CN103237339A - Method, equipment and system for controlling slot time - Google Patents
Method, equipment and system for controlling slot time Download PDFInfo
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- CN103237339A CN103237339A CN201310160657XA CN201310160657A CN103237339A CN 103237339 A CN103237339 A CN 103237339A CN 201310160657X A CN201310160657X A CN 201310160657XA CN 201310160657 A CN201310160657 A CN 201310160657A CN 103237339 A CN103237339 A CN 103237339A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The invention provides a method, equipment and a system for controlling a slot time. The method for controlling the slot time comprises steps: determining a time span of a carrier frequency slot time of a multi-carrier module from a dormant mode to an available mode through a base station; and controlling the carrier frequency slot time of the multi-carrier module and the carrier slot time of the multi-carrier module through the base station according to the time span and the slot time occupation information of the multi-carrier module. The method of the embodiment of the invention can be adopted to solve a radio frequency index deterioration problem of the multi-carrier module when the base station dynamically turns off the available carrier frequency slot time of the multi-carrier module in an activated state.
Description
Technical field
The present invention relates to the communications field, relate in particular to control time slot method, equipment and system.
Background technology
Multi-Carrier basestation has integrated level height, advantage that Energy Efficiency Ratio is high, at global system for mobile communications (Global System for Mobile communications, GSM) use multi-transceiver technology in the networking, can reduce capital expenditure (the Capital Expenditure that carrier network is built, CAPEX), realize simultaneously network operation low running cost (Operating Expenditure, OPEX).
As shown in Figure 1, existing multicarrier energy-saving technical scheme is according to the static configuration parameter of base station controller to Multi-Carrier basestation, calculate possible peak power output by the multicarrier module in the operation back that powers on, the carrier frequency power amplifier drain voltage is adjusted to predefined magnitude of voltage, carry out disposable static voltage adjustment of the power amplifier.But concerning the GSM base station, the channel modulation mode of each carrier wave, channel power size and channel occupancy situation are constantly to change, the words that power amplifier voltage is no longer dynamically adjusted after the base station powers on, when the control of base station down power is had an effect, the efficient of the power amplification efficiency relatively high-power output of power amplifier when low-power is exported can significantly glide, and causes the GSM network energy efficiency to descend.
Simultaneously, existing energy-saving technical scheme is when the multicarrier module is used, and the power amplifier voltage that dynamically turn-offs the idle time slot of multicarrier module can cause the radio-frequency transmissions index of multicarrier module to worsen, and can not realize the reduction of power amplifier quiescent dissipation.
Summary of the invention
The embodiment of the invention provides control time slot method and equipment.The scheme that the embodiment of the invention provides comprises:
The embodiment of the invention provides control time slot method and equipment, and for this reason, the scheme that the embodiment of the invention provides also comprises:
A kind of control time slot method comprises:
The carrier time slot that the multicarrier module is determined in the base station required time span from the resting state to the upstate; According to the Time Slot Occupancy information of described time span and described multicarrier module, the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station; Wherein, the carrier time slot of described multicarrier module is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves; The carrier wave time slot of described multicarrier module is different carrier time slot corresponding in the carrier time slot of described multicarrier module; The time slot state that but described resting state is the carrier frequency breaking circuit of described carrier time slot when being turned off; Described upstate is the carrier frequency output radio-frequency (RF) index time slot state just often of described carrier time slot.
The base station comprises:
Time length determination unit, the carrier time slot of multicarrier module that be used for to determine described base station required time span from the resting state to the upstate; Time Slot Occupancy information determining unit is for the Time Slot Occupancy information of the described multicarrier module of determining described base station; The time slot control unit is used for the Time Slot Occupancy information of the described multicarrier module that the described time span determined according to time length determination unit and described Time Slot Occupancy information determining unit determine, controls carrier time slot and the carrier wave time slot of described multicarrier module; Wherein, the carrier time slot of described multicarrier module is the time slot row that different carrier has identical timeslot number in the described multicarrier module; The carrier wave time slot of described multicarrier module is different carrier time slot corresponding in the carrier time slot of described multicarrier module; Described resting state is the time slot state of carrier time slot when but the carrier frequency breaking circuit of described multicarrier module is turned off of described multicarrier module; Described upstate is that the carrier time slot of described multicarrier module is at the carrier frequency output radio-frequency (RF) index time slot state just often of described multicarrier module.
A kind of control time slot method comprises:
Be in timeslot number and the interior carrier number that disposes of described multicarrier module of the carrier wave time slot of idle condition in the multicarrier module of base station controller acquisition base station; When described timeslot number during greater than described carrier number, described base station controller send comprise control information message to described base station, described control information is indicated described base station that business is taken and is focused on the continuous carrier time slot of timeslot number in the described multicarrier module; Wherein, described carrier time slot is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves; Different carrier time slot corresponding in the carrier time slot that described carrier wave time slot is described multicarrier module.
Base station controller comprises:
Information acquisition unit is for the timeslot number of the carrier wave time slot that is in idle condition in the multicarrier module that obtains the base station and the carrier number of the interior configuration of described multicarrier module; Comparing unit is used for described timeslot number that more described information acquisition unit obtains and the size of described carrier number; The control information transmitting element, be used for when the more described timeslot number of described comparing unit during greater than described carrier number, transmission comprises the message of control information to described base station, and described control information is indicated described base station that business is taken and focused on the continuous carrier time slot of timeslot number in the described multicarrier module; Wherein, described carrier time slot is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves; Different carrier time slot corresponding in the carrier time slot that described carrier wave time slot is described multicarrier module.
A kind of communication system comprises: the base station described in above-mentioned control time slot method.
Adopt the method in the present embodiment, the base station is determined to be assigned with the such a period of time length of state that regular traffic is carried in professional back to this carrier time slot after carrier time slot is activated from resting state, this time span also is that multicarrier module dormant circuit returns to the needed time span of operating state, Time Slot Occupancy information according to this time span and multicarrier module, the carrier time slot of multicarrier module and the idle carrier time slot that the carrier wave time slot carries out traffic assignments or cutoff is in state of activation when being in the idle carrier time slot of state of activation can be controlled in the base station, solve the base station and dynamically turn-offed the idle carrier time slot that the multicarrier module is in state of activation, can cause the problem of the radio-frequency (RF) index deterioration of multicarrier module.Further, by turn-offing the idle carrier time slot that is in state of activation that can turn-off, can be so that the part carrier time slot of multicarrier module enters resting state, reduced the number of timeslots that the multicarrier module is in state of activation, reduce the power consumption of multicarrier module, realized the energy-conservation of multicarrier module.
Description of drawings
In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the flow chart that power amplifier voltage is set in the existing multicarrier energy-saving technical scheme;
Fig. 2 is a kind of method flow diagram of regulating power amplifier voltage of the embodiment of the invention;
Fig. 3 is the structural representation of a kind of base station of the embodiment of the invention;
Fig. 4 is the structural representation of a kind of power amplifier voltage determining unit of the embodiment of the invention;
Fig. 5 is the structural representation of a kind of communication system of the embodiment of the invention;
Fig. 6 is the carrier time slot of the embodiment of the invention and a kind of schematic diagram that concerns of carrier wave time slot;
Fig. 7 is the method flow diagram of another control Time Slot Occupancy of the embodiment of the invention;
Fig. 8 is the structural representation of another base station of the embodiment of the invention;
Fig. 9 is the structural representation of a kind of base station controller of the embodiment of the invention;
Figure 10 is the structural representation of another communication system of the embodiment of the invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.
Because the multicarrier energy-saving technical scheme of prior art is static judgement base station carrier configuration information just, because the channel modulation mode of each carrier wave, channel power size and channel occupancy situation are constantly to change, if power amplifier voltage is no longer dynamically adjusted after the base station powers on, when the control of base station down power is had an effect, significantly gliding can appear in the efficient of the power amplification efficiency relative full power output state of power amplifier when low-power is exported, and causes the GSM network energy efficiency to descend.
The embodiment of the invention provides the method for adjusting power amplifier voltage, and comprising: according to the relation between carrier power control information and power amplifier power output and the power amplification efficiency, the power amplifier voltage in timing statistics cycle is determined in the base station; The power amplifier voltage in the previous described timing statistics cycle in the described timing statistics cycle at selection current point in time place is the target power amplifier voltage; According to described target power amplifier voltage, adjust the power amplifier voltage of current point in time; Wherein, described multicarrier module power amplifier works in linear amplification region in the described timing statistics cycle.
Adopt the method in the embodiment of the invention, the multicarrier module of base station is in power amplifier works in linear amplification region the time, the base station is according to the relation between power amplifier power output and the power amplification efficiency, by the power amplifier voltage of timing statistics in the cycle and the power amplifier voltage of relatively adjusting current point in time of the power amplifier voltage of current point in time, thereby power amplifier voltage can be realized adjusting dynamically in the base station after powering on.Further, know according to the relation between power amplifier power output and the power amplification efficiency, the multicarrier module of base station is in power amplifier works in linear amplification region the time, when the power amplifier power output reduces, appropriateness reduces the power amplifier voltage of current point in time, the power amplifier gain range is constant substantially, thereby can make the efficient of power amplifier get a promotion by reducing power amplifier voltage.
For ease of describing, embodiments of the invention have adopted with the GSM Multi-Carrier basestation and have been described as object lesson.
Be described further below in conjunction with concrete execution mode and accompanying drawing.
As shown in Figure 2, a kind of method of adjusting power amplifier voltage of the embodiment of the invention comprises:
2100: according to the relation between described carrier power control information and described power amplifier power output and the power amplification efficiency, determine first power amplifier voltage and second power amplifier voltage in the second timing statistics cycle in the first timing statistics cycle; Wherein, the described first timing statistics cycle is less than the described second timing statistics cycle.
After the base station powers on operation, when the multicarrier module power amplifier of base station works in linear amplification region, the multicarrier module of base station can be from certain time point, calculate the multicarrier module in the power output size of each timing statistics each working time slot in the cycle according to the carrier power control information, according to the power output of timing statistics each working time slot in the cycle, determine the average output power size of the power amplifier in each timing statistics cycle; After this, according to power amplifier power output and the power amplification efficiency curve average output power in conjunction with multicarrier module power amplifier, the multicarrier module can be determined the power amplifier voltage of the average output power in corresponding each timing statistics cycle.Wherein, the carrier power control information can comprise carrier wave rate of static power, dynamic power grade, carrier power amplifier switch, carrier power configuration information, Channel Modulation type and number of carriers etc.The timing statistics cycle can be predefined two timing statistics cycles independently, also i.e. the first timing statistics cycle and the second timing statistics cycle.The second timing statistics cycle, for example the first timing statistics cycle can be about 3 seconds greater than the first timing statistics cycle, and the second timing statistics cycle can be about 3 minutes.The multicarrier module of base station is determined in each first timing statistics cycle respectively and the power output size of interior each working time slot of each second timing statistics cycle, according to the power output of each first timing statistics cycle and each second timing statistics each working time slot in the cycle, determine at first power amplifier voltage of the average power size correspondence of each first timing statistics in the cycle and at average power size corresponding second power amplifier voltage of each second timing statistics in the cycle.The first timing statistics cycle can make the adjustment of power amplifier operating voltage be quick rise, downward modulation at a slow speed less than the second timing statistics cycle, and is little to network quality affects.
2200: selecting the power amplifier voltage in the previous described first timing statistics cycle in the first timing statistics cycle at described current point in time place is the first target power amplifier voltage; Selecting the power amplifier voltage in the previous described second timing statistics cycle in the second timing statistics cycle at described current point in time place is the second target power amplifier voltage.
The multicarrier module of base station is in the interval work of power amplifier linear work, when the power amplifier power output reduces, reduce power amplifier voltage, the power amplifier gain range is constant substantially, reducing power amplifier voltage like this makes the efficient of power amplifier get a promotion, therefore, the power amplifier voltage in the previous timing statistics cycle in the timing statistics cycle at the power amplifier voltage place of embodiment of the invention use current point in time is adjusted the power amplifier voltage of current point in time.Because the timing statistics cycle can be the first timing statistics cycle and the second timing statistics cycle, accordingly, can claim that the power amplifier voltage in the previous described first timing statistics cycle in the first timing statistics cycle at current point in time place is the first target power amplifier voltage, and the power amplifier voltage in the previous described second timing statistics cycle in the second timing statistics cycle at current point in time place is the second target power amplifier voltage.
2300: when the power amplifier voltage of described current time during less than the described first target power amplifier voltage, raise the power amplifier voltage of described current point in time to the described first target power amplifier voltage; When the power amplifier voltage of described current time during greater than the described second target power amplifier voltage, reduce the power amplifier voltage of described current point in time to the described second target power amplifier voltage.
When the power amplifier voltage of the first target power amplifier voltage greater than current point in time, the multicarrier module raises the power amplifier voltage of current point in time to the first target power amplifier voltage, upgrades the descending pre-distortion parameters of transmission channel simultaneously; When the power amplifier voltage of the second target power amplifier voltage less than current point in time, the power amplifier voltage of multicarrier module downward modulation current point in time upgrades the descending pre-distortion parameters of transmission channel simultaneously to the second target power amplifier voltage; When the target power amplifier voltage equals the power amplifier voltage of current point in time, the multicarrier module is not regulated the power amplifier voltage of current point in time, keeps the descending pre-distortion parameters of original transmission channel simultaneously.Can be the first timing statistics cycle and the second timing statistics cycle at the timing statistics cycle, if the power amplifier voltage of current time is during less than the first target power amplifier voltage, raise the power amplifier voltage of current point in time to the first target power amplifier voltage, if but the power amplifier voltage of current time is during greater than the first target power amplifier voltage, because first timing statistics is very short cycle time, at this moment, can not raise the power amplifier voltage of current point in time to the first target power amplifier voltage; If the power amplifier voltage of current time during greater than the second target power amplifier voltage, can be reduced the power amplifier voltage of current point in time to the second target power amplifier voltage.
Adopt the method in the embodiment of the invention, the multicarrier module of base station is in power amplifier works in linear amplification region, the base station is according to the relation between power amplifier power output and the power amplification efficiency, by first timing statistics in the cycle and the power amplifier voltage of second timing statistics in the cycle and the power amplifier voltage of relatively adjusting current point in time of the power amplifier voltage of current point in time, thereby power amplifier voltage can be realized adjusting dynamically in the base station after powering on.Further, know according to the relation between power amplifier power output and the power amplification efficiency, in the multicarrier module of base station in power amplifier works in linear amplification region, when if the average power in the previous second timing statistics cycle in the second timing statistics cycle at current point in time place reduces, when also namely the second target power amplifier voltage is less than the power amplifier voltage of current point in time, reduce the power amplifier voltage of current point in time, the power amplifier gain range is constant substantially, thereby can make the efficient of power amplifier get a promotion by the power amplifier voltage that reduces current point in time.
As shown in Figure 3, a kind of base station 4000 of the embodiment of the invention comprises: timing statistics cycle determining unit 4100, power amplifier voltage determining unit 4200, target power amplifier voltage selected cell 4300 and power amplifier voltage adjustment unit 4400.
Timing statistics cycle determining unit 4100 is used for determining the timing statistics cycle of power amplifier voltage, power amplifier voltage determining unit 4200 is used for determining the power amplifier voltage of timing statistics in the cycle that timing statistics cycle determining unit 4100 is determined according to the relation between carrier power control information and power amplifier power output and the power amplification efficiency, interior power amplifier voltage determining unit 4200 definite power amplifier voltages of previous timing statistics cycle that target power amplifier voltage selected cell 4300 is used for the described timing statistics cycle at selection current point in time place are the target power amplifier voltage, and power amplifier voltage adjustment unit 4400 is for the power amplifier voltage of the power amplifier voltage adjustment current point in time of the target power amplifier voltage of determining according to target power amplifier voltage selected cell 4300 and current point in time.
Further, as shown in Figure 4, power amplifier voltage determining unit 4200 comprises power output determining unit 4500.
Power output determining unit 4500 is used for determining in the average power of described timing statistics in the cycle according to described carrier power control information.
Further, timing statistics cycle determining unit 4100 is used for also determining the first timing statistics cycle and the second timing statistics cycle that the described first timing statistics cycle is less than the described second timing statistics cycle; Power amplifier voltage determining unit 4200 also is used for determining first power amplifier voltage and second timing statistics second power amplifier voltage cycle in of first timing statistics in the cycle that timing statistics cycle determining unit 4100 is determined according to the relation between carrier power control information and power amplifier power output and the power amplification efficiency; The interior power amplifier voltage determining unit 4,200 first definite power amplifier voltages of the previous first timing statistics cycle that target power amplifier voltage selected cell 4300 also is used for the first timing statistics cycle at selection current point in time place are the first target power amplifier voltage, and second power amplifier voltage that power amplifier voltage determining unit 4200 is determined in the previous second timing statistics cycle in the second timing statistics cycle at current point in time place is the second target power amplifier voltage; If the power amplifier voltage that power amplifier voltage adjustment unit 4400 also is used for current point in time during less than the first target power amplifier voltage, raises the power amplifier voltage of current point in time to the first target power amplifier voltage; If the power amplifier voltage of current point in time during greater than the second target power amplifier voltage, is reduced the power amplifier voltage of described current point in time to the described second target power amplifier voltage.
As shown in Figure 5, the embodiment of the invention also provides a kind of communication system 4800, and this communication system 4800 comprises base station 4802.The repertoire of base station among the above-mentioned adjustment power amplifier voltage of the present invention method embodiment can be finished in base station 4802.
Because multicarrier module power amplifier grid matching capacitance appearance value demand is bigger, in the process of the dynamic opening of carrier time slot and shutoff, the power amplifier grid voltage can not in time be followed control signal and just be changed in the process high speed of opening and turn-offing of carrier time slot, causes the carrier radio frequency emission index of multicarrier module to worsen.In order to realize that the dynamic slot when having business to take on the multicarrier module takies adjustment, the embodiment of the invention provides the control time slot method, comprising: the carrier time slot that its multicarrier module is determined in the base station required time span from the resting state to the upstate; According to the Time Slot Occupancy information of this time span and this multicarrier module, carrier time slot and the carrier wave time slot of base station control multicarrier module.In the embodiment of the invention, carrier time slot is for having the time slot row of identical timeslot number on all carrier waves in this multicarrier module, the carrier wave time slot is different carrier time slot corresponding in the carrier time slot, for the ease of understanding, Fig. 6 describes relation between carrier time slot and the carrier wave time slot as an example: suppose that carrier time slot 5000 is for having time slot row of identical timeslot number on all carrier waves in the base station multiple carrier module, 3 carrier waves are arranged on this multicarrier module, therefore, can multiplexing 3 time slots on carrier time slot 5000, each time slot on carrier time slot can be called the carrier wave time slot, accordingly, the time slot of carrier wave 1 on carrier time slot 5000 is carrier wave time slot 5002, the time slot of carrier wave 2 on carrier time slot 5000 is carrier wave time slot 5004, and the time slot of carrier wave 3 on carrier time slot 5000 is carrier wave time slot 5006.Therefore, under the situation of multicarrier, distribution service can be understood as the carrier wave time slot that distribution service is given the carrier wave on the corresponding multicarrier module of this carrier time slot to carrier time slot.The resting state of carrier time slot is the time slot state when but the carrier frequency breaking circuit of this carrier time slot is turned off in this multicarrier module, all carrier wave time slots on corresponding this carrier time slot also all are in resting state, the upstate of this carrier time slot is the carrier frequency output radio-frequency (RF) index time slot state just often of this carrier time slot, after also namely but the carrier frequency breaking circuit of this carrier time slot restores electricity, the carrier frequency transmission channel of this carrier time slot is under the correction of digital pre-distortion algorithm, and the carrier frequency of this carrier time slot is exported radio-frequency (RF) index time slot state just often.Adopt the method in the present embodiment, the base station is determined to be assigned with the such a period of time length of professional back power amplifier output radio-frequency (RF) index time slot state just often to this carrier time slot after carrier time slot is activated from resting state, this time span also is that multicarrier module dormant circuit returns to the needed time span of operating state, Time Slot Occupancy information according to this time span and multicarrier module, the carrier time slot of multicarrier module and the idle carrier time slot that the carrier wave time slot carries out traffic assignments or cutoff is in state of activation when being in the idle carrier time slot of state of activation can be controlled in the base station, solved when the base station and dynamically turn-offed the idle carrier time slot that the multicarrier module is in state of activation, can cause the problem of the radio-frequency transmissions index deterioration of multicarrier module.Further, by turn-offing the idle carrier time slot that is in state of activation that can turn-off, can be so that the part carrier time slot of multicarrier module enters resting state, reduced the number of timeslots that the multicarrier module is in state of activation, reduce the power consumption of multicarrier module, realized the energy-conservation of multicarrier module.
The embodiment of the invention provides another control time slot method, and it is that the time span of a carrier time slot is that example specifically describes that this method has adopted carrier time slot required time span from the resting state to the upstate of the multicarrier module of base station.As shown in Figure 7, this method comprises:
8100: according to the carrier time slot of the multicarrier module of base station required time span and the Time Slot Occupancy information of this multicarrier module from the resting state to the upstate, first carrier time slot is determined in the base station.
The base station can define the carrier time slot that business takies according to the Time Slot Occupancy information of multicarrier module, and when the timeslot number of the carrier time slot that takies as business was zero, first carrier time slot was multicarrier module first carrier time slot that is activated of back that is activated; When the timeslot number of the carrier time slot that takies as business was non-vanishing, first carrier time slot was an idle carrier time slot that is in state of activation that is positioned at before the time slot section that the carrier time slot that business takies is arranged.The carrier time slot that has business to take in the embodiment of the invention refers on one or more carrier wave time slot on this carrier time slot has business to take, if and all the carrier wave time slots on carrier time slot all do not have business to take, this carrier time slot can be called and is idle carrier time slot.The carrier time slot that has business to take in the present embodiment can be one or more carrier time slot, when the carrier time slot that takies as business is a plurality of carrier time slot, the carrier time slot that has business to take can be that the continuous carrier time slot of timeslot number also can be the discontinuous carrier time slot of timeslot number, and the time slot section that the carrier time slot that business takies is arranged can represent the timeslot number continuous time slot section of carrier time slot, also can represent the discontinuous time slot section of timeslot number of carrier time slot.When the time slot section of the carrier time slot that takies as business represents the discontinuous time slot section of the timeslot number of carrier time slot, first carrier time slot of this time slot section and last carrier time slot are the carrier time slot that has business to take, and can comprise one or more idle carrier time slot in the middle of this time slot section.
8200: according to first carrier time slot, carrier time slot and the carrier wave time slot of base station control multicarrier module.
In an embodiment of the present invention, the base station can be according to sequential control carrier time slot and the carrier wave time slot of carrier time slot number, and the base station also can be not according to sequential control carrier time slot and the carrier wave time slot of carrier time slot number.For convenience of description; the unified base station of adopting is illustrated according to sequential control carrier time slot and the carrier wave time slot of carrier time slot number in an embodiment of the present invention; but one of ordinary skill in the art will appreciate that; adopt the base station to be illustrated according to the sequential control carrier time slot of carrier time slot number and carrier wave time slot and do not represent the present invention and can only adopt the base station to control carrier time slot and carrier wave time slot according to the order of carrier time slot number, protection scope of the present invention should be as the criterion with the scope of claim.
When the timeslot number of the carrier time slot that takies as business is non-vanishing:
If the number of time slot of newly-increased professional required carrier wave time slot is during greater than the timeslot number of the idle carrier wave time slot that is in state of activation, be in the carrier time slot of resting state in the base station activation multicarrier module, the newly-increased business of base station assigns is in the idle time slot of state of activation to except first carrier time slot other then.The base station can activate that all are in the carrier time slot of resting state in the multicarrier module, and is optional, and the base station also can only be activated from the carrier time slot that is in resting state and satisfy newly-increased professional needed a part of carrier time slot.Optionally, when base station activation is in the carrier time slot of resting state, can adopt the carrier time slot that activates dormancy according to the order of carrier time slot number.Optionally, the newly-increased business of base station assigns arrives except first carrier time slot, when also namely other the carrier wave time slot on this first carrier time slot are in the idle carrier wave time slot of state of activation, can adopt according to the order of carrier time slot number and distribute newly-increased business other to the carrier wave time slot on first carrier time slot to be in the idle carrier wave time slot of state of activation.Except first carrier time slot of this module, after all carrier time slots have all been taken by business, Added Business will be assigned on first carrier time slot in the multicarrier module.It is pointed out that when the multicarrier module is in resting state the base station needed to wake up earlier this multicarrier module be in the carrier time slot of resting state in activation before.
If the timeslot number of newly-increased professional required carrier wave time slot is during less than the timeslot number of the idle carrier wave time slot that is in state of activation, when perhaps not having newly-increased business demand, the carrier time slot of possibility dormancy is determined in the base station, according to the carrier time slot of this possibility dormancy, carrier time slot and the carrier wave time slot of base station control multicarrier module.Possible dormancy time slot is in the idle carrier time slot of state of activation for except first carrier time slot other.Further, when the timeslot number of carrier time slot that may dormancy is greater than or equal to 1 and when being less than or equal to 6, control described carrier time slot that may dormancy in base station enters resting state.Further, the base station is before the carrier time slot to the possibility dormancy carries out dormancy, if base station controller knows that the timeslot number of the carrier wave time slot that is in idle condition in the multicarrier module of this base station is greater than the carrier number that disposes in the multicarrier module, so base station controller can send comprise control information message to the base station, this control information is indicated this base station that business is taken and is focused on the continuous carrier time slot of timeslot number in the multicarrier module, the base station is switched the business that has on the carrier wave time slot that business takies and is in the carrier wave time slot of idle condition to except the corresponding carrier wave time slot of first carrier time slot other according to receiving the message that comprises control information, business is taken focus on several carrier time slots continuous in the carrier frequency, to increase the timeslot number of carrier time slot that may dormancy.This message that comprises control information can be switching command message, carrier number message, channel number message or frequency point number message, also namely carries this control information in switching command message, carrier number message, channel number message or frequency point number message.
When the timeslot number of the carrier time slot that takies as business is zero:
All carrier time slots of multicarrier module have all entered resting state, base station initiated multicarrier module is carried out dormancy, therefore, when newly-increased business demand, the base station need be waken the multicarrier module of dormancy up, activate the carrier time slot in this multicarrier module then, and first carrier time slot is exactly first carrier time slot that is activated in this multicarrier module.Because the multi-carrier broadband power amplifier grid voltage of base station can not in time be followed control signal and just be changed in the process high speed of opening and turn-offing of carrier time slot, the base station is turned off first carrier time slot that activates the back in the multicarrier module can not bear business, also i.e. distribution service not on all carrier wave time slots on first carrier time slot is since second carrier time slot distribution service that is activated.Optionally, distribution service can be carried out since second carrier time slot that is activated according to the order of timeslot number in the base station.
Adopt the method in the present embodiment, base station control time-gap takies the method that has adopted idle carrier time slot that of being positioned at before the time slot section that the carrier time slot that business takies is arranged is in state of activation not turn-off, also adopted after the multicarrier module that activates dormancy, first carrier time slot that is activated does not carry out traffic assignments and since the method for second carrier time slot distribution service that is activated, thereby reached carrier time slot that dynamically active is in resting state and carried out the idle carrier time slot that traffic assignments and cutoff are in state of activation, solve the base station and dynamically turn-offed the idle carrier time slot that the multicarrier module is in state of activation, can cause the problem of the radio-frequency (RF) index deterioration of multicarrier module.Further, by turn-offing the idle carrier time slot that is in state of activation that can turn-off, can be so that the part carrier time slot of multicarrier module enters resting state, reduced the number of timeslots that the multicarrier module is in state of activation, reduce the power consumption of multicarrier module, realized the energy-conservation of multicarrier module.
As shown in Figure 8, the embodiment of the invention provides base station 9000, comprising: time length determination unit 9002, Time Slot Occupancy information determining unit 9004 and time slot control unit 9006.
The carrier time slot of multicarrier module that time length determination unit 9002 is used for determining base station 9000 required time span from the resting state to the upstate; Time Slot Occupancy information determining unit 9004 is used for the Time Slot Occupancy information of the multicarrier module of definite base station 9000; Time slot control unit 9006 is used for the Time Slot Occupancy information of the multicarrier module that the time span determined according to time length determination unit 9002 when the multicarrier module of base station 9000 and Time Slot Occupancy information determining unit 9004 determine, carrier time slot and the carrier wave time slot of control multicarrier module; Wherein, wherein, the carrier time slot of described multicarrier module is the time slot row that all carrier waves have identical timeslot number in the described multicarrier module; The carrier wave time slot of described multicarrier module is different carrier time slot corresponding in the carrier time slot of described multicarrier module; Described resting state is the time slot state of carrier time slot when but the carrier frequency breaking circuit of described multicarrier module is turned off of described multicarrier module; Described upstate is that the carrier time slot of described multicarrier module is at the carrier frequency output radio-frequency (RF) index time slot state just often of described multicarrier module.
Further, base station 9000 also comprises: the first carrier time slot determining unit 9008.
Time span and Time Slot Occupancy information determining unit 9004 definite Time Slot Occupancy information that the first carrier time slot determining unit 9008 is used for determining according to time length determination unit 9002 are determined first carrier time slot; Time slot control unit 9006 also is used for controlling when first carrier time slot that the multicarrier module of described base station is determined according to the first carrier time slot determining unit 9008 carrier time slot and the carrier wave time slot of the multicarrier module of base station 9000; Wherein, when the timeslot number of the carrier time slot that has business to take in the Time Slot Occupancy information that time slot occupied information determining unit 9004 is determined was zero, first carrier time slot was first carrier time slot that is activated after the multicarrier module of base station 9000 is activated; When the timeslot number of the carrier time slot that has business to take in the Time Slot Occupancy information that time slot occupied information determining unit 9004 is determined was non-vanishing, first carrier time slot was an idle carrier time slot that is in state of activation that is positioned at before the time slot section that the carrier time slot that business takies is arranged.
Further, base station 9000 also comprises: the carrier wave timeslot number determining unit 9010 that Added Business is required.
The required carrier wave timeslot number determining unit 9010 of Added Business is used for determining the timeslot number of newly-increased professional required carrier wave time slot;
When the timeslot number of the carrier time slot that has business to take in the Time Slot Occupancy information that time slot occupied information determining unit 9004 is determined is non-vanishing, if be in the timeslot number of the carrier wave time slot of idle condition in the Time Slot Occupancy information that the newly-increased professional required carrier wave timeslot number that the required carrier wave timeslot number determining unit of Added Business 9010 is determined is determined greater than described Time Slot Occupancy information determining unit 9004, the multicarrier module that time slot control unit 9006 also is used for activation base station 9000 is in the carrier time slot of resting state.Time slot control unit 9006 also be used for to distribute the carrier wave time slot of newly-increased business to first carrier time slot of determining except the first carrier time slot determining unit 9008 other to be in the carrier wave time slot of idle condition.
Further, base station 9000 also comprises: the carrier time slot determining unit 9012 of possible dormancy.
The carrier time slot determining unit 9012 of possible dormancy be used for when the Time Slot Occupancy information that Time Slot Occupancy information determining unit 9004 is determined have the timeslot number of the carrier time slot that business takies non-vanishing, determining may dormancy carrier time slot, described carrier time slot that may dormancy is in the idle carrier time slot of state of activation for described first carrier time slot of determining except the first carrier time slot determining unit 9008 other; Time slot control unit 9008 is also controlled described carrier time slot and the carrier wave time slot of the multicarrier module of base station 9000 for the carrier time slot of the possible dormancy of determining according to the carrier time slot determining unit 9012 of possibility dormancy; Wherein, idle carrier time slot is all carrier wave time slots on the corresponding timeslot number of carrier time slot in multicarrier module carrier time slots when all being in idle condition.
Further, when the timeslot number of described carrier time slot that may dormancy is greater than or equal to 1 and when being less than or equal to 6, time slot control unit 9006 also is used for the carrier time slot that control may dormancy and enters resting state.
Further, base station 9000 also comprises: carrier number determining unit 9014 and receiving element 9018.
Carrier number determining unit 9014 is used for determining the interior carrier number that disposes of multicarrier module of base station 9000;
Receiving element 9018 is used for receiving the message that comprises control information, and this control information indication base station 9000 takies business and focuses on the continuous carrier time slot of timeslot number in this multicarrier module;
The timeslot number of carrier wave time slot that time slot control unit 9006 also is used for being in idle condition when Time Slot Occupancy information that time slot occupied information determining unit 9004 is determined is during greater than the definite carrier number of carrier number determining unit 9014, the message that comprises control information that receives according to receiving element 9018 is switched to the corresponding carrier wave time slot of determining except the first carrier time slot determining unit 9008 of first carrier time slot other of the business have on the carrier wave time slot that business takies and is in the carrier wave time slot of idle condition, described business is taken focus on several carrier time slots continuous in the carrier frequency, to increase the timeslot number of carrier time slot that may dormancy.This message that comprises control information can be switching command message, carrier number message, channel number message or frequency point number message, also namely carries this control information in switching command message, carrier number message, channel number message or frequency point number message.
Further, when the timeslot number of the carrier time slot that has business to take in the Time Slot Occupancy information that time slot occupied information determining unit 9004 is determined is zero, if the multicarrier module of base station 9000 is in resting state, time slot control unit 9006 also is used for waking up the multicarrier module of base station 9000; Time slot control unit 9006 also is used for the carrier time slot of the multicarrier module of activation base station 9000; Time slot control unit 9006 also is used for the carrier time slot that be in state of activation of newly-increased traffic assignments after first carrier time slot that the first carrier time slot determining unit 9008 is determined.
Further, time slot control unit 9006 also is used for the Time Slot Occupancy information that the time span determined according to time length determination unit 9002 and Time Slot Occupancy information determining unit 9004 are determined, according to carrier time slot and the carrier wave time slot of the multicarrier module of the timeslot number sequential control base station 9000 of carrier time slot.
As shown in Figure 9, the embodiment of the invention provides base station controller 9500, comprising: information acquisition unit 9502, comparing unit 9504 and control information transmitting element 9506.
Information acquisition unit 9502 is for the timeslot number of the carrier wave time slot that is in idle condition in the multicarrier module that obtains the base station and the carrier number of the interior configuration of this multicarrier module; Comparing unit 9502 is used for timeslot number that comparison information acquiring unit 9502 obtains and the size of carrier number; Control information transmitting element 9506 is used for when comparing unit 9502 relatively obtains timeslot number greater than carrier number, transmission comprises the message of control information to the base station, and this control information indication base station takies business and focuses on the continuous carrier time slot of timeslot number in the multicarrier module; Wherein, carrier time slot is for having the time slot row of identical timeslot number on all carrier waves in this multicarrier module; The carrier wave time slot is different carrier time slot corresponding in the carrier time slot of this multicarrier module.
As shown in figure 10, the embodiment of the invention provides another communication system 9600, comprises base station 9602.The repertoire of base station among the above-mentioned control time slot method of the present invention embodiment can be finished in base station 9602.
Further, communication system 9600 also comprises: base station controller 9604.Be in timeslot number and the interior carrier number that disposes of this multicarrier module of the carrier wave time slot of idle condition in the multicarrier module of base station controller 9604 acquisition base stations 9602; When this timeslot number during greater than this carrier number, base station controller 9604 send comprise control information message to base station 9602, this control information indication base station 9602 takies business and focuses on the continuous carrier time slot of timeslot number in this multicarrier module.
Those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential general hardware platform.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product can be stored in the storage medium, as ROM/RAM, magnetic disc, CD etc., comprise that some instructions are with so that a computer equipment (can be personal computer, server, the perhaps network equipment etc.) carry out the described method of some part of each embodiment of the present invention or embodiment.
Above-described embodiment of the present invention does not constitute the restriction to protection range of the present invention.Any modification of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., all should be included within protection scope of the present invention.
Claims (20)
1. a control time slot method is characterized in that, comprising:
The carrier time slot that the multicarrier module is determined in the base station required time span from the resting state to the upstate;
According to the Time Slot Occupancy information of described time span and described multicarrier module, the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station;
Wherein, the carrier time slot of described multicarrier module is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves;
The carrier wave time slot of described multicarrier module is different carrier time slot corresponding in the carrier time slot of described multicarrier module;
The time slot state that but described resting state is the carrier frequency breaking circuit of described carrier time slot when being turned off;
Described upstate is the carrier frequency output radio-frequency (RF) index time slot state just often of described carrier time slot.
2. the method for claim 1 is characterized in that, described Time Slot Occupancy information according to described time span and described multicarrier module, and the carrier time slot of described multicarrier module is controlled in described base station and the carrier wave time slot of described multicarrier module comprises:
According to the Time Slot Occupancy information of described time span and described multicarrier module, first carrier time slot is determined in described base station;
According to described first carrier time slot, described carrier time slot and described carrier wave time slot are controlled in described base station;
Wherein, when the timeslot number of the carrier time slot that has business to take in the described multicarrier module was zero, described first carrier time slot was first carrier time slot that is activated after described multicarrier module is activated; When the described timeslot number that the carrier time slot that business takies arranged was non-vanishing, described first carrier time slot was an idle carrier time slot that is in state of activation that is positioned at before the described time slot section that the carrier time slot that business takies arranged.
3. method as claimed in claim 2 is characterized in that, and is described according to described first carrier time slot, and the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station, comprising:
When the described carrier time slot that has business to take is non-vanishing, if the timeslot number of the carrier wave time slot that Added Business is required is in the carrier time slot of resting state greater than all are in the timeslot number of the idle carrier wave time slot of state of activation in the described multicarrier module in the described multicarrier module of described base station activation;
The described Added Business of described base station assigns is in the idle carrier wave time slot of state of activation to except described first carrier time slot other.
4. method as claimed in claim 2 is characterized in that, and is described according to described first carrier time slot, and the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station, comprising:
When the described timeslot number that the carrier time slot that business takies arranged is non-vanishing, described base station determine in the described multicarrier module may dormancy carrier time slot, described carrier time slot that may dormancy is in the idle carrier time slot of state of activation for except described first carrier time slot other;
According to the carrier time slot of described possibility dormancy, carrier time slot and the carrier wave time slot of described multicarrier module controlled in described base station;
Wherein, described idle carrier time slot is all carrier wave time slots on described carrier time slot carrier time slots when all being in idle condition.
5. method as claimed in claim 4 is characterized in that, described carrier time slot according to the dormancy of described possibility, and the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station, comprising:
When the timeslot number of described carrier time slot that may dormancy is greater than or equal to 1 and when being less than or equal to 6, control described carrier time slot that may dormancy in described base station enters resting state.
6. method as claimed in claim 5 is characterized in that, described carrier time slot according to the dormancy of described possibility, and the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station, also comprise:
When carrier number that the timeslot number of the carrier wave time slot that is in idle condition in the described multicarrier module disposes in greater than described multicarrier module, described base station receives the message that comprises control information, and described control information is indicated described base station that described business is taken and focused on the continuous carrier time slot of timeslot number in the described multicarrier module;
According to the described message that comprises control information, switch described base station describedly has the business on the carrier wave time slot that business takies to be in the carrier wave time slot of idle condition to except described first carrier time slot other, focuses on the continuous carrier time slot of timeslot number in the described multicarrier module so that described business takies.
7. method as claimed in claim 2 is characterized in that, described Time Slot Occupancy information according to described time span and described multicarrier module, and the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module are controlled in described base station, comprising:
When the described timeslot number that the carrier time slot that business takies arranged was zero, described base station was waken described multicarrier module up;
Carrier time slot in the described multicarrier module of described base station activation;
Described base station is distributed in except described first carrier time slot other with Added Business and is on the idle carrier wave time slot of state of activation.
8. method as claimed in claim 2 is characterized in that, the described described base station of Time Slot Occupancy information according to described time span and described multicarrier module controls the carrier time slot of described multicarrier module and the carrier wave time slot of described multicarrier module comprises:
According to the Time Slot Occupancy information of described time span and described multicarrier module, described base station is according to the carrier time slot of the described multicarrier module of timeslot number sequential control of described carrier time slot and the carrier wave time slot of described multicarrier module.
9. the base station is characterized in that, comprising:
Time length determination unit, the carrier time slot of multicarrier module that be used for to determine described base station required time span from the resting state to the upstate;
Time Slot Occupancy information determining unit is for the Time Slot Occupancy information of the described multicarrier module of determining described base station;
The time slot control unit is used for the Time Slot Occupancy information of the described multicarrier module that the described time span determined according to time length determination unit and described Time Slot Occupancy information determining unit determine, controls carrier time slot and the carrier wave time slot of described multicarrier module;
Wherein, the carrier time slot of described multicarrier module is the time slot row that different carrier has identical timeslot number in the described multicarrier module;
The carrier wave time slot of described multicarrier module is different carrier time slot corresponding in the carrier time slot of described multicarrier module;
Described resting state is the time slot state of carrier time slot when but the carrier frequency breaking circuit of described multicarrier module is turned off of described multicarrier module;
Described upstate is that the carrier time slot of described multicarrier module is at the carrier frequency output radio-frequency (RF) index time slot state just often of described multicarrier module.
10. base station as claimed in claim 9 is characterized in that, also comprises:
The first carrier time slot determining unit, the described time span and the definite described Time Slot Occupancy information of described Time Slot Occupancy information determining unit that are used for determining according to described time length determination unit are determined first carrier time slot;
Described time slot control unit is for carrier time slot and the carrier wave time slot of controlling described multicarrier module when the multicarrier module of described base station according to definite described first carrier time slot of the described first carrier time slot determining unit;
Wherein, when the timeslot number of the carrier time slot that has business to take in the described Time Slot Occupancy information that described Time Slot Occupancy information determining unit is determined was zero, described first carrier time slot was first carrier time slot that is activated after described multicarrier module is activated; When the timeslot number of the carrier time slot that has business to take described in the described Time Slot Occupancy information that described Time Slot Occupancy information determining unit is determined was non-vanishing, described first carrier time slot was an idle carrier time slot that is in state of activation that is positioned at before the described time slot section that the carrier time slot that business takies arranged.
11. base station as claimed in claim 10 is characterized in that, also comprises:
The carrier wave timeslot number determining unit that Added Business is required is for the timeslot number of determining newly-increased professional required carrier wave time slot;
When the timeslot number of the carrier time slot that has business to take described in the described Time Slot Occupancy information that described Time Slot Occupancy information determining unit is determined is non-vanishing, if be in the timeslot number of the carrier wave time slot of idle condition in the described Time Slot Occupancy information that the described newly-increased professional required carrier wave timeslot number that the required carrier wave timeslot number determining unit of described Added Business is determined is determined greater than described Time Slot Occupancy information determining unit, described time slot control unit also is used for the carrier time slot that the described multicarrier module of activation is in resting state;
Described time slot control unit also be used for to distribute described newly-increased business to be in the carrier wave time slot of idle condition to except definite described first carrier time slot of the described first carrier time slot determining unit other.
12. base station as claimed in claim 10 is characterized in that, also comprises:
The carrier time slot determining unit of possible dormancy, determine when the described timeslot number that the carrier time slot that business takies arranged that is used for the described Time Slot Occupancy information determined in described Time Slot Occupancy information determining unit is non-vanishing may dormancy carrier time slot, described carrier time slot that may dormancy is in the idle carrier time slot of state of activation for described first carrier time slot of determining except the described first carrier time slot determining unit other;
Described time slot control unit also is used for controlling according to the carrier time slot of the definite described possibility dormancy of the carrier time slot determining unit of described possibility dormancy carrier time slot and the carrier wave time slot of described multicarrier module;
Wherein, described idle carrier time slot is all carrier wave time slots on the corresponding timeslot number of carrier time slot in the described multicarrier module described carrier time slots when all being in idle condition.
13. base station as claimed in claim 12 is characterized in that,
When the timeslot number of described carrier time slot that may dormancy is greater than or equal to 1 and when being less than or equal to 6, described time slot control unit also is used for the described carrier time slot that may dormancy of control and enters resting state.
14. base station as claimed in claim 13 is characterized in that, also comprises:
The carrier number determining unit is used for the carrier number that disposes in the multicarrier module of definite described base station;
Receiving element be used for to receive the message that comprises control information, and described control information is indicated described base station that described business is taken and focused on the continuous carrier time slot of timeslot number in the described multicarrier module;
The timeslot number of carrier wave time slot that described time slot control unit also is used for being in idle condition when described Time Slot Occupancy information that described Time Slot Occupancy information determining unit is determined is during greater than the definite described carrier number of described carrier number determining unit, the described message that comprises control information that receives according to described receiving element is switched the business that has on the carrier wave time slot that business takies and is in the carrier wave time slot of idle condition to except the corresponding carrier wave time slot of described first carrier time slot other, focuses on the continuous several carrier time slots of timeslot number in the described multicarrier module so that described business takies.
15. base station as claimed in claim 10 is characterized in that,
When the timeslot number of the carrier time slot that has business to take described in the described Time Slot Occupancy information that described Time Slot Occupancy information determining unit is determined is zero, if described multicarrier module is in resting state, described time slot control unit also is used for waking up described multicarrier module;
Described time slot control unit also is used for activating the described carrier time slot of described multicarrier module;
Described time slot control unit also is used for the carrier time slot that be in state of activation of newly-increased traffic assignments after described first carrier time slot that the described first carrier time slot determining unit is determined.
16. base station as claimed in claim 10 is characterized in that,
Described time slot control unit also is used for the described Time Slot Occupancy information that the described time span determined according to described time length determination unit and described Time Slot Occupancy information determining unit are determined, according to carrier time slot and the carrier wave time slot of the described multicarrier module of timeslot number sequential control of described carrier time slot.
17. a control time slot method is characterized in that, comprising:
Be in timeslot number and the interior carrier number that disposes of described multicarrier module of the carrier wave time slot of idle condition in the multicarrier module of base station controller acquisition base station;
When described timeslot number during greater than described carrier number, described base station controller send comprise control information message to described base station, described control information is indicated described base station that business is taken and is focused on the continuous carrier time slot of timeslot number in the described multicarrier module;
Wherein, described carrier time slot is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves;
Different carrier time slot corresponding in the carrier time slot that described carrier wave time slot is described multicarrier module.
18. base station controller is characterized in that, comprising:
Information acquisition unit is for the timeslot number of the carrier wave time slot that is in idle condition in the multicarrier module that obtains the base station and the carrier number of the interior configuration of described multicarrier module;
Comparing unit is used for described timeslot number that more described information acquisition unit obtains and the size of described carrier number;
The control information transmitting element, be used for when the more described timeslot number of described comparing unit during greater than described carrier number, transmission comprises the message of control information to described base station, and described control information is indicated described base station that business is taken and focused on the continuous carrier time slot of timeslot number in the described multicarrier module;
Wherein, described carrier time slot is the time slot row that have identical timeslot number in the described multicarrier module on all carrier waves;
Different carrier time slot corresponding in the carrier time slot that described carrier wave time slot is described multicarrier module.
19. a communication system is characterized in that, comprising: as the described base station of claim 9 to 16.
20. communication system as claimed in claim 19, it is characterized in that, also comprise: base station controller as claimed in claim 18, described base station controller obtain to be in the multicarrier module of described base station the carrier number of configuration in the timeslot number of carrier wave time slot of idle condition and the described multicarrier module; When described timeslot number during greater than described carrier number, described base station controller send comprise control information message to described base station, described control information is indicated described base station that business is taken and is focused on the continuous carrier time slot of timeslot number in the described multicarrier module.
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| CN201310160657.XA CN103237339B (en) | 2009-05-21 | 2009-05-21 | Control the method for time slot, equipment and system |
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| CN2009101074919A CN101895971B (en) | 2009-05-21 | 2009-05-21 | Method, apparatus and system for adjusting power amplifier voltage and controlling time slot |
| CN201310160657.XA CN103237339B (en) | 2009-05-21 | 2009-05-21 | Control the method for time slot, equipment and system |
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| CN2009101074919A Division CN101895971B (en) | 2009-05-21 | 2009-05-21 | Method, apparatus and system for adjusting power amplifier voltage and controlling time slot |
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