WO2017152641A1 - 增强网络信号的系统及其增强网络信号的方法 - Google Patents
增强网络信号的系统及其增强网络信号的方法 Download PDFInfo
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- WO2017152641A1 WO2017152641A1 PCT/CN2016/104196 CN2016104196W WO2017152641A1 WO 2017152641 A1 WO2017152641 A1 WO 2017152641A1 CN 2016104196 W CN2016104196 W CN 2016104196W WO 2017152641 A1 WO2017152641 A1 WO 2017152641A1
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- WIPO (PCT)
- Prior art keywords
- mobile terminal
- base station
- signal strength
- server
- signal
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/06—TPC algorithms
- H04W52/14—Separate analysis of uplink or downlink
- H04W52/143—Downlink power control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/18—TPC being performed according to specific parameters
- H04W52/24—TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters
- H04W52/245—TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters taking into account received signal strength
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/18—TPC being performed according to specific parameters
- H04W52/28—TPC being performed according to specific parameters using user profile, e.g. mobile speed, priority or network state, e.g. standby, idle or non transmission
- H04W52/283—Power depending on the position of the mobile
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/34—TPC management, i.e. sharing limited amount of power among users or channels or data types, e.g. cell loading
- H04W52/346—TPC management, i.e. sharing limited amount of power among users or channels or data types, e.g. cell loading distributing total power among users or channels
Definitions
- the present invention relates to the field of mobile terminal technologies, and in particular, to a system for enhancing a network signal and a method for enhancing the network signal.
- the signal of the mobile terminal tends to be weakened due to the occlusion of the building.
- the signal of the mobile phone is blocked by the building, and the signal of the mobile phone is weakened.
- the strength of the network signals received by the two mobile phones varies greatly due to the refraction of the electromagnetic waves. Since the location of the base station closest to the mobile phone cannot be known, the location of the mobile phone cannot be used to improve the signal strength of the mobile phone to obtain the base station.
- the technical problem to be solved by the present invention is to provide a system for enhancing a network signal and a method for enhancing the network signal to solve the above problem.
- a technical solution adopted by the present invention is to provide a method for enhancing a network signal, which is applied to a system for enhancing a network signal, where the system includes a mobile terminal, a server, and a base station controller, which are sequentially connected, and the method includes: The mobile terminal acquires the signal strength of the base station, and compares the signal strength with a preset first signal strength threshold; if the signal strength is less than the first signal strength threshold, the mobile terminal sends a request for enhancing the network signal to the server, and the mobile terminal The location information is sent to the server; the base station controller obtains the request for enhancing the network signal and the location information of the mobile terminal from the server, and locates the base station according to the location information of the mobile terminal; and the base station controller determines that the base station receives the request for enhancing the network signal. The quantity is compared with a preset number threshold; if the quantity is greater than the quantity threshold, the base station controller activates the base station to increase power.
- the mobile terminal sends a request for enhancing the network signal to the server, and sending the location information of the mobile terminal to the server further includes:
- the server generates an acknowledgment signal according to the request for enhancing the network signal, and sends the acknowledgment signal to the mobile terminal;
- the mobile terminal transmits the location information of the mobile terminal to the server after receiving the acknowledgment signal.
- the sending, by the mobile terminal, the location information of the mobile terminal to the server after receiving the acknowledgment signal further includes:
- the mobile terminal After receiving the acknowledgment signal, the mobile terminal sends the location information of the mobile terminal and the frequency band in which the mobile terminal is located to the server;
- Locating to the base station according to the location information of the mobile terminal includes:
- the base station controller locates the base station according to the location information of the mobile terminal and the frequency band in which the mobile terminal is located.
- the method further comprises:
- the base station controller sends the information of increasing power to the mobile terminal through the server;
- the mobile terminal acquires the current signal strength and transmits the current signal strength to the base station controller through the server.
- the method further comprises:
- the base station controller compares the current signal strength with a preset second signal strength threshold
- the base station controller stops the base station from increasing power, and restores the base station's transmit power to the initial value after a preset time.
- the first signal strength threshold is -101 dbm
- the second signal strength threshold is -102 dbm.
- the preset number threshold is 10.
- the preset time is 5 minutes.
- another technical solution adopted by the present invention is to provide a system for enhancing a network signal, which includes a mobile terminal, a server, and a base station controller, which are sequentially connected, wherein: the mobile terminal acquires the signal strength of the base station, and Comparing the signal strength with a preset first signal strength threshold; if the signal strength is less than the first signal strength threshold, the mobile terminal sends a request for enhancing the network signal to the server, and transmitting the location information of the mobile terminal to the server; Obtaining a request for enhancing the network signal and location information of the mobile terminal from the server, and positioning the base station according to the location information of the mobile terminal; the base station controller determines the number of requests for the enhanced network signal received by the base station, and the number is preset The number threshold is compared; if the number is greater than the number threshold, the base station controller activates the base station to increase power.
- the server further generates an acknowledgment signal according to the request for enhancing the network signal, and sends the acknowledgment signal to the mobile terminal; the mobile terminal sends the location information of the mobile terminal to the server after receiving the acknowledgment signal.
- another technical solution adopted by the present invention is to provide a system for enhancing a network signal, which includes a mobile terminal, a server and a base station controller which are sequentially connected, and the mobile terminal includes a first antenna and a first antenna a baseband chip connected;
- the server includes a second antenna, a first processor, and a memory;
- the first processor is coupled to the second antenna and the memory, respectively;
- the base station controller includes a third antenna and a second processor coupled to the third antenna; among them:
- the baseband chip acquires the signal strength of the base station, and compares the signal strength with a preset first signal strength threshold;
- the first antenna sends a request for enhancing the network signal to the server, and sends the location information of the mobile terminal to the server;
- the first processor acquires the request for enhancing the network signal and the location information of the mobile terminal by using the second antenna, and saves the request for enhancing the network signal and the location information of the mobile terminal in the memory;
- the second processor acquires the request for enhancing the network signal and the location information of the mobile terminal from the server through the third antenna, and locates the base station according to the location information of the mobile terminal;
- the second processor determines the number of requests received by the base station to enhance the network signal, and compares the quantity with a preset number threshold;
- the second processor activates the base station to increase power.
- the first processor further generates an acknowledgment signal according to the request for enhancing the network signal, and sends the acknowledgment signal to the mobile terminal; the baseband chip sends the location information of the mobile terminal to the server after receiving the acknowledgment signal.
- the first antenna sends the location information of the mobile terminal and the frequency band in which the mobile terminal is located to the server after receiving the acknowledgment signal; the second processor locates the base station according to the location information of the mobile terminal and the frequency band in which the mobile terminal is located.
- the third antenna sends the information of increasing power to the mobile terminal through the server; the baseband chip acquires the current signal strength, and sends the current signal strength to the base station controller through the server.
- the second processor compares the current signal strength with a preset second signal strength threshold; if the current signal strength is greater than the second signal strength threshold, the second processor stops the base station from increasing power, and is preset After the time, the base station's transmit power is restored to the initial value.
- the first signal strength threshold is -101 dbm
- the second signal strength threshold is -102 dbm.
- the preset number threshold is 10.
- the preset time is 5 minutes.
- the invention has the beneficial effects that the present invention obtains the request for enhancing the network signal and the location information of the mobile terminal from the server through the base station controller, and locates the base station according to the location information of the mobile terminal; the base station controller is different from the prior art. Determining the number of requests received by the base station to enhance the network signal, and comparing the quantity with a preset number threshold; if the quantity is greater than the quantity threshold, the base station controller starts the base station to increase power; by using the foregoing manner, the base station controller can temporarily adjust The transmit power of the base station is enhanced to enhance the signal received by the mobile terminal, improving the signal difference of the mobile terminal, and improving the user experience.
- FIG. 1 is a schematic structural diagram of a system for enhancing a network signal according to a first embodiment of the present invention
- FIG. 2 is a schematic diagram of signal coverage of a base station in FIG. 1;
- FIG. 3 is a schematic structural diagram of a system for enhancing a network signal according to a third embodiment of the present invention.
- FIG. 4 is a flow chart of a method for enhancing a network signal according to a first embodiment of the present invention
- Figure 5 is a flow chart of a method of enhancing a network signal in accordance with a second embodiment of the present invention.
- FIG. 1 is a schematic structural diagram of a system for enhancing a network signal according to a first embodiment of the present invention
- FIG. 2 is a schematic diagram of a signal coverage range of the base station of FIG.
- the system for enhancing network signals disclosed in this embodiment includes a mobile terminal 11, a server 12, a base station controller 13, and a base station 14, wherein the mobile terminal 11 establishes a connection with the server 12, and the base station controller 13 and the server 12 Establishing a connection, the base station controller 13 Used to control a plurality of base stations 14.
- the mobile terminal 11 is in the signal coverage of the base station 14, the mobile terminal 11 establishes a connection with the base station 14, and the mobile terminal 11 performs two-way communication with the base station 14 to enable the mobile terminal 11 to implement functions such as voice calls.
- the mobile terminal 11 establishes a connection with the server 12 via a WiFi or Bluetooth wireless connection
- the base station controller 13 establishes a connection with the server 12 via a wireless connection.
- the signal coverage of the base station 14 includes a plurality of sectors.
- the base station 14 includes three sectors, which are an A zone, a B zone, and a C zone.
- the carrier frequency divided by each sector is the number of carrier frequencies.
- a zone, B zone and C zone are configured according to 4/5/3, that is, zone A has 4 carrier frequencies, and zone B has 5 carrier frequencies, C
- the zone has 3 carrier frequencies.
- Each sector can determine the number of carrier frequencies according to the amount of traffic, and the carrier frequency (carrier) configuration of each sector is up to 12.
- the signal strength transmitted by the base station 14 determines the signal strength of the downlink channel
- the signal strength transmitted by the mobile terminal 11 determines the signal strength of the uplink channel
- the signal strength of the uplink channel is determined by the downlink channel signal.
- the transmit signal strength of the base station 14 is related to the transmit power of the base station 14, and the signal strength and the transmit power satisfy the following formula:
- Dbm is the transmitted signal strength of the base station 14
- P is the transmit power of the base station 14
- P needs to convert the unit into mw, for example, the base station 14 has a transmit power of 10w, converts 10w to 10000mw, and substitutes 10000mw into the above formula P value.
- the transmitted signal strength of the base station 14 is obtained.
- the mobile terminal 11 acquires the signal strength of the base station 14 and compares the signal strength with a preset first signal strength threshold.
- the mobile terminal 11 acquires the signal strength of the base station 14 by using getSignalStrengthDbm() in the PhoneStateIntentReceiver, and the signal strength of the base station 14 is obtained. Compare with a preset first signal strength threshold.
- the first signal strength threshold is preferably -101 dbm.
- the mobile terminal 11 transmits a request to enhance the network signal to the server 12 and transmits the location information of the mobile terminal 11 to the server 12. That is, the mobile terminal 11 determines that the signal strength is less than the first signal strength threshold, and generates a request for enhancing the network signal, that is, the mobile terminal 11 starts the pingService (ping service), and creates a thread to send a ping request (ie, a request for enhancing the network signal) to The server 12 is configured to cause the mobile terminal 11 to transmit an enhanced network signal to the server 12. After the mobile terminal 11 transmits an enhanced network signal to the server 12, the mobile terminal 11 acquires its own location information and transmits the location information to the server 12.
- the location information of the mobile terminal 11 includes coordinate data.
- the mobile terminal 11 further acquires rssi (Received Signal Strength) Indication, received signal strength indication data and mobile terminal 11 operating frequency band information, and rssi data and working frequency band information are transmitted to the server 12.
- rssi Receiveived Signal Strength
- the mobile terminal 11 determines that the signal strength is greater than or equal to the first signal strength threshold, the mobile terminal 11 acquires the signal strength of the base station 14 and compares the signal strength with a preset first signal strength threshold.
- the base station controller 13 acquires the request for enhancing the network signal and the location information of the mobile terminal 11 from the server 12, and locates the base station 14 based on the location information of the mobile terminal 11.
- the base station controller 13 receives the request for enhancing the network signal and the location information of the mobile terminal 11, the base station controller 13 searches for the base station 14 where the mobile terminal 11 is located according to the location information of the mobile terminal 11, that is, the base station controller 13 according to the mobile station.
- the location information of the terminal 11 finds the base station 14 closest to the mobile terminal 11.
- the base station controller 13 determines the number of requests received by the base station 14 to augment the network signal and compares the number with a preset number threshold.
- the base station controller 13 counts the number of requests that the base station 14 receives the enhanced network signal, that is, the base station controller 13 counts the base station 14 receiving the request for the multiple enhanced network signals, and the requests for the multiple enhanced network signals are preferably different mobiles.
- the preset number threshold is 10.
- the base station controller 13 activates the base station 14 to increase power. If the number is greater than the number threshold, the base station controller 13 activates the base station 14 to increase power. If the base station controller 13 determines that the number of requests for the enhanced network signal received by the base station 14 is greater than the number threshold, the base station controller 13 activates the base station 14 to increase the power, that is, the base station controller 13 activates the preset enhanced power mechanism. The base station 14 activates the enhanced power mechanism, that is, enhances the transmit power of the base station 14, thereby increasing the signal strength of the base station 14, so as to enhance the signal received by the mobile terminal 11, improve the signal difference of the mobile terminal 11, and improve the user experience.
- the base station controller 13 determines that the number of requests for the enhanced network signal received by the base station 14 is less than or equal to the number threshold, the base station controller 13 returns to the base station controller 14 to determine the number of requests for the enhanced network signal received by the base station 14, and the number and the pre- Set the number threshold to compare.
- the present invention also provides a system for enhancing a network signal of the second embodiment, which is described on the basis of the system for enhancing a network signal disclosed in the first embodiment.
- the server 12 After receiving the request for the enhanced network signal sent by the mobile terminal 11, the server 12 generates an acknowledgment signal according to the request of the enhanced network signal, and sends an acknowledgment signal to the mobile terminal 11; the mobile terminal 11 will move after receiving the acknowledgment signal.
- the location information of the terminal 11 is transmitted to the server 12.
- the mobile terminal 11 transmits the location information of the mobile terminal 11 and the frequency band in which the mobile terminal 11 is located to the server 12 after receiving the acknowledgment signal; the base station controller 13 according to the location information of the mobile terminal 11 and the mobile terminal
- the frequency band in which the 11 is located is located to the base station 14, that is, when the mobile terminal 11 has a plurality of base stations 14 in different frequency bands, the mobile terminal 11 further locates the base station 14 according to the frequency band in which the mobile terminal 11 is located, so as to improve the positioning accuracy of the base station controller 13. .
- the base station controller 13 transmits the information of the increased power to the mobile terminal 11 through the server 12.
- the information of the increased power includes a request for the signal strength reported by the mobile terminal 11, and the base station controller 13 sends a request for reporting the signal strength of the mobile terminal 11 to the mobile terminal 11 through the server 12.
- the mobile terminal 11 acquires the current signal strength and transmits the current signal strength to the base station controller 13 through the server 12. After receiving the information of the increased power, the mobile terminal 11 acquires the current signal strength in real time according to the request of the signal strength reported by the mobile terminal 11, and sends the current signal strength to the base station controller 13 through the server 12.
- the base station controller 13 compares the current signal strength with a preset second signal strength threshold; if the current signal strength is greater than the second signal strength threshold, the base station controller 13 stops the base station 14 from increasing power and at a preset time. The transmission power of the base station 14 is then restored to the initial value. That is, if the base station controller 13 determines that the current signal strength is greater than the second signal strength threshold, the base station controller 13 stops the base station 14 from increasing power, that is, the base station 14 stops the preset enhanced power mechanism, and stops increasing the transmission power.
- the base station controller 13 restores the transmission power of the base station 14 to an initial value after a preset time, that is, the base station controller 13 sends a message to the base station 14 to restore the transmission power to the initial value after a preset time.
- the preset time is 5 minutes.
- the return base station controller 13 compares the current signal strength with a preset second signal strength threshold.
- the preset second signal strength threshold is preferably -102 dbm.
- the base station controller 13 in this embodiment controls the base station 14 to return to the initial value within a preset time, and can ensure that the output power of the base station 14 does not affect other base stations in the cell. Or the signal generates interference, thereby better solving the problem that the signal of the mobile terminal 11 is not good.
- the present invention also provides a system for enhancing a network signal of the third embodiment, which is described on the basis of the system for enhancing a network signal disclosed in the first embodiment.
- the mobile terminal 11 includes a first antenna 111 and a baseband chip 112 connected to the first antenna 111.
- the server 12 includes a second antenna 121, a first processor 122, and a memory 123.
- the first processor 122 respectively The second antenna 121 is connected to the memory 123;
- the base station controller 13 includes a third antenna 131 and a second processor 132 connected to the third antenna 131;
- the base station 14 includes a fourth antenna 141 and a third process connected to the fourth antenna 141 143.
- the first antenna 111 and the third antenna 131 respectively establish a connection with the second antenna 121 to establish a connection between the mobile terminal 11 and the server 12, and the base station controller 13 establishes a connection with the server 12; the fourth antenna 141 and the third antenna 131 Establish a connection to enable the base station controller 13 It is used to control the base station 14; the first antenna 111 and the fourth antenna 141 establish a connection to enable the mobile terminal 11 to perform bidirectional communication with the base station 14.
- the baseband chip 112 obtains the signal strength of the base station 14, and compares the signal strength with a preset first signal strength threshold.
- the baseband chip 112 acquires the signal strength of the base station 14 by using getSignalStrengthDbm() in the PhoneStateIntentReceiver, and the signal strength of the base station 14. Compare with a preset first signal strength threshold.
- the baseband chip 112 transmits a request for enhancing the network signal to the server 12 through the first antenna 111, and transmits the location information of the mobile terminal 11 to the server 12 through the first antenna 111.
- the first processor 122 acquires the request for enhancing the network signal and the location information of the mobile terminal 11 through the second antenna 121, and stores the request for enhancing the network signal and the location information of the mobile terminal 11 in the memory 123.
- the second processor 132 acquires the request for enhancing the network signal and the location information of the mobile terminal 11 from the server 12 through the third antenna 131, and locates the base station 14 according to the location information of the mobile terminal 11.
- the second processor 132 further determines the number of requests received by the base station 14 to enhance the network signal and compares the number to a predetermined number threshold. If the second processor 132 determines that the number is greater than the number threshold, the second processor 132 activates the base station 14 to increase power through the third antenna 131.
- the third processor 142 obtains an instruction to increase power through the fourth antenna 141, and then the third processor 142 starts a preset enhanced power mechanism, that is, enhances the transmit power of the fourth antenna 141, thereby increasing the signal strength of the base station 14 to The signal received by the first antenna 111 is enhanced, the problem of the signal difference of the mobile terminal 11 is improved, and the user experience is improved.
- the present invention also provides a method for enhancing a network signal according to the first embodiment.
- the method for enhancing a network signal disclosed in this embodiment is applied to the system for enhancing a network signal.
- the method for enhancing a network signal includes:
- Step S31 The mobile terminal 11 acquires the signal strength of the base station 14 and compares the signal strength with a preset first signal strength threshold.
- the mobile terminal 11 is located in the signal coverage range of the base station 14, and the signal strength of the base station 14 is the above-mentioned transmitted signal strength.
- the mobile terminal 11 acquires the signal strength of the base station 14 by using getSignalStrengthDbm() in the PhoneStateIntentReceiver, and compares the signal strength of the base station 14 with a preset first signal strength threshold.
- the first signal strength threshold is preferably -101 dbm.
- Step S32 If the signal strength is less than the first signal strength threshold, the mobile terminal 11 sends a request to enhance the network signal to the server 12, and transmits the location information of the mobile terminal 11 to the server 12;
- the mobile terminal 11 determines that the signal strength is less than the first signal strength threshold, and generates a request for enhancing the network signal, that is, the mobile terminal 11 starts the pingService, and creates a thread, and sends a ping request to the server 12, so that the mobile terminal 11 sends the enhanced network.
- the signal is forced to the server 12.
- the mobile terminal 11 After the mobile terminal 11 transmits an enhanced network signal to the server 12, the mobile terminal 11 acquires its own location information and transmits the location information to the server 12.
- the location information of the mobile terminal 11 includes coordinate data.
- the mobile terminal 11 further acquires the rssi data and the working frequency band information of the mobile terminal 11, and transmits the rssi data and the working frequency band information to the server 12.
- the mobile terminal 11 determines that the signal strength is greater than or equal to the first signal strength threshold, it returns to step S31.
- Step S33 The base station controller 13 acquires the request for enhancing the network signal and the location information of the mobile terminal 11 from the server 12, and locates the base station 14 according to the location information of the mobile terminal 11;
- the base station controller 13 When the base station controller 13 receives the request for enhancing the network signal and the location information of the mobile terminal 11, the base station controller 13 searches for the base station 14 where the mobile terminal 11 is located according to the location information of the mobile terminal 11, that is, the base station controller 13 according to the mobile station. The location information of the terminal 11 finds the base station 14 closest to the mobile terminal 11.
- Step S34 The base station controller 13 determines the number of requests that the base station 14 receives the enhanced network signal, and compares the quantity with a preset number threshold;
- the base station controller 13 counts the number of requests that the base station 14 receives the enhanced network signal, that is, the base station controller 13 counts the base station 14 receiving the request for the multiple enhanced network signals, and the requests for the multiple enhanced network signals are preferably different mobiles.
- the preset number threshold is 10.
- Step S35 If the number is greater than the quantity threshold, the base station controller 13 starts the base station 14 to increase the power;
- the base station controller 13 determines that the number of requests for the enhanced network signal received by the base station 14 is greater than the number threshold, the base station controller 13 activates the base station 14 to increase the power, that is, the base station controller 13 activates the enhanced power mechanism preset by the base station 14.
- the base station 14 activates the enhanced power mechanism, that is, enhances the transmit power of the base station 14, thereby increasing the signal strength of the base station 14, so as to enhance the signal received by the mobile terminal 11, improve the signal difference of the mobile terminal 11, and improve the user experience.
- the base station controller 13 determines that the number of requests for the enhanced network signal received by the base station 14 is less than or equal to the number threshold, then returns to step S34.
- the present invention also provides a method of enhancing a network signal of the second embodiment, which is described on the basis of the method of enhancing a network signal disclosed in the first embodiment.
- the method for enhancing a network signal disclosed in this embodiment includes the following steps:
- Steps S41-S45 are the same as steps S31-S35 of the above embodiment, and are not described herein again;
- Step S46 the base station controller 13 transmits the information of the increased power to the mobile terminal 11 through the server 12;
- Step S47 the mobile terminal 11 acquires the current signal strength, and transmits the current signal strength to the base station controller 13 through the server 12;
- Step S48 the base station controller 13 compares the current signal strength with a preset second signal strength threshold
- Step S49 If the current signal strength is greater than the second signal strength threshold, the base station controller 13 stops the base station 14 from increasing the power, and restores the transmit power of the base station 14 to the initial value after a preset time.
- step S42 after receiving the request for the enhanced network signal transmitted by the mobile terminal 11, the server 12 generates an acknowledgment signal according to the request of the enhanced network signal, and transmits an acknowledgment signal to the mobile terminal 11; the mobile terminal 11 receives the acknowledgment signal.
- the location information of the mobile terminal 11 is then transmitted to the server 12.
- the mobile terminal 11 transmits the location information of the mobile terminal 11 and the frequency band in which the mobile terminal 11 is located to the server 12 after receiving the acknowledgment signal; in step S43, the base station controller 13 according to the mobile terminal 11
- the location information and the frequency band in which the mobile terminal 11 is located are located to the base station 14, that is, when the mobile terminal 11 has a plurality of base stations 14 of different frequency bands, the mobile terminal 11 further locates to the base station 14 according to the frequency band in which the mobile terminal 11 is located to improve base station control.
- step S46 the information of the increased power includes a request for the signal strength reported by the mobile terminal 11, and the base station controller 13 transmits a request for reporting the signal strength of the mobile terminal 11 to the mobile terminal 11 via the server 12.
- step S47 after receiving the information of increasing power, the mobile terminal 11 acquires the current signal strength in real time according to the request of the signal strength reported by the mobile terminal 11, and transmits the current signal strength to the base station controller 13 through the server 12.
- the preset second signal strength threshold is preferably -102 dbm.
- step S49 if the base station controller 13 determines that the current signal strength is greater than the second signal strength threshold, the base station controller 13 stops the base station 14 from increasing power, that is, the base station 14 stops the preset enhanced power mechanism, and stops increasing the transmission power. .
- the base station controller 13 restores the transmission power of the base station 14 to an initial value after a preset time, that is, the base station controller 13 sends a message to the base station 14 to restore the transmission power to the initial value after a preset time.
- the preset time is 5 minutes.
- step SS47 If the base station controller 13 determines that the current signal strength is less than or equal to the second signal strength threshold, the process returns to step SS47.
- the base station controller 13 in this embodiment controls the base station 14 to return to the initial value within a preset time, and can ensure that the output power of the base station 14 does not affect other base stations in the cell. Or the signal generates interference, thereby better solving the problem that the signal of the mobile terminal 11 is not good.
- the mobile terminal 11 is preferably a mobile terminal such as a smartphone or a tablet.
- the present invention acquires the request for enhancing the network signal and the location information of the mobile terminal 11 from the server 12 through the base station controller 13, and locates the base station 14 according to the location information of the mobile terminal 11; the base station controller 13 determines the base station 14 Receiving the number of requests for enhancing the network signal, and comparing the number with a preset number threshold; if the number is greater than the number threshold, the base station controller 13 activates the base station 14 to increase power; in the above manner, the base station controller 13 can temporarily adjust The transmission power of the base station 14 enhances the signal received by the mobile terminal 11, improves the problem of the signal difference of the mobile terminal 11, and improves the user experience.
- the base station controller 13 controls the base station 14 to return to the initial value within a preset time, which can ensure that the output power of the base station 14 does not interfere with other base stations or signals in the cell, thereby better solving the problem that the mobile terminal 11 is not good. The problem.
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Claims (18)
- 一种增强网络信号的方法,其中,所述方法应用于增强网络信号的系统,所述系统包括依次连接的移动终端、服务器以及基站控制器,所述方法包括:所述移动终端获取基站的信号强度,并将所述信号强度与预设的第一信号强度阈值进行比较;若所述信号强度小于所述第一信号强度阈值,则所述移动终端发送增强网络信号的请求至所述服务器,并将所述移动终端的位置信息发送至所述服务器;所述基站控制器从所述服务器获取所述增强网络信号的请求和所述移动终端的位置信息,并根据所述移动终端的位置信息定位到所述基站;所述基站控制器判断所述基站所接收到增强网络信号的请求的数量,并将所述数量与预设的数量阈值进行比较;若所述数量大于所述数量阈值,则所述基站控制器启动所述基站增加功率。
- 根据权利要求1所述的方法,其中,所述移动终端发送增强网络信号的请求至所述服务器,并将所述移动终端的位置信息发送至所述服务器进一步包括:所述服务器根据所述增强网络信号的请求生成确认信号,并将所述确认信号发送至所述移动终端;所述移动终端在接收到所述确认信号后将所述移动终端的位置信息发送至所述服务器。
- 根据权利要求2所述的方法,其中,所述移动终端在接收到所述确认信号后将所述移动终端的位置信息发送至所述服务器进一步包括:所述移动终端在接收到所述确认信号后将所述移动终端的位置信息和所述移动终端所在的频段发送至所述服务器;所述根据所述移动终端的位置信息定位到所述基站包括:所述基站控制器根据所述移动终端的位置信息和所述移动终端所在的频段定位到所述基站。
- 根据权利要求2所述的方法,其中,所述方法进一步包括:所述基站控制器将增加功率的信息通过所述服务器发送至所述移动终端;所述移动终端获取当前的信号强度,并将所述当前的信号强度通过所述服务器发送至所述基站控制器。
- 根据权利要求4所述的方法,其中,所述方法进一步包括:所述基站控制器将所述当前的信号强度与预设的第二信号强度阈值进行比较;若所述当前的信号强度大于所述第二信号强度阈值,则所述基站控制器停止所述基站增加功率,并在预设的时间后将所述基站的发射功率恢复到初始值。
- 根据权利要求5所述的方法,其中,所述第一信号强度阈值为-101dbm,所述第二信号强度阈值为-102dbm。
- 根据权利要求5所述的方法,其中,所述预设的数量阈值为10。
- 根据权利要求5所述的方法,其中,所述预设的时间为5分钟。
- 一种增强网络信号的系统,其中,所述系统包括依次连接的移动终端、服务器以及基站控制器,其中:所述移动终端获取基站的信号强度,并将所述信号强度与预设的第一信号强度阈值进行比较;若所述信号强度小于所述第一信号强度阈值,则所述移动终端发送增强网络信号的请求至所述服务器,并将所述移动终端的位置信息发送至所述服务器;所述基站控制器从所述服务器获取所述增强网络信号的请求和所述移动终端的位置信息,并根据所述移动终端的位置信息定位到所述基站;所述基站控制器判断所述基站所接收到增强网络信号的请求的数量,并将所述数量与预设的数量阈值进行比较;若所述数量大于所述数量阈值,则所述基站控制器启动所述基站增加功率。
- 根据权利要求9所述的系统,其中,所述服务器进一步根据所述增强网络信号的请求生成确认信号,并将所述确认信号发送至所述移动终端;所述移动终端在接收到所述确认信号后将所述移动终端的位置信息发送至所述服务器。
- 一种增强网络信号的系统,其中,所述系统包括依次连接的移动终端、服务器以及基站控制器,所述移动终端包括第一天线和与第一天线连接的基带芯片;所述服务器包括第二天线、第一处理器以及存储器;所述第一处理器分别与所述第二天线和所述存储器连接;所述基站控制器包括第三天线和与所述第三天线连接的第二处理器;其中:所述基带芯片获取基站的信号强度,并将所述信号强度与预设的第一信号强度阈值进行比较;若所述信号强度小于所述第一信号强度阈值,则所述第一天线发送增强网络信号的请求至所述服务器,并将所述移动终端的位置信息发送至所述服务器;所述第一处理器通过所述第二天线获取所述增强网络信号的请求和所述移动终端的位置信息,并将所述增强网络信号的请求和所述移动终端的位置信息保存在所述存储器中;所述第二处理器通过所述第三天线从所述服务器获取所述增强网络信号的请求和所述移动终端的位置信息,并根据所述移动终端的位置信息定位到所述基站;所述第二处理器判断所述基站所接收到增强网络信号的请求的数量,并将所述数量与预设的数量阈值进行比较;若所述数量大于所述数量阈值,则所述第二处理器启动所述基站增加功率。
- 根据权利要求11所述的系统,其中,所述第一处理器进一步根据所述增强网络信号的请求生成确认信号,并将所述确认信号发送至所述移动终端;所述基带芯片在接收到所述确认信号后将所述移动终端的位置信息发送至所述服务器。
- 根据权利要求12所述的系统,其中,所述第一天线在接收到所述确认信号后将所述移动终端的位置信息和所述移动终端所在的频段发送至所述服务器;所述第二处理器根据所述移动终端的位置信息和所述移动终端所在的频段定位到所述基站。
- 根据权利要求12所述的系统,其中,所述第三天线将增加功率的信息通过所述服务器发送至所述移动终端;所述基带芯片获取当前的信号强度,并将所述当前的信号强度通过所述服务器发送至所述基站控制器。
- 根据权利要求14所述的系统,其中,所述第二处理器将所述当前的信号强度与预设的第二信号强度阈值进行比较;若所述当前的信号强度大于所述第二信号强度阈值,则所述第二处理器停止所述基站增加功率,并在预设的时间后将所述基站的发射功率恢复到初始值。
- 根据权利要求15所述的系统,其中,所述第一信号强度阈值为-101dbm,所述第二信号强度阈值为-102dbm。
- 根据权利要求15所述的系统,其中,所述预设的数量阈值为10。
- 根据权利要求15所述的系统,其中,所述预设的时间为5分钟。
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CN110234132B (zh) * | 2019-06-25 | 2023-03-14 | 上海创功通讯技术有限公司 | 恢复网络的方法、系统、服务器、终端和存储介质 |
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