base station apparatus and instructs the resumption of power supply, for example. And sent out via the signal processing unit 121. Also, the update processing unit 225 illustrated in FIG. 4 updates the management information stored in the small cell BS database 222 according to the determination result by the restart determination unit 224.

FIG. 6 shows a sequence diagram for explaining the power supply control operation of the small cell base station apparatus. In FIG. 6, a mobile terminal apparatus is indicated by a symbol MS, and a macro base station apparatus is abbreviated as a macro BS. Further, the small cells BS ₁ to BS _n shown in FIG. 6 indicate small cell base station apparatuses corresponding to n small cells arranged overlapping the macro cell.

In the example illustrated in FIG. 6, the small cell BS ₁ to the small cell BS _n are all in a state in which the power supply is stopped, and the mobile terminal device MS has changed to the small cell 1 corresponding to the small cell BS 1. The case where a connection request is made in the entered state is described (see symbols (a) and (1) in FIG. 6). Further, in this example, the mobile terminal device MS has a GPS function and, for example, a function of adding GPS information to an RRC (Radio Resource Control) connection request and sending it in response to a random access response (see FIG. 6 codes (2) and (3)).

  In this case, the location information collection unit 221 illustrated in FIG. 4 collects the accurate location information of the mobile terminal device by extracting the GPS information from the RRC connection request described above, and It can use for the process (refer FIG. 6 code | symbol (b)) which estimates BS.

  FIG. 7 is a flowchart showing the operation of the accommodated cell determination unit.

  After receiving the GPS information of the mobile terminal apparatus, the accommodated cell determination unit 223 sequentially acquires position information corresponding to each registered small cell base station apparatus (small cell BSi) from the small cell BS database 222. (Steps 301 and 302).

  Next, the accommodated cell determination unit 223 calculates the distance Di between the i-th small cell base station apparatus BSi that acquired the position information in Step 302 and the mobile terminal apparatus (Step 303). When the calculated distance Di is smaller than the area radius Ri included in the position information of the i-th small cell base station device BSi (affirmative determination in step 304), the accommodated cell determination unit 223 determines that the mobile terminal device It is determined that the user is staying in the area of the small cell base station apparatus BSi. In this case, the accommodated cell determination unit 223 registers the base station ID of the i-th small cell base station device BSi in the nearest BS candidate list (step 305), and proceeds to step 306. On the other hand, if the determination in step 304 is negative, the accommodated cell determination unit 223 skips step 305 and proceeds to step 306.

  When there is an undetermined small cell base station device (affirmative determination in step 306), the accommodated cell determination unit 223 returns to step 302 and performs determination processing for the next small cell base station device. When the determination processing for all the small cell base station devices is completed, the accommodated cell determination unit 223 determines the nearest BS from among the small cell base stations registered in the candidate list as a negative determination in step 306. The estimation is notified to the restart determination unit 224 (step 307), and the process is terminated. For example, the accommodated cell determination unit 223 keeps the distance calculated in correspondence with the base station ID in the candidate list, searches the candidate list for a small cell base station device that gives the minimum distance, Can be selected as a host BS.

  Note that the accommodated cell determination unit 223 may be configured to estimate the detected small cell base station device as the nearest BS when the small cell base station device that is determined to be affirmative in step 304 is detected. Moreover, the process which estimates the nearest BS mentioned above can be performed in parallel with the signal process for starting and continuing communication between a macro base station apparatus and a mobile terminal apparatus (refer FIG. 6).

  As described above, the restart determination unit 224 determines whether or not to restart the operation when the nearest small cell base station device estimated from the location information of the mobile terminal device is in a dormant state. (See reference numeral (c) in FIG. 6). The processing by the restart determination unit 224 can also be performed in parallel with the signal processing for starting and continuing communication between the macro base station device and the mobile terminal device (see FIG. 6).

  FIG. 8 is a flowchart showing the restart determination operation.

  The restart determination unit 224 receives the notification of the nearest BS from the accommodated cell determination unit 223 (step 311), and acquires management information corresponding to the notified small cell base station device from the small cell BS database 222 (step 312). ).

  In the example shown in FIG. 5 (a), as management information corresponding to each small cell base station device, the number of MSs in the area indicating the number of mobile terminal devices communicating with each small cell, and the restart threshold And are stored. This resumption threshold is an example of a condition for resuming operation when the small cell base station apparatus is in a dormant state, and stores, for example, a value serving as an index for determining whether resumption is possible for the number of MSs in the area. be able to.

  In step 313 of FIG. 8, the restart determination unit 224 adds and updates the number “1” to the number of in-service stations included in the management information (step 313). Thereafter, the restart determination unit 224 compares the updated number of serving MSs with the restart threshold described above, and when the number of serving MSs is equal to or greater than the restart threshold (Yes determination in step 314), the small cell base It is determined that the operation of the station apparatus should be resumed. For example, as shown in FIG. 5A, when the number of MSs in the management information corresponding to the base station ID (μBS1) of the small cell base station device BS1 is a numerical value “1”, The value updated in step 313 is equal to the restart threshold. In this case, the restart determination unit 224 determines that the operation of the small cell base station device BS1 should be restarted, creates the SIB message described above, and uses it for transmission processing by the signal processing unit 121 (step 315). .

  This SIB message is passed to the transmission amplifier 122 via the signal processing unit 121 and transmitted using the radio signal of the downlink frequency of the macro base station apparatus 120 (see (5) in FIG. 6).

  When this SIB message reaches the BS signal reception amplifier 211 of the small cell base station apparatus 110, the BS signal processing unit 215 determines whether the message is addressed to the own apparatus based on the destination base station ID. judge. In the case of a message addressed to the own apparatus, the restart instruction detection unit 216 detects a power supply restart instruction included in the content of the message obtained by the BS signal processing unit 215. In response to the detection of the restart instruction, the restart instruction detection unit 216 operates the switch unit 217 to restart the power supply (shown as “power ON” in FIG. 6).

  In this way, it is possible to selectively turn on only the power of the small cell base station device 110 of the small cell where the mobile terminal device is staying and resume its activity.

  Regardless of the determination result in step 314 in FIG. 8, the update processing unit 225 illustrated in FIG. 4 performs the small cell corresponding to the small cell base station device specified in the above-described accommodated cell determination unit 223 in step 316. The number of MSs in the base station database 222 is updated. In this way, by marching the management information held in the small cell base station database 222, based on the processing result by the cell specifying unit 124, the stay as one of the statistics indicating the traffic of each small cell The number of mobile terminal devices inside can be totaled.

On the other hand, when the transmission of the radio signal is resumed by the transmission amplifier 112 of the small cell base station apparatus 110 that has resumed activity (see FIG. 6 (d)), this radio signal is larger than the radio signal of the macro BS. Reach the mobile terminal device with strength. Therefore, the mobile terminal apparatus performs a switching process from the macro BS to the small cell BS ₁ according to a normal handover procedure (see FIG. 6 (6)), and thereafter communicates with the small cell BS ₁ (see FIG. 6). 6 reference (7)).

Thereafter, when a no-communication state is detected in the small cell BS ₁ (see FIG. 6 (e)), the switch unit 115 is operated again by the stop control unit 116 shown in FIG. In addition, the power supply to the signal processing unit 111 is stopped (power supply OFF). Along with this, the radio signal transmission from the small cell BS ₁ is also stopped (see symbol (f) in FIG. 6).

  In the configuration described above, each small cell base station apparatus 110 stops supplying power to the transmission amplifier 112, the reception amplifier 113, and the signal processing unit 111 in response to detection of a no-communication state for a certain period of time. In this case, it is only necessary to maintain the power supply to the BS signal receiving amplifier 211 for receiving the restart instruction and each unit necessary for the signal processing, and therefore when the small cell base station apparatus 110 is in the dormant state. The power consumption is very small compared to that during operation. Therefore, as described above, by controlling the power supply in each small cell base station apparatus, the power consumed unnecessarily by the small cell base station apparatus corresponding to the small cell where no one is staying is suppressed. Therefore, it is possible to promote power saving of the wireless communication system.

  Further, the macro base station apparatus 120 determines whether or not the mobile terminal apparatus restarts the power supply of the small cell base station apparatus that is estimated to be a stay destination, by using the restart threshold value. The situation where the power supply is frequently turned on and off can be avoided, and the control can be stabilized.

  Note that the value of the restart threshold value can be determined in consideration of the characteristics of the place where each small cell is arranged. In addition, after the operation of the wireless communication system is started, it is also possible to adjust the restart threshold based on log information indicating the above-described results of power supply control.

  Further, it is also possible to set the restart threshold value corresponding to a part of the small cell base station devices to the numerical value “1”, and to perform control to give priority to wireless communication using the small cell base station devices in the corresponding area. is there. On the other hand, it is also possible to omit the determination using the restart threshold described above, and to perform control to give priority to radio communication using the small cell base station apparatus in all small cells.

  Furthermore, the restart threshold value is not limited to the number based on the number of mobile terminals located in the area, but may be any value as long as it has a correlation with the traffic volume related to each small cell. For example, if a restart threshold is set for the frequency of connection requests, it is possible to determine whether power supply can be restarted for each small cell based on the time interval at which a random access request is received.

  On the other hand, based on the restart threshold set for the magnitude of the load on the macro base station apparatus 120, whether or not to restart the power supply of the small cell base station apparatus 110 of the small cell where the mobile terminal apparatus that is the connection request source is staying Can also be determined. Further, the restart threshold value set for the quantity correlated with the traffic volume related to each small cell can be changed according to the load of the macro base station apparatus 120.

Next, a variation of a method for delivering a restart instruction from macro base station apparatus 120 to small cell base station apparatus 110 will be described.
(Embodiment 2)
FIG. 9 shows another embodiment of the macro base station apparatus. FIG. 10 shows another embodiment of the small cell base station apparatus. Note that among the constituent elements shown in FIG. 9, the same constituent elements as those shown in FIG. 4 are denoted by the same reference numerals, and description thereof is omitted. Similarly, among the components shown in FIG. 10, the same components as those shown in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted. FIG. 11 is a sequence diagram showing the power supply control operation of the small cell base station apparatus.

  The small cell base station apparatus shown in FIG. 10 and the macro base station apparatus shown in FIG. 9 are another example of the embodiment in which the base station power supply control method is applied to the FDD wireless communication system. .

  The macro base station apparatus 120 illustrated in FIG. 9 includes an array antenna 126. In addition, the terminal orientation estimation unit 226 provided in the cell specification unit 124 determines the orientation of the mobile terminal device that is the connection request source based on information obtained in the process in which the signal received by the array antenna 126 is processed by the signal processing unit 121. Is estimated. The distance calculation unit 227 estimates a transmission delay amount with the mobile terminal device based on a signal exchanged with the mobile terminal device, and the mobile terminal device and the macro base station based on the estimation result. The distance from the device 120 is calculated.

  For example, when a random access preamble is received from a mobile terminal apparatus that has entered small cell 1 (see symbols (a) and (1) in FIG. 11), the orientation and delay information of the mobile terminal apparatus are collected in the macro BS. (See symbol (g) in FIG. 6). Then, in parallel with the progress of the communication procedure with the mobile terminal device, the position estimation process of the mobile terminal device is performed (see symbol (h) in FIG. 6).

  For example, the position estimation unit 228 determines the position of the mobile terminal apparatus based on the position information of the macro base station apparatus 120 itself, the azimuth of the mobile terminal apparatus obtained as described above, and the distance to the mobile terminal apparatus. Can be estimated. And based on the positional information which shows the obtained estimation result, the nearest BS estimation process by the accommodation cell determination part 223 is performed (refer FIG.6 code | symbol (b)). For the small cell base station device identified as the nearest BS by the accommodated cell determination unit 223, the restart determination unit 224 performs the restart determination process similar to that of the first embodiment described above (see FIG. 6 (c)). .

  Here, the restart instruction unit 125 illustrated in FIG. 9 includes a BS communication transmission amplifier 231 for transmitting the radio signal of the uplink frequency of each small cell base station apparatus 110. In addition, when the signal generation unit 232 receives the SIB message described above from the restart determination unit 224, the signal generation unit 232 generates a signal corresponding to the SIB message and transmits this signal via the BS communication transmission amplifier 231 (see FIG. 6 reference (9)).

  In this case, the small cell base station apparatus 110 receives the SIB message including the restart instruction from the macro base station apparatus 120 by the reception amplifier 113, so that the power supply to the reception amplifier 113 is maintained even in the dormant state. In FIG. 10, a power supply path that is turned on / off by the switch unit 115 is indicated by a thick broken line, and a power supply path that is constantly maintained is indicated by a thick solid line. Further, in FIG. 10, illustration of power supply paths to the respective units of the stop control unit 116 and the restart control unit 117 is omitted.

  The message extraction unit 217 provided in the resumption control unit 117 illustrated in FIG. 10 extracts the SIB message addressed to the own apparatus from the reception signal of the reception amplifier 113, and supplies the extracted SIB message to the processing of the resumption instruction detection unit 216. .

Therefore, the SIB message transmitted using the radio signal of the uplink frequency of the small cell base station is selectively extracted by the message extraction unit 217 of the small cell base station device 110 specified as the destination. Then, a resumption instruction included in the extracted SIB message is detected, and the resumption instruction detection unit 216 operates the switch unit 115 to resume power supply to the transmission amplifier 112 and the signal processing unit 111. Further, transmission by the transmission amplifier 112 is resumed in response to the power being turned on (see symbol (d) in FIG. 6). Thereafter, the switching process to the small cell BS ₁ is performed in the same manner as in the first embodiment described above, and the state shifts to the communication state.

  The stop control unit 116 of the small cell base station apparatus 110 illustrated in FIG. 10 includes a setting holding unit 218 instead of the BS signal amplifier 211 and the signal measurement unit 212 illustrated in FIG. The setting holding unit 218 holds setting information indicating whether or not to enable the function of the non-communication detecting unit 214 in each small cell base station device 110. Then, the validity setting unit 213 sets the function of the no-communication detection unit 214 to be valid or invalid according to the setting information. The setting information described above is determined based on the measurement result such as the radio signal strength of the macro base station apparatus 120 at the installation position when the small cell base station apparatus 110 is installed, for example, and is held in the setting holding unit 218. I can keep it.

  In the small cell base station apparatus 110 configured as described above, since it is not necessary to include the BS communication reception amplifier 211 in order to receive the restart instruction from the macro base station apparatus 120, the hardware of the small cell base station apparatus 110 is not necessary. An increase in the amount of wear can be suppressed. Instead, it is necessary to provide the macro base station apparatus 120 with a transmission amplifier for the uplink frequency of the small cell base station apparatus 110.

  Instead of providing the message detection unit 217 in the resumption control unit 117 of the small cell base station device 110, the power supply to the signal processing unit 111 is maintained even in the dormant state, and the SIB addressed to the own device is transmitted by the signal processing unit 111. It can also be configured to detect messages.

  In this case, only the transmission amplifier 112 is turned off in response to the detection of the no-communication state. However, since the power consumption by the reception amplifier 113 and the signal processing unit 111 is smaller than the power consumption by the transmission amplifier 112, the power consumption of the small cell base station apparatus 110 can be reduced even with such a configuration. .

  In addition, the delivery method of the resumption instruction | indication from the macro base station apparatus 120 to each small cell base station apparatus 110 can also be made selectable for every small cell base station apparatus 110. FIG.

  For example, in correspondence with each small cell base station apparatus, information indicating which of the downlink frequency of the macro BS and the uplink frequency of the small cell BS is used for delivery of the restart instruction is stored in the small cell base station information database 222. And can be used for processing of the restart instruction unit 125. FIG. 5 (b) shows an example of the small cell base station database 222 in which information for specifying the delivery method of the resume instruction is included in the management information and stored as the BS communication frequency designation.

  Information indicating the power state collected for each small cell base station apparatus 110 can also be stored in the small cell base station database 222 as part of the management information. For example, the signal processing unit 121 of the macro base station apparatus 120 can collect information indicating the power state from each small cell base station apparatus 110 via the backhaul line. Further, when the information indicating the collected power state indicates that the power supply in the small cell base station apparatus 110 is stopped, the corresponding number of in-service MSs is cleared, and the traffic state in each small cell Can be reflected in the small cell base station database 222.

  Furthermore, it is also possible to use a backhaul line for delivery of a restart instruction to the small cell base station apparatus 110 corresponding to the small cell specified by the cell specifying unit 124. For example, the determination restart determination unit 224 generates a control message for resuming the power supply, passes it to the signal processing unit 121, and sends it to the small cell base station device 110 specified as the destination of the mobile terminal device. What is necessary is just to request to transmit via.

  On the other hand, when the base station power supply control method is applied to the TDD wireless communication system, the macro base station device and the small cell base station device can transmit and receive wireless signals of the same frequency. Can be used to deliver the restart instruction. For example, the macro base station apparatus transmits a SIB message including the resumption instruction described above using a time slot allocated to reception of the specified small cell base station apparatus, thereby instructing the small cell base station apparatus to resume. Can be delivered.

  Note that the small cell base station device 110 that is instructed to resume power supply from the macro base station device 120 is not limited to a single cell, and targets a plurality of small cell base station devices 110 arranged within a predetermined range. A restart instruction can also be sent.

FIG. 12 is a diagram illustrating an example in which a restart instruction is delivered to a plurality of small cell base station devices (BS). In the example shown in FIG. 12, the macro cell is divided into three sectors, the small cells BS _{1 to} BS ₃ are arranged in the sector 1, the small cells BS ₄ and BS ₅ are located in the sector 2, and the small cell BS ₆ is arranged in the sector 3.

For example, the cell specifying unit 124 of the macro base station apparatus 120 can also select the small cell base station apparatus 110 whose distance from the mobile terminal apparatus is equal to or less than a predetermined threshold as a restart instruction target. Further, when the macro cell is divided into a plurality of sectors, the small cell base station apparatuses 110 arranged in the sector where the mobile terminal apparatus that is the connection requester is staying may be collectively designated as a restart instruction target. it can. For example, the accommodated cell determination unit 223 receives information indicating the staying sector of the mobile terminal device that is the connection request source from the signal processing unit 121, and the small cell base station device arranged in this sector from the small cell base station database 222. Information can be extracted and passed to the restart instruction unit 125. In the example shown in FIG. 12 (a), since the mobile terminal device MS stays in the sector 1, the small cells BS ₁ , BS ₂ , BS ₃ arranged in the sector 1 are selected as the restart instruction targets. The resumption instruction is selectively delivered to these small cell base station apparatuses. Moreover, the small cell base station apparatus 110 arranged in the above-described sector is selected and restarted by selecting the one whose distance to the macro base station apparatus 120 is close to the distance between the mobile terminal apparatus and the macro base station apparatus 120 It can also be an instruction target.

  In this way, when a restart instruction is transmitted to a plurality of small cell base station apparatuses 110, power supply is also made in small cell BSs other than the small cell BS of the small cell where the mobile terminal apparatus that is the connection request source is staying. It is resumed at the same time. However, it is clear that the small cell base station device 110 to be restarted selected as described above is located in the vicinity of the mobile terminal device that is the connection request source. Therefore, the probability that the small cell base station apparatus 110 whose power supply has been resumed starts wireless communication with the mobile terminal apparatus is the case where the small cell base station apparatuses arranged in an overlapping manner are in an operating state at random. This is considered to be larger than the similar probability assumed in

  In addition, when the no-communication state continues for a predetermined period after the power supply is resumed, the power supply is stopped again by the function of the stop control unit 116 provided in the small cell base station device 110. As a result, the amount of power consumed in vain can be suppressed.

When the mobile terminal device is moving, as described above, by restarting the power supply of the plurality of small cell base station devices 110 located in the vicinity of the connection request source mobile terminal device, The probability that any one of the small cell base station apparatuses 110 is used can be increased. For example, as shown in FIG. 12B, when the mobile terminal device MS sends a connection request while moving as indicated by an arrow indicated by a broken line, and the position after the movement is near the small cell BS ₂ Can also respond.

Next, instead of delivering a restart instruction from the macro base station apparatus 120 to the small cell base station apparatus 110, a method for shifting the small cell base station apparatus 110 to an operating state according to random access from the mobile terminal apparatus will be described. To do.
(Embodiment 3)
FIG. 13 shows an example of a wireless communication system to which another embodiment of the power supply control method is applied. Note that among the constituent elements shown in FIG. 13, the same constituent elements as those shown in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted.

  The macro base station apparatus 120 illustrated in FIG. 13 includes an access instruction unit 127 instead of the restart instruction unit 126. The access instruction unit 127 notifies the mobile terminal apparatus of information necessary for the mobile terminal apparatus to make a random access request, instead of the small cell base station apparatus 110 serving as a connection request destination.

  In addition, when the resumption control unit 117 of the small cell base station device 110 detects a random access request from the mobile terminal device from the received signal of the reception amplifier 113, the resumption control unit 117 operates the switch unit 115 to transmit the transmission amplifier 112 and the signal processing unit. The power supply to 111 is resumed.

  FIG. 14 shows another embodiment of the macro base station apparatus. FIG. 15 shows another embodiment of the small cell base station apparatus. FIG. 16 shows a sequence diagram for explaining the power supply control operation of the small cell base station apparatus. Of the components shown in FIG. 14, components equivalent to those shown in FIG. 4 are denoted by the same reference numerals and description thereof is omitted. Similarly, among the constituent elements shown in FIG. 15, those equivalent to the constituent elements shown in FIG. 3 are denoted by the same reference numerals and description thereof is omitted. Also, among the signals and procedures shown in FIG. 16, those equivalent to those in FIG. 6 are denoted by the same reference numerals and description thereof is omitted.

  The small cell base station database (BSDB) 222 provided in the macro base station apparatus 120 shown in FIG. 14 manages system information such as individual random access channel configurations corresponding to each small cell base station apparatus 110, for example. As part of the information. The database (DB) reference unit 234 provided in the access instruction unit 127 searches the small cell BSDB 222 for the system information described above based on the base station ID of the small cell base station device 110 received from the accommodated cell determination unit 223. . The system information obtained by this search and the distance between the small cell base station device and the mobile terminal device obtained by the accommodated cell determination unit 223 are passed to the message creation unit 235 to instruct the mobile terminal device to perform random access. It is used for the message creation process. For example, the message creation unit 235 estimates the transmission delay between the mobile terminal device and the small cell base station device based on the identified distance between the small cell base station device and the mobile terminal device, and the estimation result And a control message including system information and base station ID. The processing of the message creation unit 235 is shown as a random access (RA) instruction message creation procedure denoted by reference numeral (i) in FIG. Then, this control message is notified to the mobile terminal device MS that is the connection request source via the PDSCH (Physical Downlink Shared Channel) (see (10) in FIG. 16).

That is, in FIG. 16, the system information of the small cell base station apparatus (small cell BS ₁ ) corresponding to the system information of the macro BS broadcast from the macro BS into the macro cell is notified to the mobile terminal apparatus by the control message described above. The By receiving this control message, the mobile terminal apparatus can acquire information equivalent to the case where the small cell BS of the small cell that is staying informed of the system information.

In the example shown in FIG. 16, in the process in which the mobile terminal device transitions from the macro BS synchronization IDOL state to the connected state in response to the random access response from the macro base station device, this control message is transmitted to the mobile terminal device. Has reached. In this case, the mobile terminal apparatus receives the system information notification from the small cell base station apparatus (small cell BS ₁ ) designated by the control message as if the IDOL state of the small cell BS ₁ synchronization was received. Transition to. Therefore, this mobile terminal apparatus can transmit a random access preamble to the above-described small cell BS ₁ at an appropriate timing (see code (11) in FIG. 16).

  The resumption control unit 117 provided in the small cell base station apparatus 110 illustrated in FIG. 15 includes an access request detection unit 218. The access request detection unit 219 notifies the signal processing unit 111 that the random access preamble described above is passed to the signal processing unit 111 via the reception amplifier 113 and processed by the signal processing unit 111. receive. In response to this, the access request detection unit 219 determines that an access request from the mobile terminal apparatus has been detected, and operates the switch unit 215 to restart the power supply to the transmission amplifier 112 (see FIG. 16 (j ) And (k)). At this time, a random access response to the mobile terminal apparatus is created by the signal processing unit 111 and transmitted via the transmission amplifier 112 (see (12) in FIG. 16).

  In this configuration, only the power supply to the transmission amplifier 112 of the small cell base station apparatus 110 is turned on / off by the switch unit 115, and the power supply to the reception amplifier 113 and the signal processing unit 111 is maintained even in the sleep state. . However, since the power consumption by the reception amplifier 113 and the signal processing unit 111 is smaller than the power consumption by the transmission amplifier 112, the power consumption of the small cell base station apparatus 110 can be reduced even with such a configuration. .

  Necessary by exchanging information with the specified small cell base station apparatus 110 instead of holding the system information corresponding to each small cell base station apparatus in the small cell base station database 222 of the macro base station apparatus. You can also get information. For example, information necessary for random access can be acquired from the specified small cell base station apparatus 110 by exchanging control messages via the backhaul line described above.

110 Small cell base station apparatuses 111 and 121 Signal processing sections 112 and 122 Transmission amplifier 113 and 123 Reception amplifier 114 Power supply section 115 Switch section 116 Stop control section 117 Restart control section 120 Macro base station apparatus 124 Cell specification section 125 Restart instruction section 126 Array antenna 127 Access instruction unit 211 BS signal reception amplifier 212 Signal measurement unit 213 Valid setting unit 214 No communication detection unit 215 BS signal processing unit 216 Restart instruction detection unit 217 Message extraction unit 218 Setting holding unit 219 Access request detection unit 221 Location information collection unit 222 Small cell base station database (small cell BSDB)
223 Accommodating cell determination unit 224 Resumption determination unit 225 Update processing unit 226 Terminal direction estimation unit 227 Distance calculation unit 228 Location estimation unit 231 BS communication transmission amplifier 232 Signal generation unit 234 Database (DB) reference unit 235 Message creation unit

Claims (10)

The second base station apparatus that performs radio signal communication processing for the second cell that is redundantly arranged in the first cell has at least a part of power according to the loss of traffic in the second cell. Stop receiving,
The first base station device corresponding to the first cell that has accepted the connection request in response to a connection request from a mobile terminal device residing in the first cell can process communication of the mobile terminal device Identifying a second base station device,
The first base station apparatus selectively restarts the power reception of the specified second base station apparatus. A base station power supply control method, comprising: A base station apparatus that performs communication processing of a radio signal for a second cell that is redundantly arranged in the first cell,
A stop control unit for stopping power reception of at least a part of the base station device when continuous radio signal communication is stopped with a mobile terminal device located in the second cell;
A resumption control unit for resuming power reception of the base station device in response to a resumption instruction input from a first base station device different from the base station device that performs radio signal communication processing for the first cell; A base station apparatus comprising: A base station apparatus that performs communication processing of a radio signal for a second cell that is redundantly arranged in the first cell,
A stop control unit for stopping power reception of at least a part of the base station device when continuous radio signal communication is stopped with a mobile terminal device located in the second cell;
A base station apparatus comprising: a resumption control unit that resumes power reception of the base station apparatus in response to random access from a mobile terminal apparatus residing in the second cell. In the base station apparatus of Claim 2 or Claim 3,
The stop control unit receives a radio wave measurement result for a radio signal received from a first base station apparatus different from the base station apparatus that performs radio signal communication processing for the first cell, and The base station apparatus, further comprising: an effective setting unit that enables control to stop power reception of the base station apparatus when it is included in the first cell. A base station apparatus that performs communication processing of radio signals for a first cell in which at least one second cell is overlapped,
In response to a connection request from a mobile terminal device located in the first cell, communication of the mobile terminal device is performed from the second base station devices provided corresponding to the second cells. A cell identification unit that identifies a second base station apparatus that can be processed;
A base station apparatus comprising: a restart instruction unit that selectively sends a restart instruction to instruct resumption of power reception to the second base station apparatus specified by the cell specifying unit. In the base station apparatus of Claim 5,
The cell identification unit is
A location information collection unit that collects location information indicating the location of the mobile terminal device using a GPS function from the requesting mobile terminal device;
A base station information holding unit for holding base station information including the position of the second base station device corresponding to each of the second cells,
Based on the location information collected by the location information collection unit and the base station information held in the base station information holding unit, the second base station device capable of processing communication of the mobile terminal device is specified. A base station apparatus. In the base station apparatus of Claim 5,
The cell identification unit is
Position estimation for estimating the position of the mobile terminal device indicated by the direction of the mobile terminal device and the distance from the mobile terminal device based on a radio signal exchanged with the requesting mobile terminal device And
A base station information holding unit for holding base station information including the position of the second base station device corresponding to each of the second cells,
Identifying the second base station apparatus capable of processing communication of the mobile terminal apparatus based on the position estimated by the position estimation unit and the base station information held in the base station information holding unit. A characteristic base station apparatus. In the base station apparatus of Claim 5,
The cell identification unit is
A sector specifying unit for specifying which of the plurality of sectors included in the first cell the mobile terminal apparatus is based on a radio signal exchanged with the requesting mobile terminal apparatus; ,
The base station characterized in that the second base station apparatus corresponding to all the second cells arranged redundantly in the specified sector is subjected to the processing of the restart instruction unit as a destination of the restart instruction. apparatus. In the base station apparatus of Claim 7,
The restart instruction unit
Based on the identification result obtained by the cell identification unit in response to a connection request, a totalization processing unit that aggregates statistics indicating the traffic of each of the second cells;
A restart determining unit that determines whether or not the power supply can be restarted in the second base station device specified by the cell specifying unit according to whether or not the counting result by the counting processing unit satisfies a preset condition; A base station apparatus comprising: A base station apparatus that performs communication processing of radio signals for a first cell in which at least one second cell is overlapped,
In response to a connection request from a mobile terminal device located in the first cell, communication of the mobile terminal device is performed from the second base station devices provided corresponding to the second cells. A cell identification unit that identifies a second base station apparatus that can be processed;
Information necessary for random access destined for the second base station device identified by the cell identifying unit is transmitted to the requesting mobile terminal device, and the second base station identified to the mobile terminal device An access instruction unit that executes random access to the device.

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