Patent Application
20230073328
The present disclosure relates to a radio base station, a radio communication system, a control circuit, a storage medium, and a radio communication method for building a radio communication system with a plurality of radio base stations.
Known radio base stations building a radio communication system need to temporally synchronize reference timings with neighboring radio base stations in order to, for example, avoid interference between radio base stations, and achieve handover for a wireless terminal to seamlessly switch a radio base station to communicate with. A reference timing is timing serving as a standard for starting transmission of radio signals between radio base stations. The radio base stations can also synchronize points of time managed by the individual radio base stations as synchronization of reference timings. The radio base stations need to synchronize the reference timings and transmit radio signals without collisions of such radio signals with one another in radio communication services that allow a plurality of radio base stations and wireless terminals to share time and frequency such as frequency hopping, code division multiple access (CDMA) in addition to radio communication services using the time division multiple access (TDMA) method.
In the presence of a large timing difference between reference timings of the radio base stations, the individual radio base stations need to perform timing correction until the timing difference is reduced to an allowable value. Patent Literature 1 teaches a technology for reducing a timing difference between a plurality of radio base stations by notifying the radio base stations of correction information in a case where a wireless terminal connected with the radio base stations has received time slots from the radio base stations and detected a difference between reception timings that is deviated from a reference value by the allowable value or larger. Although the wireless terminal initiates the timing correction among the radio base stations in Patent Literature 1, the radio base stations may perform timing correction when radio signals can be received between the radio base stations.
Patent Literature 1: Japanese Patent Application Laid-open No. 2008-160618
In the presence of radio base stations that transmit radio signals at plural, in particular, more than two different reference timings, the conventional technology described above unfortunately experiences a problem of taking a possible long time until all the radio base stations complete timing corrections and establish synchronization with one another, depending on a reference value determined to cause synchronization between radio base stations to converge.
The present disclosure has been made in view of the above, and an object thereof is to provide radio base stations capable of shortening time taken to establish synchronization between radio base stations.
To solve the above problem and achieve the object, the present disclosure provides a radio base station being a first radio base station among a plurality of radio base stations of a radio communication system. The radio base station comprises: a timing difference measuring unit to measure a timing difference between a reference timing of the first radio base station and a reference timing of a second radio base station adjacent to the first radio base station, using a reference signal received from the second radio base station for synchronization of a reference timing that is timing serving as a standard for starting transmission of a radio signal between radio base stations; a timing correction controlling unit to calculate a first timing correction amount and a second timing correction amount for synchronization of the reference timing of the first radio base station with the reference timing of the second radio base station, on the basis of the timing difference, the first timing correction amount being a timing correction amount by which to correct the reference timing of the first radio base station, the second timing correction amount being a timing correction amount by which to correct the reference timing of the second radio base station; and a base station controlling unit to perform control to notify the second radio base station of the second timing correction amount.
The radio base station according to the present disclosure produces an effect of shortening the time taken to establish the synchronization between the radio base stations.
A radio base station, a radio communication system, a control circuit, a storage medium, and a radio communication method according to an embodiment of the present disclosure will be described in detail below with reference to the drawings. Note that the present disclosure is not limited to the embodiment.
Each radio base station 11 transmits and receives a reference signal 12 to and from adjacent radio base stations 11. The reference signal 12, which relates to inter-radio-base-station synchronization, is a radio signal for synchronizing a reference timing. The reference timing is timing that serves as a standard for starting transmission of a radio signal between radio base stations. Each radio base station 11 of the radio communication system 1 transmits and receives the reference signal 12 to determine the reference timing relating to the timing for transmitting radio signals between the radio base stations, and perform timing correction for inter-radio-base-station synchronization. As a result of this timing correction, the inter-radio-base-station synchronization is established. The reference signal 12 may be a special radio signal for inter-radio-base-station synchronization, or may be a radio signal, a beacon, or the like used in communication between the radio base stations or between the radio base stations 11 and wireless terminals. In the description below, the present radio base station in question is referred to as a first radio base station, where necessary. In addition, the adjacent radio base station 11, which is next to the first radio base station, is referred to as a second radio base station, where necessary.
The antenna 21 radiately transmits a radio signal into the air, and receives an incoming radio signal propagated through the air.
The radio communication unit 22 performs a demodulation process, a decoding process, etc. on a radio signal received by the antenna 21. The radio communication unit 22 also performs an encoding process, a modulation process, etc. on transmission data obtained from the base station controlling unit 23.
The base station controlling unit 23 is connected with a radio base station control station via a wired network. The radio base station control station, which is not illustrated, is external to the radio base stations 11 and controls the radio base stations 11. The base station controlling unit 23 outputs information obtained from the radio base station control station via the wired network to the radio communication unit 22. The base station controlling unit 23 obtains information subjected to a demodulation process, a decoding process, etc. in the radio communication unit 22, and outputs that information to the radio base station control station via the wired network. In addition, the base station controlling unit 23 has a function of controlling the radio communication unit 22 for controlling the time or the reference timing serving as the standard for starting the transmission of a radio signal from the radio communication unit 22.
The timing difference measuring unit 24 measures a difference between a reception timing and a transmission timing. The reception timing is timing at which the antenna 21 receives the reference signal 12 relating to inter-radio-base-station synchronization, the radio communication unit 22 performing a demodulation process, a decoding process, etc. on that received reference signal. The transmission timing is timing at which the associated radio base station transmits a radio signal. Specifically, the timing difference measuring unit 24 measures a timing difference between the reference timing of the first radio base station and the reference timing of the second radio base station adjacent to the first radio base station, using the reference signal 12 received from the second radio base station for synchronization of a reference timing, the reference timing being timing serving as a standard for starting transmission of a radio signal between radio base stations.
On the basis of the reference timing difference between radio base stations measured by the timing difference measuring unit 24, the timing correction controlling unit 25 determines a reference timing as a standard for inter-radio-base-station synchronization and calculates a first timing correction amount for the first radio base station and a second timing correction amount for the second radio base station. The first timing correction amount for the first radio base station is a timing correction amount by which to correct the reference timing of the first radio base station in order to synchronize the reference timing of the first radio base station and the reference timing of the second radio base station with each other. The second timing correction amount for the second radio base station is a timing correction amount by which to correct the reference timing of the second radio base station in order to synchronize the reference timing of the first radio base station and the reference timing of the second radio base station with each other.
The base station controlling unit 23 performs control to notify the second radio base station of the second timing correction amount for the second radio base station calculated by the timing correction controlling unit 25.
Next, the operation of a radio base station 11 will be explained.
When there is no timing difference in the reference signals 12, that is, no timing difference in the reference timings between the radio base stations 11 installed in the area 51-2 and the radio base stations 11 installed in the areas 51-1, 51-3, and 51-4, all the radio base stations 11 can be synchronized with each other. As described above, however, the radio base stations 11 installed in the areas 51-1, 51-3, and 51-4 transmit radio signals at their own reference timings independent of one another. Thus, the radio base stations 11-4, 11-5, and 11-6 installed in the area 51-2 may transmit radio signals at reference timings different from each other.
At which of the reference timings of the radio base stations 11 installed in the areas 51-1, 51-3, and 51-4 the radio base stations 11-4, 11-5, and 11-6 should start transmission of radio signals depends on the earliest received reference signal 12 among the reference signals received by the radio base stations 11-4, 11-5, and 11-6 after the radio base stations 11-4, 11-5, and 11-6 start operations. The present embodiment is based on the assumption, by way of example, that, among the radio base stations 11-4 to 11-6 installed in the area 51-2, the radio base station 11-4 was the earliest to receive a reference signal 12 transmitted by the radio base station 11-3 in the area 51-1. In addition, assume that the radio base stations 11-5 and 11-6 received the reference signal 12 transmitted from the radio base station 11-4 earlier than the reference signals 12 transmitted from the radio base stations 11-7 and 11-10. In
As illustrated in
In view of this, in the present embodiment, the radio base station 11-6 that has received a plurality of reference signals 12 having different reference timings determines a reference timing to which the reference timings converge to shorten the time taken to establish the inter-radio-base-station synchronization.
If the reference signals 12 having different reference timings are received (step S12: Yes), the radio base station 11-6 compares the reference timings of the received reference signals 12 with each other, and determines whether or not the difference between the reference timings of the reference signals 12 is equal to or larger than an allowable value for establishment of inter-radio-base-station synchronization (step S13). The allowable value is a value determined during design of the radio communication system 1 on the basis of the performance of a physical layer of radio communication, a guard time set to prevent interference between radio signals in radio communication, or the like. The radio base station 11-6 holds information on the allowable value in advance. If the difference between the reference timings of the reference signals 12 is smaller than the allowable value for establishment of inter-radio-base-station synchronization (step S13: No), the radio base station 11-6 determine that inter-radio-base-station synchronization is established and terminates the operation for establishing inter-radio-base-station synchronization.
If the difference between the reference timings of the reference signals 12 is equal to or larger than the allowable value for establishment of inter-radio-base-station synchronization (step S13: Yes), the radio base station 11-6 determines that inter-radio-base-station synchronization is not established, and determines a radio base station 11 having a reference timing to which the reference timings converge as a result of timing correction, i.e., a reference timing at the time of the synchronization and convergence or a reference timing serving as a standard therefor (step S14).
Note that, in the operation in step S14, the radio base station 11-6 determines a radio base station 11 having the reference timing at the time of synchronization and convergence or the reference timing serving as a reference therefor, and calculates the timing correction amounts for the radio base stations 11 including the radio base station 11-6.
If timing correction of the reference timing is needed in the radio base station 11-6 (step S15: Yes), the radio base station 11-6 performs timing correction of the reference timing of the radio base station 11-6 (step S16). If timing correction of the reference timing is not needed in the radio base station 11-6 (step S15: No) or after the operation of step S16, the radio base station 11-6 notifies each of the adjacent radio base stations 11 of a timing correction amount (step S17). Specifically, the radio base station 11-6 notifies the radio base stations 11-7 and 11-10 of the timing correction amounts. In addition, when the radio base station 11-6 has corrected the reference timing of the radio base station 11-6, the radio base station 11-6 also notifies the radio base station 11-5 of the timing correction amount. The radio base station 11-6 may perform notification of the timing correction amounts through wireless communication or through wire communication via the wired network interconnecting the radio base stations 11, as described above.
In notifying the adjacent radio base stations of the timing correction amounts, the radio base station 11-6 also notifies the adjacent radio base stations of the number of radio base stations 11 considered for determining the reference timing. The number of radio base stations 11 when the radio base station 11-6 notifies the radio base stations 11-7 and 11-10 of the timing correction amounts is three. Specifically, the timing correction controlling unit 25 of the radio base station 11-6 notifies the base station controlling unit 23 of the number of radio base stations considered in determining the first timing correction amount and the second timing correction amounts. The base station controlling unit 23 notifies the second radio base stations of the number of radio base stations together with the second timing correction amounts.
The radio base stations 11-5, 11-7, and 11-10 each correct the reference timing thereof on the basis of the timing correction amount of which each of the radio base stations 11-5, 11-7, and 11-10 is notified. Each of the radio base stations 11-5, 11-7, and 11-10 performs correction of the reference timing for a radio base station 11 that transmitted a radio signal at the same timing as that radio base station before the radio base station starts the correction. For example, the radio base station 11-7 performs correction of the reference timing for the radio base station 11-8. Alternatively, the radio base stations 11-5, 11-7, and 11-10 may each correct the frame timing thereof in steps of a small amount. When the reference signals 12 transmitted by the radio base stations 11-5, 11-7, and 11-10 are received by adjacent radio base stations 11 at shifted timings, the radio base stations 11-5, 11-7, and 11-10 can cause the reference timing of the associated adjacent radio base stations 11 to be autonomously corrected.
As illustrated in
In the present embodiment, the radio base stations 11-7 and 11-10 are notified of three as the number of radio base stations 11 by the radio base station 11-6. Because the timing correction amount of which each of the radio base stations 11-7 and 11-10 notified the radio base station 11-6 takes into consideration only the radio base station itself and the radio base station 11-6, the number of radio base stations 11 considered is two. The number of radio base stations 11 of which the radio base station 11-6 notified each of the radio base stations 11-7 and 11-10 is larger than that considered by the radio base stations 11-7 and 11-10. Thus, the radio base stations 11-7 and 11-10 perform timing correction of the reference timing in accordance with the timing correction amounts of which the radio base station 11-6 notified the radio base stations 11-7 and 11-10.
The same is applicable to the radio base station 11-6. Specifically, the base station controlling unit 23 of the radio base station 11-6 notifies a second radio base station of a second timing correction amount, and when the radio base station 11-6 is notified of a first timing correction value determined by the second radio base station by the second radio base station, the base station controlling unit 23 employs the timing correction amount for which the number of radio base stations 11 considered is larger, on the basis of the numbers of radio base stations 11.
Although the present embodiment has been described giving an example in which the radio base station 11-6 receives reference signals 12 having different reference timings from two adjacent radio base stations 11, specifically, the radio base stations 11-7 and 11-10, the embodiment is not limited thereto. The present embodiment is also applicable to cases where a radio base station 11 receives reference signals 12 having different reference timings from three or more adjacent radio base stations 11.
Next, a hardware configuration of a radio base station 11 will be described. In the radio base station 11, the antenna 21 is an antenna element. The radio communication unit 22 is a radio communication module including a radio frequency circuit for radio communication, a modulation/demodulation circuit, and the like. The base station controlling unit 23, the timing difference measuring unit 24, and the timing correction controlling unit 25 are implemented by processing circuitry. The processing circuitry may be constituted by a processor that executes programs stored in a memory and the memory, or may be dedicated hardware. The processing circuitry is also called a control circuit.
The programs are, in other words, programs for causing a radio base station 11 to perform a first step in which the timing difference measuring unit 24 measures a timing difference between a reference timing of a first radio base station and a reference timing of a second radio base station adjacent to the first radio base station, using a reference signal 12 received from the second radio base station for synchronization of the reference timing that is timing serving as a standard for starting transmission of a radio signal between radio base stations, a second step in which the timing correction controlling unit 25 calculates a first timing correction amount, which is a timing correction amount by which to correct the reference timing of the first radio base station, and a second timing correction amount, which is a timing correction amount by which to correct the reference timing of the second radio base station, for synchronization of the reference timing of the first radio base station with the reference timing of the second radio base station, on the basis of the timing difference, and a third step in which the base station controlling unit 23 performs control to notify the second radio base station of the second timing correction amount.
Note that the processor 91 is a central processing unit (CPU), a processing device, a computing device, a microprocessor, a microcomputer, a digital signal processor (DSP), or the like, for example. In addition, the memory 92 is a nonvolatile or volatile semiconductor memory such as a random access memory (RAM), a read only memory (ROM), a flash memory, an erasable programmable ROM (EPROM), or an electrically EPROM (EEPROM: registered trademark), a magnetic disk, a flexible disk, an optical disk, a compact disc, a mini disc, a digital versatile disc (DVD) or the like, for example.
As described above, according to the present embodiment, a radio base station 11 receives a reference signal 12 from an adjacent radio base station 11, and when the difference between the reference timings is equal to or larger than the allowable value, determines a reference timing so that the sum of the timing correction amounts for the radio base stations 11 including that radio base station is smallest. In this manner, the radio communication system 1 can quickly establish temporal synchronization between radio base stations 11 installed in the radio communication system 1. The radio communication system 1 can shorten the time to establishment of synchronization between the radio base stations 11.
Note that, as also described in the Background section, the radio base stations 11 can also synchronize the points of time managed by the respective radio base stations 11, as synchronization of reference timings.
The configurations presented in the embodiment above are examples, and can be combined with other known technologies or with each other, or can be partly omitted or modified without departing from the gist.
1 radio communication system; 11, 11-1 to 11-12 radio base station; 12 reference signal; 21 antenna; 22 radio communication unit; 23 base station controlling unit; 24 timing difference measuring unit; 25 timing correction controlling unit; 51-1 to 51-4 area.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/JP2020/005892 | 2/14/2020 | WO |
