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CN104918316A - Detection method, correction method and user equipment for time sequence control command - Google Patents

Detection method, correction method and user equipment for time sequence control command Download PDF

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Publication number
CN104918316A
CN104918316A CN201410085551.2A CN201410085551A CN104918316A CN 104918316 A CN104918316 A CN 104918316A CN 201410085551 A CN201410085551 A CN 201410085551A CN 104918316 A CN104918316 A CN 104918316A
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China
Prior art keywords
subscriber equipment
sequencing control
control order
base station
transmission timing
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CN201410085551.2A
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CN104918316B (en
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范凌飞
曲文泽
张剑玮
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MediaTek Singapore Pte Ltd
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MediaTek Singapore Pte Ltd
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Priority to CN201410085551.2A priority Critical patent/CN104918316B/en
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Publication of CN104918316B publication Critical patent/CN104918316B/en
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Abstract

The invention discloses a detection method, a correction method and user equipment for time sequence control commands. A time sequence control command is sent to the user equipment by a base station for adjusting an uplink sending time sequence of the user equipment. The correction method for the time sequence control command comprises the steps of: correcting the currently received time sequence control command according to a current moving speed or a maximal moving speed of the user equipment; and deciding an uplink sending time sequence of the user equipment according to the corrected time sequence control command. According to the detection method, the correction method and the user equipment for the time sequence control command, an abnormal time sequence control command sent by the base station can be automatically detected and corrected, and the uplink sending time sequence is decided according to the corrected time sequence control command, thereby reducing the error probability of uplink synchronization adjustment.

Description

The detection method of sequencing control order, modification method and subscriber equipment
Technical field
The invention relates to the control of up transmission timing, especially a kind of detection and correction base station are sent to subscriber equipment (User Equipment, UE) to adjust the method for the sequencing control order of the up transmission timing of subscriber equipment and relevant subscriber equipment.
Background technology
Time Division-Synchronous Code Division Multiple Access (Time Division-Synchronous Code Division Multiple Access, TD-SCDMA), International Telecommunication Union (International Telecommunication Union, ITU) a kind of third generation radio communication (the Third Generation Mobile Communication being similar to CDMA2000 and WCDMA worked out, 3G) technology, it has the advantage of high spectrum utilization and low cost.
Uplink synchronous (Uplink Synchronization) is a key technology in TD-SCDMA, so-called uplink synchronous refers to that the time of reception of base station to the upward signal that a subscriber equipment is sent is measured, and obtain the location of user equipment estimated, and the target location of this location of user equipment and acquiescence is compared, order to produce simultaneous bias (Synchronous Shift, SS) according to comparative result and send to this subscriber equipment.Then, this subscriber equipment can adjust up transmitting time according to this received synch command.
Please refer to Fig. 1, Fig. 1 is the schematic diagram that TD-SCDMA system carries out uplink synchronous.As shown in Figure 1, in time TS0, TD-SCDMA system carries out descending operation, that is subscriber equipment end receives data from base station end, and the time that wherein subscriber equipment termination receives data can postpone to send in base station end time of data.In addition; subscriber equipment can utilize descending pilot frequency time slot (Downlink Pilot Time Slot; DwPTS) the downlink synchronous signal SYNC DL on sets up down-going synchronous; and utilize uplink pilot time slot (Uplink Pilot Time Slot; UpPTS) the uplink synchronizing signals SYNC UL on sets up uplink synchronous; wherein guard time (Guard Period; GP) being used to protection change-over time carrying out up-downgoing switching, is up late effect to solve down conversion.Afterwards in time TS1, TD-SCDMA system then can carry out up operation, and the signal that base station is sent according to subscriber equipment, calculate the subscriber equipment adjustment amount of next time needed for transmitting time, and sending to subscriber equipment by simultaneous bias order, the upstream time retardation wherein between base station and subscriber equipment is TA.Then, subscriber equipment performs the simultaneous bias order of base station, and adjusting up transmitting time lead (Timing Advance) is TA ', wherein tc is chip period (time of the chip), and 1Tc=1/ (1.28M).
But, in practical application, above-mentioned TD-SCDMA system can be difficult to Correctly adjust up transmitting time lead (and so-called TA tune flies phenomenon), if such as base station sends the simultaneous bias order (such as up transmitting time lead can constantly increase progressively) adjusted to same direction to subscriber equipment always, after subscriber equipment performs simultaneous bias order accumulative in a period of time, base station can be caused to receive adjustment signal from subscriber equipment end mistake, such as up transmitting time lead TA ' is adjusted to TA'=TA+10Tc, beyond the receiver window causing real useful signal to be adjusted to (i.e. so-called exit window phenomenon), thus cause subscriber equipment and base station asynchronous (non-synchronous), finally cause the call drop phenomenon in communication.
Summary of the invention
Therefore, the object of the present invention is to provide the detection method of at least one sequencing control order, modification method and subscriber equipment, to solve in above-mentioned prior art, TD-SCDMA system is when carrying out uplink synchronous, and the TA of subscriber equipment adjusts and flies phenomenon.
A kind of modification method of sequencing control order is disclosed according to one embodiment of the invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises: revise this sequencing control order received at present according to the current translational speed of this subscriber equipment or maximum translational speed; And the up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
Disclose a kind of modification method of sequencing control order according to another embodiment of the present invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises: revise this sequencing control order received at present according to the descending timing variations amount of this subscriber equipment; And the up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
Disclose a kind of modification method of sequencing control order according to another embodiment of the present invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises: the uplink transmission power heightening this subscriber equipment, revises to impel this base station this sequencing control order sent next time; And the up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
Disclose a kind of detection method of sequencing control order according to another embodiment of the present invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, the detection method of described sequencing control order comprises: statistics receives the quantity of the sequencing control order from this base station in the given time; Compare quantity and the threshold value of this sequencing control order, decide aberrant commands condition and whether meet; And when this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
Disclose a kind of detection method of sequencing control order according to another embodiment of the present invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, whether the detection method of described sequencing control order comprises: judge the up transmission timing whether only adjusting this subscriber equipment in the given time from multiple sequencing control orders of this base station gradually single direction, decide aberrant commands condition and meet; And when this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
Disclose a kind of detection method of sequencing control order according to another embodiment of the present invention, described sequencing control order is sent to subscriber equipment by base station, to adjust the up transmission timing of this subscriber equipment, whether the detection method of described sequencing control order comprises: detect another subscriber equipment whether having uplink transmission power near this subscriber equipment and be greater than the uplink transmission power of this subscriber equipment, decide aberrant commands condition and meet; And when this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
Disclose a kind of subscriber equipment according to another embodiment of the present invention, comprise detection module and correcting module.This detection module is sent to this subscriber equipment to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, wherein this detection module statistics receives the quantity of the sequencing control order from this base station in the given time, and compare quantity and the threshold value of this sequencing control order, decide this sequencing control order and whether meet aberrant commands condition.This correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
Disclose a kind of subscriber equipment according to another embodiment of the present invention, comprise detection module and correcting module.This detection module is sent to this subscriber equipment to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, wherein this detection module judges the up transmission timing whether only adjusting this subscriber equipment in the given time from multiple sequencing control orders of this base station gradually single direction, decides this sequencing control order and whether meets aberrant commands condition.This correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
Disclose a kind of subscriber equipment according to another embodiment of the present invention, comprise detection module and correcting module.This detection module is sent to this subscriber equipment to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, wherein this detection module detects another subscriber equipment whether having uplink transmission power near this subscriber equipment and be greater than the uplink transmission power of this subscriber equipment, decides this sequencing control order and whether meets aberrant commands condition.This correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
In sum, the detection method of at least one sequencing control provided by the present invention order, modification method and subscriber equipment, base stations detected sends voluntarily sequencing control order whether can there is exception, when detecting abnormal sequencing control order, the sequencing control order that subscriber equipment meeting active correction base station of the present invention sends, and decide up transmission timing according to revised sequencing control order, therefore when subscriber equipment performs uplink synchronous, the up transmission timing of subscriber equipment just can be improved by the situation adjusted mistakenly, thus reduce the probability of makeing mistakes of uplink synchronous adjustment.
Accompanying drawing explanation
Fig. 1 is the schematic diagram that TD-SCDMA system carries out uplink synchronous.
Fig. 2 is the schematic diagram of the subscriber equipment of one embodiment of the invention.
Fig. 3 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Fig. 4 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Fig. 5 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Fig. 6 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Fig. 7 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Fig. 8 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention.
Embodiment
Some vocabulary is employed to censure specific assembly in the middle of specification and claim.Those skilled in the art should understand, and hardware manufacturer may call same assembly with different nouns.This specification and claims are not used as with the difference of title the mode distinguishing assembly, but are used as the criterion of differentiation with assembly difference functionally." comprising " and " comprising " mentioned in the middle of specification and claim is in the whole text an open term, therefore should be construed to " comprise but be not limited to "." roughly " refer to that in acceptable error range, those skilled in the art can solve the technical problem within the scope of certain error, reach described technique effect substantially.In addition, " couple " word comprise directly any at this and be indirectly electrically connected means.Therefore, if describe a first device in literary composition to be coupled to one second device, then represent this first device and directly can be electrically connected at this second device, or be indirectly electrically connected to this second device by other device or connection means.The following stated is for implementing preferred mode of the present invention, and object is spirit of the present invention is described and is not used to limit protection scope of the present invention, and protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.
Some vocabulary is employed to censure specific assembly in the middle of specification and follow-up claim.Those skilled in the art should understand, and hardware manufacturer may call same assembly with different nouns.This specification and follow-up claim are not used as with the difference of title the mode distinguishing assembly, but are used as the criterion of differentiation with assembly difference functionally." comprising " mentioned in the middle of specification and follow-up claim is in the whole text an open term, therefore should be construed to " comprise but be not limited to ".In addition, " couple " word comprise directly any at this and be indirectly electrically connected means.Therefore, if describe a first device in literary composition to be coupled to one second device, then represent this first device and directly can be electrically connected in this second device, or be indirectly electrically connected to this second device by other devices or connection means.
Please refer to Fig. 2, Fig. 2 is the schematic diagram of the subscriber equipment 200 of one embodiment of the invention.Subscriber equipment 200 can be regarded as conventional mobile phone, but the present invention is not limited thereto, and subscriber equipment 200 can also be other communicators (such as the electronic installations of any support TD-SCDMA system).Subscriber equipment 200 can comprise processor and storage device (such as internal memory), and wherein internal memory is controlled by processor, and memory storage has program code.Subscriber equipment 200 can communicate with base station 201, such as, carry out up transmission and downlink reception by TD-SCDMA communication protocol.Note that the present invention is not limited to TD-SCDMA system, the subscriber equipment of the method for the detection that any employing is disclosed and the sequencing control order that correction base station sends all is under the jurisdiction of category of the present invention.
In addition, subscriber equipment 200 comprises detection module 230 and correcting module 240.Detection module 230 is sent to subscriber equipment 200 to adjust the sequencing control order of the up transmission timing of subscriber equipment 200 in order to base stations detected 201, decides this sequencing control order and whether meets aberrant commands condition.Correcting module 240, in order to when this aberrant commands condition meets, is revised this sequencing control order that base station 201 sends, and is decided the up transmission timing of subscriber equipment 200 according to this sequencing control order revised.
Please refer to Fig. 3, Fig. 3 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and the method can perform by subscriber equipment 200 as shown in Figure 2, and the step wherein shown in Fig. 3 is as follows:
Step 302: check that base station is sent to subscriber equipment and whether meets aberrant commands condition with the sequencing control order of the up transmission timing adjusting this subscriber equipment.
Step 304: revise the sequencing control order that this base station sends, and decide the up transmission timing of this subscriber equipment according to revised sequencing control order.
For example, adopt Time Division-Synchronous Code Division Multiple Access between subscriber equipment 200 and base station 201, in addition, above-mentioned sequencing control order can be simultaneous bias order.The present invention does not limit step 302 and ad hoc approach must be used to check whether sequencing control order meets aberrant commands condition, does not limit the sequencing control order that step 304 must use ad hoc approach to send to revise base station yet.In order to contribute to the flow process understanding subscriber equipment 200, the present invention enumerates following multiple embodiment, but those embodiments only illustrative object, not as restriction of the present invention.
Please refer to Fig. 4, Fig. 4 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and wherein Fig. 4 can be considered the change case done based on the flow process shown in Fig. 3, and step is as follows:
Whether step 402: the quantity and the threshold value that compare sequencing control order, decide aberrant commands condition and meet.
Step 404: when this aberrant commands condition meets, it is abnormal that subscriber equipment judges that the sequential control command received from base station occurs.
Step 406: revise the sequencing control order received at present according to the current translational speed of subscriber equipment or maximum translational speed.
Step 408: the up transmission timing deciding subscriber equipment according to revised sequencing control order.
The method whether Fig. 4 adopts the first detection aberrant commands condition to meet, in step 402, whether detection module 230 can receive the quantity of sequencing control order from base station 201 in the given time by statistics, and compare the quantity of this sequencing control order and a threshold value and decide this aberrant commands condition and meet.Such as, when the quantity of the sequencing control order sent in this scheduled time when base station 201 is greater than this threshold value, detection module 230 can judge at present to meet this aberrant commands condition and the suitable correction (step 404) of needs from the sequencing control order (such as simultaneous bias order) of base station 201, because if subscriber equipment 200 continues to receive too much sequencing control order, subscriber equipment 200 may be caused up transmitting time to be adjusted to too shift to an earlier date, namely institute's problems faced in aforementioned prior art.Note that the length of this scheduled time and the large I of this threshold value decide according to the current translational speed of subscriber equipment 200 or maximum translational speed, but the present invention is not limited thereto, the length of this scheduled time can decide according to practical application request.
In a step 406, the sequencing control order that base station 201 sends is revised by subscriber equipment 200, and decide the up transmission timing of subscriber equipment 200 in step 408 according to revised sequencing control order, especially, the sequencing control order received at present is revised according to the current translational speed of subscriber equipment 200 or maximum translational speed.In other words, the up transmission timing of subscriber equipment 200 does not directly decide according to the actual sequencing control order transmitted in base station 201, but can adjust according to the state of subscriber equipment 200 itself.
For example, information about the current translational speed of subscriber equipment 200 can be obtained by various sensing mechanism, or estimate according to the change of signal strength signal intensity, after learning the current translational speed of subscriber equipment 200, possible up transmitting time lead (Timing Advance) can be calculated according to this.In addition, subscriber equipment 200 maximum possible translational speed can be understood as, when user uses its mobile phone to communicate on the electric car of advancing at a high speed, maximum electric car gait of march allowed by this mobile phone, after learning the maximum possible translational speed of subscriber equipment 200, a fixing up transmitting time lead can be set according to this.
Please refer to Fig. 5, Fig. 5 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and wherein Fig. 5 can be considered another change case done based on the flow process shown in Fig. 3, and step is as follows:
Step 502: judge the up transmission timing whether only adjusting subscriber equipment within a scheduled time from multiple sequencing control orders of base station gradually single direction, decide aberrant commands condition and whether meet.
Step 504: when this aberrant commands condition meets, it is abnormal that subscriber equipment judges that the sequential control command received from base station occurs.
Step 506: revise the sequencing control order received at present according to the current translational speed of subscriber equipment or maximum translational speed.
Step 508: the up transmission timing deciding subscriber equipment according to revised sequencing control order.
The method whether Fig. 5 adopts the second detection aberrant commands condition to meet, in step 502, whether detection module 230 by judging whether only adjust the up transmission timing of subscriber equipment 200 gradually in single direction ground from multiple sequencing control orders of base station 201 in the given time, decide this aberrant commands condition and meeting.Such as, if up transmitting time just adjusts forward by sequencing control order (such as synch command) that base station 201 is transmitted continuously continuously, and up transmitting time is not adjusted to and delays, detection module 230 can judge at present to meet this aberrant commands condition and the suitable correction of needs from the sequencing control order (such as simultaneous bias order) of base station 201, because if only do unidirectional adjustment to up transmitting time within this scheduled time, up transmitting time then can be caused too to shift to an earlier date, namely institute's problems faced in aforementioned prior art.Other steps similar in appearance to previous embodiment will be omitted in this embodiment, repeat no more.
Please refer to Fig. 6, Fig. 6 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and wherein Fig. 6 can be considered the change case done based on the flow process shown in Fig. 3, and step is as follows:
Whether step 602: the quantity and the threshold value that compare sequencing control order, decide aberrant commands condition and meet.
Step 604: when this aberrant commands condition meets, it is abnormal that subscriber equipment judges that the sequential control command received from base station occurs.
Step 606: revise the sequencing control order received at present according to the descending timing variations amount of subscriber equipment.
Step 608: the up transmission timing deciding subscriber equipment according to revised sequencing control order.
Fig. 6 have employed the method whether the third detection aberrant commands condition meets, shown in method shown in Fig. 6 and Fig. 4, the difference of method is, step 606 considers the descending timing variations amount of subscriber equipment 200, estimate the up transmitting time lead of required adjustment, to revise the sequencing control order received at present.One of reason is that the descending sequential of subscriber equipment 200 can correspondingly change when sequential control command occurs abnormal.
Please refer to Fig. 7, Fig. 7 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and wherein Fig. 7 can be considered another change case done based on the flow process shown in Fig. 3, and step is as follows:
Step 702: judge the up transmission timing whether only adjusting subscriber equipment within a scheduled time from multiple sequencing control orders of base station gradually single direction, decide aberrant commands condition and whether meet.
Step 704: when this aberrant commands condition meets, it is abnormal that subscriber equipment judges that the sequential control command received from base station occurs.
Step 706: revise the sequencing control order received at present according to the descending timing variations amount of subscriber equipment.
Step 708: the up transmission timing deciding subscriber equipment according to revised sequencing control order.
Fig. 7 have employed the 4th kind of method detecting aberrant commands condition and whether meet, shown in method shown in Fig. 7 and Fig. 5, the difference of method is, step 706 considers the descending timing variations amount of subscriber equipment 200, estimate the up transmitting time lead of required adjustment, to revise the sequencing control order received at present, similar in appearance to previous embodiment, one of reason is that the descending sequential of subscriber equipment 200 can correspondingly change when sequential control command occurs abnormal.
Please refer to Fig. 8, Fig. 8 is detection and the modification method flow chart of sequencing control order according to an embodiment of the invention, and wherein Fig. 8 can be considered another change case done based on the flow process shown in Fig. 3, and step is as follows:
Step 802: whether have another subscriber equipment that uplink transmission power is greater than the uplink transmission power of this subscriber equipment near detecting subscriber equipment, decide aberrant commands condition and whether meet.
Step 804: when aberrant commands condition meets, it is abnormal that subscriber equipment judges that the sequential control command received from base station occurs.
Step 806: the uplink transmission power heightening subscriber equipment, revises to impel base station this sequencing control order sent next time.
Step 808: the up transmission timing deciding subscriber equipment according to revised sequencing control order.
The method whether Fig. 8 adopts the 5th kind to detect aberrant commands condition and meet, in step 802, whether detection module 230 can by having another subscriber equipment that uplink transmission power is greater than the uplink transmission power of subscriber equipment 200 near detecting subscriber equipment 200, decide this aberrant commands condition whether to meet, because when this another subscriber equipment has too large uplink transmission power, may cover or have influence on the up running of subscriber equipment 200 itself, in other words, the synchronous control command that the requirement that subscriber equipment 200 is passed in base station 201 adjusts up transmitting time may be based on this larger another subscriber equipment of uplink transmission power, but not based on subscriber equipment 200, therefore synchronous control command just can carry out mistake adjustment to the up transmission timing of subscriber equipment 200.
Then can heighten the uplink transmission power of subscriber equipment 200 in step 806, the sequential control command sent next time is revised to impel base station 201, wherein preferably the practice is that the uplink transmission power of subscriber equipment 200 is adjusted to the uplink transmission power being greater than this another subscriber equipment, but the present invention is not as limit.
In an execution mode, the step heightening the uplink transmission power of subscriber equipment 200 realizes by the uplink open-loop power control (Uplink Open-Loop Power Control, U-OLPC) enabling subscriber equipment 200.In general, closed-loop power control (closed loop power control) refers to the process that transmitting terminal controls transmitting power according to the feedback information that receiving terminal is sent here.Be different from closed-loop power control, open loop power control does not then need the feedback of receiving terminal, and the information that transmitting terminal (that is carrying out the subscriber equipment 200 of up transmission) measures according to self controls transmitting power.In addition, uplink open-loop power control constantly can compare the signal to noise ratio (Signal-to-Noise Ratio, SNR) between subscriber equipment 200 and base station 201, when signal to noise ratio is lower than demand, just heightens the ascending power of subscriber equipment 200; In addition, when signal to noise ratio is higher than demand, the ascending power of subscriber equipment 200 can also be turned down to carry out power saving.
The multiple change case that Fig. 3 step 302,304 is done is listed in the embodiment of Fig. 4 ~ Fig. 8, wherein correction base station 201 is sent to subscriber equipment 200 and separately or can mixes use with the multiple method (such as step 406, step 606 or step 506, step 706) adjusting the sequencing control order of the up transmission timing of subscriber equipment 200, such as, while considering the current translational speed of subscriber equipment 200 or maximum translational speed, heighten the uplink transmission power of subscriber equipment 200 in the lump, revise the sequencing control order received at present; Or while the descending timing variations amount of such as consideration subscriber equipment 200, heighten the uplink transmission power of subscriber equipment 200 in the lump, revise the sequencing control order received at present.
In sum, whether subscriber equipment of the present invention base stations detected sends voluntarily sequencing control order can there is exception, when detecting abnormal sequencing control order, the sequencing control order that subscriber equipment meeting active correction base station of the present invention sends, and decide up transmission timing according to revised sequencing control order, therefore, when subscriber equipment performs uplink synchronous, the up transmission timing of subscriber equipment just can be improved by the situation adjusted mistakenly.
Although the present invention discloses as above with preferred embodiment; so itself and be not used to limit the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (18)

1. a modification method for sequencing control order, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises:
This sequencing control order received at present is revised according to the current translational speed of this subscriber equipment or maximum translational speed; And
The up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
2. the modification method of sequencing control order according to claim 1, separately comprises:
Heighten the uplink transmission power of this subscriber equipment, revise to impel this base station this sequencing control order sent next time.
3. a modification method for sequencing control order, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises:
This sequencing control order received at present is revised according to the descending timing variations amount of this subscriber equipment; And
The up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
4. the modification method of sequencing control order according to claim 3, separately comprises:
Heighten the uplink transmission power of this subscriber equipment, revise to impel this base station this sequencing control order sent next time.
5. a modification method for sequencing control order, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the modification method of described sequencing control order comprises:
Heighten the uplink transmission power of this subscriber equipment, revise to impel this base station this sequencing control order sent next time; And
The up transmission timing of this subscriber equipment is decided according to this sequencing control order revised.
6. the modification method of sequencing control order according to claim 5, the step wherein heightening the uplink transmission power of this subscriber equipment comprises:
Enable the uplink open-loop power control of this subscriber equipment.
7. a detection method for sequencing control order, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the detection method of described sequencing control order comprises:
Statistics receives the quantity of the sequencing control order from this base station in the given time;
Compare quantity and the threshold value of this sequencing control order, decide aberrant commands condition and whether meet; And
When this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
8. the detection method of described sequencing control order according to claim 7, wherein the length of this scheduled time and the size of this threshold value decide according to the current translational speed of this subscriber equipment or maximum translational speed.
9. a detection method for sequencing control order, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the detection method of described sequencing control order comprises:
Judge the up transmission timing whether only adjusting this subscriber equipment in the given time from multiple sequencing control orders of this base station gradually single direction, decide aberrant commands condition and whether meet; And
When this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
10. the detection method of described sequencing control order according to claim 9, wherein the length of this scheduled time decides according to the current translational speed of this subscriber equipment or maximum translational speed.
The detection method of 11. 1 kinds of sequencing control orders, described sequencing control order is sent to subscriber equipment by base station, and to adjust the up transmission timing of this subscriber equipment, the detection method of described sequencing control order comprises:
Detect another subscriber equipment whether having uplink transmission power near this subscriber equipment and be greater than the uplink transmission power of this subscriber equipment, decide aberrant commands condition and whether meet; And
When this aberrant commands condition meets, it is abnormal that this subscriber equipment judges that this sequencing control order received from this base station occurs.
The detection method of 12. described sequencing control orders according to claim 7,9 or 11, wherein adopt Time Division-Synchronous Code Division Multiple Access between this subscriber equipment and this base station, and this sequencing control order is simultaneous bias order.
13. 1 kinds of subscriber equipmenies, comprise:
Detection module, this subscriber equipment is sent to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, wherein this detection module statistics receives the quantity of the sequencing control order from this base station in the given time, and compare quantity and the threshold value of this sequencing control order, decide this sequencing control order and whether meet aberrant commands condition; And
Correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
14. 1 kinds of subscriber equipmenies, comprise:
Detection module, this subscriber equipment is sent to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, whether wherein this detection module judges the up transmission timing whether only adjusting this subscriber equipment in the given time from multiple sequencing control orders of this base station gradually single direction, decide this sequencing control order and whether meet aberrant commands condition and meet; And
Correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
15. subscriber equipmenies according to claim 13 or 14, wherein this correcting module revises this sequencing control order received at present according to the current translational speed of this subscriber equipment or maximum translational speed.
16. subscriber equipmenies according to claim 13 or 14, wherein this correcting module revises this sequencing control order received at present according to the descending timing variations amount of this subscriber equipment.
17. 1 kinds of subscriber equipmenies, comprise:
Detection module, this subscriber equipment is sent to adjust the sequencing control order of the up transmission timing of this subscriber equipment in order to base stations detected, wherein this detection module detects another subscriber equipment whether having uplink transmission power near this subscriber equipment and be greater than the uplink transmission power of this subscriber equipment, decides this sequencing control order and whether meets aberrant commands condition; And
Correcting module, in order to when this aberrant commands condition meets, revises this sequencing control order that this base station sends, and decides the up transmission timing of this subscriber equipment according to this sequencing control order revised.
18. subscriber equipmenies according to claim 17, wherein this correcting module heightens the uplink transmission power of this subscriber equipment, revises to impel this base station this sequencing control order sent next time.
CN201410085551.2A 2014-03-10 2014-03-10 Detection method, modification method and the user equipment of timing control order Active CN104918316B (en)

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Application Number Priority Date Filing Date Title
CN201410085551.2A CN104918316B (en) 2014-03-10 2014-03-10 Detection method, modification method and the user equipment of timing control order

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Application Number Priority Date Filing Date Title
CN201410085551.2A CN104918316B (en) 2014-03-10 2014-03-10 Detection method, modification method and the user equipment of timing control order

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